Bovine ABCG2 gene missense mutations and uses thereof

BACKGROUND

Although many studies have demonstrated linkage between genetic markers and quantitative trait loci (QTL) in commercial animal populations, the actual DNA polymorphisms responsible for the observed effects--a quantitative trait nucleotide (QTN), has been identified in only a single case in dairy cattle (a polymorphism in exon 8 of the gene encoding acylCoA:diacyglycerol acyltransferase DGAT1) on Bos taurus chromosome 14 (BTA 14), which was associated with increased fat yield, fat and protein percent, as well as decreased milk and protein production. This gene was identified using bioinformatics, comparative mapping, and functional analysis.

Various studies have proposed candidate genes for the QTL on BTA6 based on their putative physiological role on the trait of interest. PPARGC1A (peroxisome proliferator activated receptor gamma, coactivator 1, alpha) was suggested as a positional and functional candidate gene for the QTL on BTA6, due to its key role in energy, fat, and glucose metabolism. The function of PKD2 corresponds with the QTL effect. This gene encodes an integral membrane protein involved in intracellular calcium homoeostasis and other signal transduction pathways. SPP1 was set forth as having an essential role in mammary gland differentiation and branching of the mammary epithelial ductal system, and is therefore a prime candidate. Furthermore, anti-sense SPP1 transgenic mice displayed abnormal mammary gland differentiation and milk secretion.

Segregating quantitive trait loci (QTL) for milk production traits on chromosome BTA6 were reported in U.S. Holsteins, British black and white cattle, Norwegian cattle, and Finnish Ayrshires. Three QTLs affecting milk, fat, and protein production, as well as fat and protein concentration are segregating on BTA6 in the Israeli Holstein population. The QTL with the greatest significance was located near the middle of the chromosome, with a confidence interval of 4 cM for protein percentage centered on microsatellite BM143. Two unrelated Israeli sires were found to be heterozygous for this QTL, whereas seven other sires were homozygous for the QTL.

The QTL confidence interval on BTA6 is orthologous to two regions on both arms of human chromosome 4 (HSA4) that contain the following annotated genes: FAM13A1, HERC3, HERC5, HERC6, PPM1K, ABCG2, PKD2, SPP1, MEPE, IBSP, LAP3, MED28, KIAA1276, HCAP-G, MLR1, and SLIT2. Physical mapping and combined linkage and linkage disequilibrium mapping determined that this QTL is located within a 420 Kbp region between genes ABCG2 and LAP3.

ABCG2, a member of the ATP binding cassette (ABC) superfamily, is a `halftransporter," with only one ATP binding cassette in the N-terminus and one C-terminal transmembrane domain. In an ATP dependent process, ABCG2 transports various xenobiotics and cytostatic drugs across the plasma membrane. Analysis of different stages of mammary development by immunohistochemistry and western analysis revealed that ABCG2 was not expressed in virgin mice, but was greatly induced during late pregnancy and especially during lactation. ABCG2 expression is confined to the apical membrane of alveolar; but not ductal mammary epithelial cells of mice, cows, and humans; and is responsible for the active secretion of clinically and toxicologically important substrates into mouse milk. Mice homozygous for an ABCG2 knock-out mutation lack this function. However, -/-mice and their suckling progeny showed no adverse effects. ABCG2 is thought to be a drug transporter, but it is induced by estrogen. Related genes i.e. ABCG1, 5, and 8 are sterol transporters. It is therefore reasonable to propose that ABCG2 might transport cholesterol into milk.

Whereas in other tissues ABCG2 generally has a xenotoxin-protective function, transfer of xenotoxins from the mother to the suckling infant or young via milk is difficult to reconcile with a protective role.

As compared to other agricultural species, dairy cattle are unique in the value of each animal, the long generation interval, and the very limited fertility of females. Thus unlike plant and poultry breeding, most dairy cattle breeding programs are based on selection within the commercial population. Similarly, detection of quantitative trait loci (QTL) and marker assisted selection (MAS) programs are generally based on analysis of existing populations. The specific requirements of dairy cattle breeding has led to the generation of very large data banks in most developed countries, which are available for analysis.

SUMMARY

An isolated polynucleotide includes a coding region of the ABCG2 gene having a missense mutation. The ABCG2 gene includes three splice variants. A promoter region for expression of ABCG2 and its variants are disclosed. An expression construct that includes the ABCG2 gene or its variants or a functional fragment there of, is disclosed.

A positional cloning of a QTL in an outbred cattle population is described herein. A single nucleotide polymorphism (SNP) capable of encoding a substitution of tyrosine-581 to serine (Y581S) in ABCG2 is responsible for a major QTL affecting milk yield and composition.

Sequences designated by GenBank accession nos. AJ871966, AJ871964, AJ871963, AJ871176, AJ871967, AJ871968, AJ871965, AJ877268 are incorporated herein by reference.

A functional role for ABCG2 gene in natural milk secretion is disclosed.

A method of determining whether a mammal has a ABCG2 gene that includes a missense mutation as described herein, includes obtaining a suitable sample from the animal and determining the presence or absence of a missense mutation in ABCG2 locus. At least three such missense mutations are disclosed in ABCG2 locus.

Methods for cattle breeding and cattle selection for increased milk production based on ABCG2 missense mutation analysis are disclosed.

A cattle herd in which the individuals carry the ABCG2 gene having a missense mutation as described herein in a homozygous or heterozygous form, is disclosed.

A kit includes reagents for executing the methods disclosed herein. Small molecules or drugs are used to control expression of ABCG2.

A single nucleotide change (A/C) in exon 14 capable of encoding a substitution of tyrosine-581 to serine (Y581S) in the ABCG2 gene affects milk production traits. A polymorphism that is in linkage disequilibrium or in allelic association with the ABCG2 polymorphisms disclosed herein are within the scope of this disclosure. Closely linked or tightly associated polymorphisms with the ABCG2 locus are useful in marker assisted selection programs for increased milk production and other desirable traits such as time to weaning.

Table 10 presents terminology used herein.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1. Genes within the critical region of the QTL on BTA6 proximal to BM143 were ordered based on the cattle-human genome comparative map, 23 bovine BAC clones representing contig 503; with SPP1, IBSP, and LAP3 as anchors for the orthologous regions on HSA4. BM143 is indicated (in bold type) as the most informative marker for the QTL in cattle. Polymorphism is displayed at the respective gene positions for the two sires 2278 and 3099, heterozygous for the QTL (+/-). The alleles of the diallelic markers are denoted as either 1 or 2, with the more frequent allele denoted 1. BM143 alleles were numbered consecutively for shortest to longest based on all alleles detected in the population. Shared haplotypes in concordance with the segregation status of the two sires for the QTL are displayed.

FIG. 2. Expression data for SPP1 and ABCG2 in bovine mammary (M) and liver (L) tissues. Fold-change values are normalized intensity during pregnancy (-65, -30 and -15 d to calving date) and lactation (1, 15, 30, 60 and 120 d postpartum) using day -15 d as a base for comparison.

FIG. 3: Genetic trends for protein and fat concentration and frequency of the ABCG2 581 Y allele in the Israeli Holstein cow population by birth year. --, ABCG2 581Y allele frequency, .cndot..cndot..cndot., mean yearly breeding values for % fat; - -, mean yearly breeding values for % protein.

FIG. 4: Conservation of the 5.sup.th extracellular domain of ABCG2 protein in mammals. The ClustalW (Thompson et al., 1994) alignment of predicted amino acid sequences of nine orthologous ABCG2 genes is shown (SEQ ID NOS: 190-198, respectively in order of appearance). Identity and similarity between the amino acid sequences are indicated by black and grey boxes, respectively. White boxes indicate nonconservative amino acid changes between the proteins. Dashes indicate gaps introduced by the alignment program. The position of 581Y in Bos taurus for which the sires heterozygous for the QTL were 581Y/581S is indicated by an arrow. A conserved phenylalanine residue is located in this position for most of the other mammals.

FIG. 5: Linkage disequilibrium values for adjacent markers computed from 411 Israeli Holstein bulls.

FIG. 6 is a schematic representation of the bovine ABCG2 gene, including the three alternative first exons (variants 1a, 1b and 1c). Black boxes and numbers from 2 to 16. First ATG is located in exon number 2.

FIG. 7 shows expression data for variants 1a (dark), 1b (dark grey) and 1c (light grey) in the first exon of bovine ABCG2 gene: (A) in the mammary gland (B) in the liver, during lactation, comparing to day 15 on dry period. Expression levels were analyzed using real-time PCR analysis.

DETAILED DESCRIPTION

A quantitative trait locus (QTL) affecting milk fat and protein concentration was localized to a 4cM confidence interval on chromosome 6 centered on the microsatellite BM143. The genes and sequence variation in this region were characterized, and common haplotypes spanning five polymorphic sites in the genes IBSP, SPP1, PKD2, and ABCG2 for two sires heterozygous for this QTL were localized. Expression of SPP1 and ABCG2 in the bovine mammary gland increased from parturition through lactation. SPP1 was sequenced, and all the coding exons of ABCG2 and PKD2 were sequenced for these two sires. The single nucleotide change capable of encoding a substitution of tyrosine-581 to serine (Y581S) in the ABCG2 transporter was the only polymorphism corresponding to the segregation status of all three heterozygous and 15 homozygous sires for the QTL in the Israeli and US Holstein populations. The allele substitution fixed effects on the genetic evaluations of 335 Israeli sires were -341 kg milk, +0.16% fat, and +0.13% protein (F-value=200). No other polymorphism gave significant effects for fat and protein concentration in models that also included Y581S. The allele substitution effects on the genetic evaluations of 670 cows, daughters of two heterozygous sires, were -226 kg milk, 0.09% fat, and 0.08% protein (F-value=394), with partial dominance towards the 581S homozygotes. Y581S in ABCG2 is likely the causative site for this QTL.

The variation in SPP1 (OPN3907) is an indel (insertion and deletion) in poly-T tract .about.1240 bp upstream of SPP1 transcription initiation site. Accurate genotyping of such region would require a tedious subcloning of the PCR products to allow separation between the homologous chromosomes present in each heterozygous individual. In several instances OPN3907 region was sequenced using cloned DNA or homozygous individuals revealing three distinct alleles that are present in this locus. Interestingly all cloned sequences deposited in GenBank (AJ871176, AC185945, NW.sub.--931635) were of the allele with nine thymines (T9) described as rare (frequency 0.05). The latter also sequenced an allele (T10, AY878328) from a homozygous individual. Sequencing of sire 3208 revealed the third allele with nine thymines followed by three adenines. Hence this locus displayed length variation typical of a microsatellite with different numbers of repeats of either thymines or adenines. These alleles were designated SPP1M1-M3, respectively. Sequencing of heterozygous individuals resulted in superimpositions, which were traced as follows: SPP1M1 and SPP1M2; SPP1M2 and SPP1M3; SPP1M1 and SPP1M3. Using this scheme a sample of genotypes of sires that segregate (Y) and do not segregate for the QTL (N) and sire homozygous for the ABCG2 581 S allele were found. While the status of the ABCG2 mutation was in concordance with the QTL status, concordance was observed with neither the length of the T track nor the allele status of the SPP1 microsatellite. For example, the traces of the three sires segregating for the QTL were all of the type M1/M2 and were indistinguishable from that of the non-segregating sire 3241. This indicates that the variation in ABCG2 is probably responsible for the QTL Sequencing of sires homozygous for the Y581S haplotype (2182; 2227; 3573; 3396; 3094) associates it with SPP1M1 (T9). The results indicate that sire 2176 that has one of lowest protein % ever recorded in Israel is homozygous for Y581 S but heterozygous for SPP1M. Moreover within the BAC clone of Holstein breed (AJ871176) the SPP1M1(T9) is associated with the ABCG2 Y581 plus allele, and thus demonstrating that there are Holsteins available for such a linkage disequalibrium study. Sire 3028 has one of the highest protein % and therefore is unlikely to be homozygous for the minus QTL allele. This sire is indeed homozygous the ABCG2 581 S allele but also for SPP1M3(T9) and would have been considered to be homozygous for the minus QTL allele. Sire 5117, segregating for the QTL is Carlin-M Ivanhoe Bell that was used heavily in global breeding programs. Tests for concordance of the ziygosity state between the QTL segregation status and the candidate polymorphism is a powerful tool for identifying the functional mutation underlying the QTL.

A polymorphism that is in linkage disequilibrium or in allelic association with the ABCG2 polymorphisms disclosed herein are within the scope of this disclosure. Closely linked or tightly associated polymorphisms with the ABCG2 locus are useful in marker assisted selection programs for increased milk production and other desirable traits such as time to weaning, meat quality and quantity. For example, a person of ordinary skill in the art can readily identify polymorphisms that are closely linked to the Y581S and other polymorphisms disclosed herein. Thus, the Y581S polymorphism serves as an anchor polymorphism to find other closely linked polymorphisms.

Comparative and Physical Mapping of the Critical Region for the BTA6 QTL

By combining comparative genomics and in-silico gene cloning, a map was produced of genes and sequence variation in the critical region of the QTL (FIG. 1). Gene order was confirmed by physical mapping of PCR probes in BAC clones that are part of genomic contigs 503 and 8342 disclosed herein. BM143 and SLIT2 were identified within contig 8342. Fifteen genes within 2 cM centromeric to BM143 were identified within contig 503 orthologous to two different regions on HSA4. FIG. 1 shows the predicted order, size, and orientation of transcription of the genes within contig 503, based on their corresponding features in the human genome.

Polymorphism Detection, LD Mapping, and Haplotype Analysis

A total of 31,655 bp was sequenced in intergenic, exonic, and intronic regions of 10 genes within the critical region of the QTL using DNA of two sires (2278 and 3099) heterozygous for the QTL (Table 1). Thirteen sites heterozygous in at least one of the two sires were selected as markers and genotyped for 411 sires. A single polymorphic site was genotyped in seven genes, and two polymorphic sites were genotyped in each of the three genes SPP1, ABCG2, and FAM131A1. Henceforth, the polymorphisms will be denoted by gene symbols for seven single gene polymorphisms, and by the gene symbol followed by either (1) or (2) for the genes with two polymorphisms. All sites of polymorphism were in highly significant LD (P<0.0001) with at least one other site. LD values of adjacent markers are plotted in FIG. 5. Generally LD values between adjacent markers were >0.2. Exceptions were the BM143-MRL1-MED28 segment, LAP3-IBSP, and HERC6--FAM13A1. The two sires heterozygous for the QTL share common haplotypes for the polymorphic sites at IBSP, SPP1, PKD2, and ABCG2 (FIG. 1). For both sires the same haplotype was associated with increased protein concentration.

Cloning of Bovine ABCG2, PKD2, and SPP1 Genes

A bovine BAC clone containing the three genes, SPP1, PKD2, and ABCG2 (GenBank accession AJ871176) was shotgun sequenced. By aligning this sequence with bovine ESTs and human orthologous genes in this BAC the last 15 exons of the bovine ABCG2 gene were identified in this BAC, which included the whole putative polypeptide sequence of the ABCG2 transporter (protein CAI38796.1). In the opposite orientation on the BAC 15 exons of the gene orthologous to human PKD2 (CAI38797.1), and seven exons of bovine SPP1 (CAI38798.1) were annotated. The entire description of the cloning procedure is presented in the Materials and Methods.

Expression of Candidate Genes in the Bovine Mammary Gland

Of the eight genes analyzed, three genes; SPP1, ABCG2, and MED28 showed significant differential expression in the mammary gland during lactation, as compared to the dry period (p<0.02). Significant differential expression was not found in liver tissue. Expression of SPP1 and ABCG2 in the mammary gland and liver during lactation and the dry period is shown in FIG. 2. The increase in the mammary gland was 8- and 20-fold for the two genes respectively.

The ABCG2 Missense Mutation Y581S

Using this BAC data, the exons, introns, and part of the regulatory region of SPP1, and all the coding exons of PKD2 and ABCG2 for the two Israeli sires heterozygous for the QTL were sequenced. The single nucleotide change, A to C, denoted ABCG2(2), capable of encoding a tyrosine to serine substitution at position 581 (Y581S) in the 5.sup.th extra-cellular region of the ABCG2 protein, was detected. Henceforth, the A allele, capable of encoding tyrosine, which was the more frequent allele in the population, will be denoted the +QTL allele. The +QTL allele decreases milk yield, and thus increases fat and protein concentration. Of the 341 sires with valid genotypes, 12 were homozygotes -/-, 109 were heterozygotes, and 220 were homozygotes +/+. The +QTL allele frequency was 0.805 and the genotype frequencies corresponded nearly exactly to the expected Hardy-Weinberg frequencies. ABCG2(2) was the only polymorphism corresponding to the segregation status of all three heterozygous and 15 homozygous sires for the QTL in the Israeli and US Holstein populations. The probability of concordance by chance, computed as described in the Materials and Methods=(0.68.sup.15)(0.16.sup.2)=0.00008.

Allele Substitution Effects and Dominance

The Model 1 effects of the markers on the quantitative traits are given in Table 2. This model estimated the effects associated with the polymorphisms on the sire evaluations for the milk production traits, with each polymorphism-trait combination analyzed separately (Cohen et al, 2004a). The number of bulls with valid genotypes and the frequency of the more common allele for each marker are also given. Most of the markers had highly significant effects on protein concentration, but the effect associated with ABCG2(2) was more than double the next largest effect. LAP3, MED28, ABCG2(2), and HERC6 had significant effects on fat and protein yield, while ABCG2(2), SPP1(1), SPP1(2), and PKD2 were associated with milk yield. The effect associated with ABCG2(2) on milk was double the next largest effect, and the effect associated with % fat was triple the next largest effect observed.

The effects on the quantitative traits associated with 670 daughters of the two sires heterozygous for the QTL are given in Table 3, both as class effects, and as regression effects. The class effects are given relative to the 581S homozygote (-/-). Dominance was estimated from the class effects, relative to the 581S homozygote. The regression effects estimated from the animal model analyses of the entire Israeli Holstein population are also given. Israel and Weller (1998) demonstrated that QTL effects will be underestimated by the analysis of genetic evaluations, especially genetic evaluations of cows, which have relatively low heritability, while estimates derived from animal model analyses of the entire population will be unbiased. The effects derived from the animal model for milk, percentage fat, and percentage protein were more than double the regression effects from the analyses of the genetic evaluations. This was not the case for fat and protein yield, but these effects were only marginally significant in the analyses of the genetic evaluations. For all five traits, the heterozygous effect was within the range of the two homozygous effects. Significant partial dominance was obtained for both percentage fat and percentage protein towards the 581S homozygote, which was also the less frequent allele among the daughters of the heterozygous sires.

Variance Components and Marker Substitution Effects from REML Analysis

The numbers of genotyped bulls and ancestors included in the variance component analyses are provided herein for the analyses of ABCG2(2) alone, and the analyses of ABCG2(2) with SPP1(2), HERC6, and LAP3. These analyses are presented because these markers gave the greatest Model 1 effects on the production after ABCG2(2). In each analysis the number of ancestors was slightly greater than the numbers of genotyped bulls. The total number of bulls included in each analysis ranged from 641 to 758.

The variance components are presented herein for all four analyses. The residual effects were generally low, because genetic evaluations were analyzed. In all four analyses, the variance components and the substitution effects associated with ABCG2(2) for fat and protein percentage were quite similar. The substitution effects were close to 0.21% for both traits in all analyses. These values are also close to the values of 0.22 and 0.19 for fat and protein percentage obtained from the animal model analysis. The variance components for all the markers other than ABCG2(2) were near zero for fat and protein percentage. The variance components associated with SPP1(2) were near zero for all five traits. These results correspond to the hypothesis that ABCG2(2) is the causative mutation for the QTL affecting fat and protein concentration.

The variance component associated with ABCG2(2) for milk was similar in all analyses, except for the analysis that included HERC6. In this analysis the variance component for ABCG2(2) increased to 160,000. This can be explained by postulating that two QTL are segregating on this chromosome that affects milk production, and that in general these two QTL are in repulsion throughout the population. Thus a greater effect was observed associated with ABCG2(2) with HERC6 included in the model, because the "masking" effect was removed. Sire 2278 was also segregating for the QTL proximate to the centromere, but the effects on milk were in repulsion for this sire. This QTL affects milk, fat, and protein production, but not fat or protein concentration. The effects associated with LAP3 affected milk and fat yield and protein concentration. Unlike the analyses including ABCG2(2) and HERC6, in the analyses including ABCG2(2) and LAP3, the variance components associated with both markers were positive for fat and protein yield. This corresponds to the hypothesis that neither of these markers are in complete linkage for the QTL responsible for fat and protein yield.

Genetic Trend

The genetic trend for the 581 Y of ABCG2 (2) in the entire cow population is shown in FIG. 3. The mean annual breeding values for fat and protein percent are also given. The frequency of 581Y allele by birth date of cows decreased from 0.75 in 1982 to 0.62 in 1990, and then increased to 0.77 in 2002. These trends correspond to the change in the Israeli breeding index, which was based chiefly on milk production until 1990. Since then the index has been based chiefly on protein with a negative weight for milk yield.

Conservation of ABCG2 581 in Mammals

Comparison of this protein domain across mammals is presented in FIG. 4 for the region spanning amino acid 557 to 630. The arrow indicates position 581 for which tyrosine and serine were found for the three sires heterozygous for the QTL. Phenylalanine is the conserved amino acid in the mammals analyzed, except for Canis familiaris and Bos taurus with tyrosine at this position. Both tyrosine and phenylalanine are aromatic acids, while serine is a nucleophilic acid.

Proof for identification of a gene underlying a QTL in commercial animal populations results from multiple pieces of evidence, no single one of which is convincing, but which together consistently point to a candidate gene.

Diverse pieces of evidence support the conclusion that ABCG2 is the segregating QTL on BTA6:

1. The shared haplotypes of the two sires segregating for the QTL spanned five sites of polymorphism in the genes IBSP, SPP1, PKD2, and ABCG2. This is equivalent to the 420 Kbp region found in the Norwegian cattle (Olsen et al., 2005), except that it is shorter on the 5' end of ABCG2 (exons 1 to 3) and the 3' end of LAP3 (exons 12 and 13). The same haplotype was associated with the +QTL allele in both sires.

2. The two genes within the shared haplotype, ABCG2 and SPP1, were preferentially expressed in the bovine mammary gland at the onset of lactation. Furthermore, large scale analysis of human and mouse transcriptomes revealed that ABCG2 had the highest expression in the mammary among 61 organs and tissues tested.

3. Of the polymorphisms genotyped only ABCG2(2) was in concordance with the segregation status of all three heterozygous and 15 homozygous sires for the QTL in the Israeli and US Holstein populations. The probability that this would occur by chance is 0.00008.

4. ABCG2(2) is capable of encoding a non-conservative amino acid change (Y581S) that may affect this gene transporter function.

5. The highest population-wide substitution effects on milk yield and fat and protein concentration were obtained for the Y581S polymorphism in ABCG2, and these effects were more than double the next largest effects associated with any of the other polymorphisms.

6. In the analysis of over 300 genotyped bulls, none of the other polymorphisms gave significant effects for fat and protein concentration in models that also included Y581S.

7. The high Y581S allele substitution effects on the genetic evaluations of 670 cows, daughters of two heterozygous sires, represent the joint effects of both paternal and maternal alleles. The F-value was 394 for % protein.

8. Protein and fat concentration for cows homozygous for the 581S allele was lower than the heterozygotes, even though the second 581S allele was of maternal origin, and therefore unrelated to the daughter design effects.

9. The frequency of 581Y allele by birth date of cows decreased from 0.75 in 1982 to 0.62 in 1990, and then increased to 0.77 in 2002, in correspondence with the changes in the Israeli Holstein selection index. The close correspondence between the two analyses supports the conclusion that ABCG2(2) is the QTN, although it could also be due to a "hitch-hiker" effect.

10. Weller et al. estimated the frequency of the +QTL allele in the Israeli Holstein population as 0.69 and 0.63, relative to fat and protein percent, by the modified granddaughter design for cows born between 1992 and 1996. This corresponds closely to the frequency of 0.69 for 581Y as estimated in the current study for cows born in 1994.

All 18 Israeli and US sires with known QTL genotypes were sequenced and shown that this chromosomal segment is hyper-variable. At least four single nucleotide changes were found within the 20 bp region centered on the poly-A sequence. All sires except one were heterozygous for at least one of these polymorphisms. The conclusion was that OPN3907 is not the QTN. However, as long as the entire chromosomal segment within the confidence interval of the QTL has not been sequenced in the sires with known QTL genotypes, it is not possible to completely eliminate the possibility that the QTN may be some other polymorphism in strong LD with Y581S.

This is the first example of a functional role for the ABCG2 gene in natural milk secretion.

Identification of Three Promoters for the Bovine ABCG2 Gene

The existence of three different promoters for three different 16-exon transcripts of ABCG2 gene is reported in GenBank accessions BE480042 and CK838023. The 5' region of this gene is assembled and the sequence is disclosed herein.

The current sequence of the bovine genome is based on sequence derived from a Hereford cow. The WGS trace files were BLAST searched with the cow genome database using the sequences of the three different variants. All the trace files were downloaded and their corresponding mates and assembled them using the GAP4 computer program, monitoring the consistency of the mate-pair data and adding or removing trace files accordingly. The contigs of each of the three variations were expanded using additional trace files that were found by searching against the contig end sequences. Eventually all the contigs were merged into one assembly, confirming the existence of three alternative first exons of ABCG2 including the GT motives for splice donors at their ends. The final assembly spanned 627 sequence reads in a length of 235,109 bp (FIG. 6). Following confirmation of the existence of the three promoters, their expression was verified in lactating cow mammary gland.

The promoters of ABCG2 gene and its splice variants are useful in increasing expression of a gene of interest in a suitable tissue such as, mammary gland, and during a specific period, e.g., during lactation.

Expression of the Three Splice Variants of ABCG2 Gene in Bovine Mammary Gland

All three variants showed significant expression in the cow mammary gland during lactation, as compared with the dry period (p<0.0002), using real-time PCR analysis. Significant differential expression was not found in liver tissue which was used as a control. Expression of the three variants in mammary gland and liver tissues is shown in FIG. 7A-B. Variant 1c showed the highest expression, of 5-fold in the mammary gland on day 120 in lactation. Variants 1a and 1b showed an expression of 3 and 4 fold respectively on day 60 in lactation.

Materials and Methods

PCR primers and their corresponding numbers are presented in Table 7. All GenBank and other publicly available database accession numbers disclosed herein are incorporated by reference.

Physical mapping and bioinformatics. The order and location of the genes in the QTL region were determined in the bovine bacterial artificial chromosomes (BACs) from the CHORI-240 BAC library (Warren et al., 2000). Repeat-masked end sequences from CHORI-240 clones obtained from the GenBank for BLASTN search against the human genome sequence (NCBI build 33) were used. The cattle fingerprint contigs (BCCRC, Vancouver, Canada) were identified that contain clones anchored to the human genome by sequence similarity. Cattle fingerprint contig 503, which covers the confidence interval region of the QTL upstream to BM143 in HSA4, is diagramed in FIG. 1. The contig is represented on the axis of HSA4 in the following positions: 89,077,921-90,827,214 and 17,255,215-17,699,645 available at website (genome.ucsc.edu/goldenPath/hgTracks.html). A minimum tiling path of 23 cattle BACs between these positions covering the region of the QTL from FAM13A1 to MLR1 were selected. The exact position of each gene in the human genome was identified using the UCSC Genome Browser database. Bovine BAC clones presumably containing the same gene in cattle were identified by their end sequence similarity to the human genome and presented in Table 5. When there was no BAC clone with both ends covering the whole interval of the candidate gene, several overlapping BACs with single ends matching the upper and lower boundaries of the gene interval and covering the whole region were selected for PCR analysis. The BAC templates were prepared by picking colonies grown overnight and boiling them in 200 .mu.l of ddH.sub.2O for 10 minutes. Bioinformatics procedures, management of DNA sequences and EST assembly were done as previously described (Cohen et al., 2004a).

Identification of polymorphism in genes within the critical region of the QTL. To search for relevant informative genomic variation in the critical region of the QTL the genomic DNA of the two sires heterozygous for the QTL served as a template. PCR amplified genomic fragments of the bovine orthologs of the human genes are listed in Table 1. In most cases the bovine sequence required for the design of PCR primers was obtained from bovine ESTs of the orthologous genes. The PCR products were sequenced for polymorphism detection. Nucleotide substitution was detected by double peaks for the specific nucleotides, and insertion was detected by sequence overlap that was analyzed using ShiftDetector (Seroussi et al., 2002).

Experimental design and haplotype analysis. The search for the QTN was based on genotyping of the following samples:

1. Two sires heterozygous for the QTL (2278 and 3070), and seven sires homozygous for the QTL in the Israeli population as determined using a daughter design (Ron et al., 2001).

2. A single sire heterozygous for the QTL (DBDR family 9), and eight sires homozygous for the QTL in the US population (DBDR family 1 to 8) as determined using a granddaughter design analysis (Ashwell et al., 2004).

3. Six-hundred-and-seventy daughters of two Israeli sires heterozygous for the QTL with genetic evaluations for production traits (Ron et al., 2001).

4. Four-hundred-and-eleven progeny-tested Israeli sires with genetic evaluations for production traits (Cohen et al., 2004a).

5. Eight cows with mammary biopsies and five cows with liver biopsies.

The 411 Israeli Holstein sires with genetic evaluations for all five milk production traits were genotyped for the 13 markers listed in Table 1 and BM143. Eleven markers were SNPs, one was a two-base polymorphism, and two were microsatellites (BM143, and the polymorphic site in MLR1). Twenty daughters of each of the two Israeli sires heterozygous for the QTL were also genotyped for all 14 markers to determine the haplotypes of the two sires. Genotyping of polymorphism was performed following Cohen et al., (2004a). The genotyping platform and specific assay for each site are presented in Table 6.

Statistical analysis. LD parameters values were computed between each pair of markers as described by Hedrick (1987). Probability of concordance by chance between the QTL and a polymorphism was computed only for ABCG2(2), which was the only marker in complete concordance with the 18 sires with known QTL genotype (Ron et al., 2001; Ashwell et al., 2004). Since only polymorphisms heterozygous in at least one of the sires heterozygous for the QTL were genotyped on the complete sample of bulls, the probability of concordance with the QTL only considered the remaining 17 sires. This is computed as the probability that all 15 sires homozygous for the QTL should also be homozygous for the polymorphism, and that the two remaining sires heterozygous for the QTL should also be heterozygous for the polymorphism, and that in all three heterozygous sires the same QTL allele should be associated with the same marker allele. Thus probability of concordance=p.sub.1.sup.15(p.sub.2/2).sup.2, where p.sub.1=probability of homozygotes, and p.sub.2=probability of heterozygotes. P.sub.2 was divided by two, because for concordance to be complete, the two additional heterozygous sires must have the same ABCG2(2) allele associated with the +QTL allele as the original genotyped sire.

Genetic evaluations for milk, fat, and protein were computed by a multitrait animal model analysis of the entire Israeli Holstein population (Weller and Ezra, 2004). Evaluations for fat and protein percent were derived from the evaluations for the production traits. The following fixed linear model, denoted Model 1, was used to estimate the effect associated with each one of the polymorphisms for each of five traits analyzed (Cohen et al., 2004a): Y.sub.ijkl=a.sub.iJ+b.sub.iK+c.sub.i(K).sup.2+e.sub.ijkl

where, Y.sub.ijkl is the genetic evaluation of sire 1 with marker genotype j and birth year k for trait i; J is the number of "+" alleles (j=0, 1 or 2); K is the sire's birth year; a.sub.i, b.sub.i and c.sub.i are regression coefficients for trait i; and e.sub.ijkl is the random residual for each sire for trait i. The "+" allele for ABCG2(2) was the allele associated with increased protein concentration. For all the other markers, the allele in LD association with the "+" for ABCG2(2) was denoted the "+" allele. BM143 was analyzed as a diallelic marker, as described herein. The linear and quadratic effects of the sires' birth year were included to account for genetic trends in the population. The effects of the markers were also analyzed with three marker genotypes as class effects. Linear and quadratic birth year trends of the markers were also estimated.

Model 1 does not account for the relationships among sires or linkage among markers. Thus the genetic evaluations were also analyzed for a subset of the markers with the greatest effects by the following model, denoted Model 2: Y.sub.ijk=a.sub.iJ+g.sub.ik+e.sub.ijk

Where, g.sub.ik is the additive polygenic effect for animal k on trait i, and the other terms are as defined previously. This model differed from the previous model in that all three effects were considered random, and the numerator relationship matrix was used to compute the variance matrix for the polygenic effect. In order to obtain a more complete relationship structure, all known parents and maternal grandsires of the genotyped bulls were included in the analysis. The numbers of animals in each analysis are given in Table 6. REML variance components were computed for the "a" and "g" effects by the MTC program University of Georgia, Department of Animal and Dairy Science, Athens, Ga.). Marker substitution effects were derived as: [(Var a)/(2 pq)].sup.1/2 where "Var a" is the marker variance component, and p and q are the frequencies of the two QTL alleles, as derived from the sample of 411 genotyped sires (Weller, 2001). This model was also used to analyze marker pairs with highly significant effects on the quantitative traits as determined by Model 1.

Dominance of the QTL effect can only be estimated by comparison of cows that are heterozygous for the QTL to cows that are homozygous for the two alternative alleles (Weller et al., 2003). The genetic evaluations for the five milk production traits of 670 daughters of two Israeli sires heterozygous for the QTL were analyzed by a model that also included the sire effect. The QTL was considered a class effect and significance of dominance was estimated by significance of the difference between the midpoint of the two homozygote effects and the mean of the heterozygote effect. The dominance effect was estimated as the ratio of the difference between the heterozygote effect and the mid point of the homozygote effects, divided by half the difference between the homozygote effects. Cow genetic evaluations are based on relatively few records, and are therefore highly regressed. Thus the QTL effects estimated from this model will also be underestimated (Israel and Weller 1998). However, this should not have a major effect on the estimate of dominance, which was derived as a ratio of the estimated effects.

Genotype probabilities for ABCG2(2) were determined for the entire Israeli Holstein milk-recorded population, including 600,478 cows and 1670 bulls, using the segregation analysis algorithm of Kerr and Kinghorn (1996), based on the 335 bulls with valid genotypes. Finally, the QTL effects for milk, fat, and protein yield were estimated from the entire Israeli Holstein milk-recorded population based on the genotyped cows, as proposed by Israel and Weller (1998). These QTL estimates should be unbiased, unlike the estimates derived from analysis of the genetic evaluations. The effects for fat and protein percent were derived from the estimated effects for the yield traits as described by Weller et al., (2003).

The detailed procedures for biopsy procedures, RNA extraction, BAC clone selection, subcloning and shotgun sequencing, real-time PCR, and computation of LD parameter values and ABCG2(2) genotype probabilities for the entire Israeli Holstein population are presented herein.

The cattle BACs covering the region from FAM13A1 to MLR1: E0152P21, E0375J15, E0259M14, E0101G10, E0181A19, E0303P06, E0274F22, E0098H02, E0445L10, E0060K13, E0367N10, E0174N17, E0049M05, E0331116, E0338G15, E0263K19, E0351N06, E0039I05, E0062M13, E0351N06, E0308O12, E0393F21, and E0417A15.

BAC clone selection, subcloning and shotgun sequencing. Filters from RPCI-42 bovine library Children's Hospital Oakland Research Institute, Oakland, Calif.) were hybridized with .sup.32P-labeled PCR primers specific for SPP1 gene (Rediprime II Random Prime Labelling Kit, Amersham Biosciences). Three clones positive for SPP1 were identified. The clones were PCR-screened for the presence of SPP1, PKD2, and ABCG2 genes. A clone H005K14 positive for all three genes was identified and selected for the shotgun sequencing. The H005K14 clone was grown and its DNA was purified using the Large-Construct kit (Qiagen, CA) following the manufacturer's instructions. To separate the genomic DNA insert from the BAC vector, the purified DNA was digested with NotI and applied to a 0.8% low melting point SeaPlaque agarose gel (Cambrex, Me.) as previously described (Kaname and Huxley, 2001). The isolated insert fragment was sheared with a nebulizer. Blunt-ended fragments 1.6 to 5 Kbp were purified from a 0.8% low melting point agarose gel and cloned into the pCR .RTM.4Blunt-TOPO vector using the TOPO.RTM. Shotgun Subcloning kit (Invitrogen, CA) according to the manufacturer's instructions. Individual transformed bacterial colonies were robotically picked and racked as glycerol stocks in 384 well plates. After overnight growth of the glycerol stocks, bacteria were inoculated into 96 well deep cultures and grown overnight. Plasmid DNA was purified with Qiagen 8000 and 9600 BioRobots (Qiagen, CA). Sequencing of the 5' and 3' ends was performed using standard primers M13 forward and reverse and ABI BigDye terminator chemistry on ABI 3700 capillary systems (Applied Biosystems, CA). All 384- and 96-well format plates were labeled with a barcode and a laboratory information management system (HTLims) was used to track sample flow. The shotgun sequences were trimmed of vector sequences and stored in a local Oracle database. To assemble the shotgun sequences into contings, Contig Express software (Vector NTI v 7.0 package, InforMax Inc.) was employed.

Cloning of bovine ABCG2 and PKD2 genes. BLASTN search of bovine dbEST using the sequence of these 15 exons of ABCG2 revealed 31 ESTs. Two ESTs indicated alternative splicing of 5' non-translated first exons suggesting existence of three different promoters for three different 16-exon transcripts of this gene (GenBank accessions BE480042 and CK838023). Twenty-three of the ESTs were assembled into a tentative consensus 2198 bp cDNA transcript (TIGR tentative consensus TC264405) capable of encoding a polypeptide of 658 aa (protein CAI38796.1) with a predicted molecular mass of 73 kDa. Alignment of the ABCG2 orthologs (partially displayed in FIG. 4) indicated that the homology between the bovine ABCG2 predicted protein and its putative porcine ortholog (GenBank accession NP.sub.--999175, 87% identity, 94% similarity) was higher than to the human and murine orthologs (GenBank accessions AAQ92942, 84% identity, 91% similarity; AAH53730, 79% identity, 91% similarity, respectively). All orthologs shared sequence motifs that included cytoplasmic ATP binding cassette and six putative transmembrane domains typical of a half transporter structure. The BAC sequenced contains 66.1 Kbp of the bovine ABCG2 gene. Following an intergenic region of 10.3 Kbp and encoded on the complementary strand, the last exon of a gene orthologous to the human polycystic kidney disease 2 (PKD2) was observed. Using BLASTN, 20 ESTs that matched the 3' end of the 4941 bp putative cDNA transcript deposited with this BAC were found. 5' end of this transcript was predicted using orthology to the human mRNA. This transcript is capable of encoding a polypeptide of 970 aa (protein CAI38797.1) with the predicted molecular mass of 110 kDa. Alignment of the PKD2 orthologs indicated that the homology between the bovine PKD2 putative protein and its human ortholog (GenBank accession NP.sub.--000288, 94% identity, 97% similarity) was higher than to the murine ortholog (GenBank accession NP.sub.--032887, 88% identity, 93% similarity). All orthologs shared sequence motifs that included: a. ion transport domain that typically contains six transmembrane helices in which the last two helices flank a loop that determines ion selectivity; b. EF-hand; a calcium binding motif associated with calcium sensors and calcium signal modulators.

PKD2 spanned 58.7 Kbp of the bovine BAC. Following an intergenic region (21 Kbp), and in the same orientation, we detected seven exons of the previously characterized bovine SPP1 mRNA (GenBank accession NM.sub.--174187, Kerr et al. 1991). The length of this gene was 7 Kbp. No other genes were found in the region upstream to SPP1 with a length of 9.7 Kbp.

Identification of polymorphism in genes within the critical region of the QTL HERC6. The region orthologous to the human intron 5 of hect domain and RLD 6 gene (HERC6) was PCR amplified with PCR primers (#705 and #706) that were designed according to the sequence of a bovine EST (GenBank accession BE664068) which was highly similar (86%) to human HECR6 (GenBank accession NM.sub.--017912). Three sites of variation in this intron sequence were identified and the polymorphism at position 151 (Table 1, Table 6) was genotype.

PPM1K. The human protein phosphatase 1K (PPM1K) is a member of the PP2C family of Ser/Thr protein phosphatases. The bovine PPM1K ortholog that maps to critical region of the QTL on BTA6 was cloned. Two splice variants PPM1K_v1 and PPM1K_v2 that were capable of encoding 372 and 324 amino acids, respectively were observed. The orthologous protein in humans mostly resembles the putative protein encoded by the first variant (GenBank accession AAR06213-92% identity, 98% similarity). As in other gene family members the second exon was large and encoded most of the catalytic domain (Seroussi et al. 2001). A di-nucleotide in this exon variation was identified that is capable of encoding an amino acid substitution (R26H) and we used it as a genetic marker (Table 1, 6). Two other SNPs in exon 2 and 5 were identified (GenBank accession AJ871967).

ABCG2. PCR primers for amplification of 15 coding exons of ABCG2 were designed (#615 to #638). Three SNPs in intron 3 were annotated (GenBank accession AJ871176), and the SNP on 29183 position, designated as ABCG2(1) was genotyped (Table 1, Table 6). In exon 6 (position 33437), a SNP (G or T) that was capable of encoding an amino acid substitution (D219Y) was identified. The two Israeli Holstein sires that were heterozygous for the QTL were homozygous for 219D. The 219Y allele was detected in Hereford genomic sequence and Holstein (GenBank accession BE480678). Within the translated region, a SNP (A or C) that was capable of encoding an amino acid substitution (Y581S) was revealed in exon 14 (position 62569 in AJ871176). This polymorphism, designated as ABCG2(2) was genotyped (Table 1, Table 6).

PKD2. PCR primers were designed for amplification of coding regions in the 15 exons of PKD2 (#252 to #261). The promoter and the first exon of PKD were cloned 2, but no polymorphism was detected, even though this segment included a highly repetitive GC rich region, and was therefore considered as hot spot mutation (Stekrova et al., 2004). For PCR amplification in exon 1 region, 0.5M G-Melt additive (Clontech Laboratories. Inc.) was added. Using primers (#261 and #262) we PCR amplified a region upstream this gene promoter, and observed a length variation within a stretch of adenine residues which was used as genetic marker (Table 1, Table 6).

SPP1. The products amplified by PCR primers (#121 to #142) of secreted phosphoprotein 1 (SPP1) were sequenced, including 0.8 Kbp upstream to the initiation site in the promoter region, and all seven exons, and seven introns. The two SNP detected in intron 5 and the 3' non-translated region of exon 7 and designated them as SPP1(1) and SPP1(2), respectively (Table 1, 6). The three segregating and 15 non-segregating Israeli sires for the QTL, for the OPN3907 poly-T polymorphism at 1240 bp upstream of the SPP1 transcription initiation site (Schnabel et al., 2005) using primers #155 and #156.

IBSP. Bovine integrin binding sialoprotein gene (IBSP) has been previously cloned (GenBank accession NM.sub.--174084, Chenu et al. 1994). This sequence was used to design PCR primers for amplification of exon 7 (#801 and #802). A SNP that was capable of encoding an amino acid substitution (T252A) was identified and genotype (Table 1, 6).

LAP3. Bovine leucine amino peptidase 3 gene (LAP3) has been partially cloned (GenBank accession S65367, Wallner et al. 1993). This sequence was used to design PCR primers (#400 and #401) for amplification of intron 12 and the adjacent exons. Three polymorphic sites in intron 12 and a sense mutation in exon 12 (Table 1) were detected. We genotyped the polymorphism at exon 12 (Table 6).

MED28. The bovine gene (TIGR tentative consensus TC274468) is 91% similar to the human mediator of RNA polymerase II transcription, subunit 28 homolog (yeast) (MED28, GenBank accession NM.sub.--025205). This sequence was used to design PCR primers for amplification of exon 4 (#500 and #501). Four polymorphic sites were detected in this exon and genotyped the site at position 1345 (Table 1).

MLR1. The human chromosomal region that encodes the last exon of transcription factor MLR1 gene (MLR1) also encodes on the opposite strand the last exon of chromosome condensation protein G (HCAP-G). We sequenced the orthologous genomic region in cattle. There was 93% identity between the coding regions of bovine and human HCAP-G genes. Using primers #500 and #501 we detected a polymorphic repetitive four base sequence (TGAT)n (Table 1, 6). We annotated it as part of the last exon of MLR1, on the basis of its orthologous position in the 3' non-translated end of the human gene. Bovine ESTs (GenBank accessions CK831694 and CO883952) confirm the expression of the bovine MLR1 ortholog.

Biopsy procedures and RNA extraction. Biopsies were collected from mammary and liver tissues of Holstein cows in the herd at the University of Illinois Dairy Research Facility (Dept. of Quantitative and Molecular Genetics, Institute of Animal Science, Volcani Center, Israel) as previously described (Drackley et al. 1991; Farr, 1996; Veenhuizen, 1991). Biopsies of mammary gland and liver were collected from eight cows at six time points relative to parturition (-15d, 1d, 15d, 30d, 60d, 120d), and five cows at seven time points relative to parturition (-65d, -30d, -15d, 1d, 15d, 30d, 50d), respectively during the dry period and lactation. Tissue samples were put in TRIZOL and RNA was extracted immediately using RNAse-free vessels. Mammary and liver tissues (0.5 to 2 grams) were homogenized and centrifuged at 12,000 g for 15 min at 4.degree. C. Chloroform was added (200 .mu.l/ml) to the supernatant and the samples were centrifuged at 12,000 g for 15 min at 4.degree. C. Acid-phenol: chloroform (600 .mu.l/ml) was added to the aqueous supernatant. Samples were votexed and centrifuged at 12,000 g for 15 min at 4.degree. C. and the upper phase was discarded. Isopropanol (500 .mu.l/ml) was added to samples and following an overnight incubation at -20.degree. C. the supernatant was aspirated and washed with 75% ethanol (1 ml 75% ethanol/ml Trizol). Samples were centrifuged at 7,500 g for 5 min at 4.degree. C. Supernatant was aspirated. Tubes were air-dried at room temperature for 10 minutes. RNA pellet was resuspended in a suitable volume (20-400 .mu.l) of RNA storage solution. Concentration of RNA was 2-5 .mu.g RNA/.mu.l buffer.

Quantitative Real-time PCR analysis for gene expression. Quantitative Real-Time PCR was carried out for the following genes: SPP1, ABCG2, PKD2, LAP3, MED28, PPM1K, HERC6 and FAM13A1. Table 5 shows the list of primers designed for Q-PCR analysis. The 18S ribosomal RNA gene was used as control.

One .mu.g mRNA was transcribed in a total volume of 20 .mu.l using 200 U Superscript II (Invitrogen), 500 .mu.g oligo dT(18) primer, 4 .mu.l 5.times. first strand buffer, 2 .mu.l 0.1M DTT, 40 U RNasin and 1 .mu.l 10 mM dNTPs. Specific primers were synthesized for all genes in 3' UTR non-coding region of the last exon (Table 5). All reactions were performed on ABI PRISM 7700 sequence detection system using 2.times. Syber Green PCR Mastermix (Applied Biosystems, Foster City, Calif.), 1 .mu.l RT product, 10 pmol forward and reverse primer in 25 .mu.l reaction volume. PCR thermal cycling conditions were as followed: initial denaturation step 95.degree. C., 10 min, followed by 40 cycles of denaturation for 15 seconds at seconds at 95.degree. C., annealing and extension for 60 seconds at 60.degree. C.

Computation of LD parameter values. LD parameters values were computed between each pair of markers as described by Hedrick (1987). The microsatellite BM143 had 13 alleles ranging in fragment length from 90 to 118 bp. Most of allele frequencies were quite low, and the distribution of the allelic frequencies was strongly bimodal. Thus, for estimating LD, BM143 was converted to a "diallelic" marker by assigning all alleles <108 the value of 1, and all allele >108 the value of 2. For individuals that were heterozygous for both markers, computation of the LD value requires that phase be known, which was not the case. For these individuals both phases were considered to be equally likely, and the LD value was computed accordingly. Thus, the LD values presented slightly underestimate the true values. X 2 values for independent association between each marker pair were also computed.

Computation of ABCG2(2) genotype probabilities. Genotype probabilities for ABCG2(2) were determined for the entire Israeli Holstein milk-recorded population, using the segregation analysis algorithm of Kerr and Kinghorn (1996), The number of animals analyzed by the segregation analysis algorithm was reduced to 44,135 by four "pruning" steps (Weller et al. 2003). At each step, animals that were not genotyped, and were not listed as parents of animals remaining in the data file were deleted. The pruning did not affect the segregating analysis, because these animals by definition include no information with respect to the allelic frequencies. The algorithm requires an estimate of the allelic frequencies in the base population. The initial estimate was derived from the frequencies of the 335 genotyped bulls. After application of the algorithm this estimate was revised, based on the allelic frequencies of all animals with unknown parents. The segregation analysis algorithm was rerun with the updated base population allelic frequencies until convergence for the base population allelic frequencies was obtained at a frequency of 0.75 for the A allele. The genotype probabilities for the "pruned" cows were then regenerated from the genotype probabilities of their parents, assuming random distribution of alleles. For cows with either one or two unknown parents, the allelic frequencies of the base population were used for the unknown parent. The estimated allelic frequencies as a function of birth year were computed for the entire population of cows.

T

Dairy cattle breeding programs. In most developed countries, dairy cattle breeding programs are based on the "progeny test" (PT) design. The PT is the design of choice for moderate to large dairy cattle populations, including the US Holsteins, which include over 10,000,000 animals. This population consists of approximately 120,000 cows of which 90% are milk recorded. Approximately 20 bulls are used for general service. Each year about 300 elite cows are selected as bull dams. These are mated to the two to four best local bulls and an equal number of foreign bulls, to produce approximately 50 bull calves for progeny testing. At the age of one year, the bull calves reach sexual maturity, and approximately 1000 semen samples are collected for each young bull. These bulls are mated to 30,000 first parity cows to produce about 5000 daughters, or 100 daughters per young bull. Gestation length for cattle is nine months. Thus the young bulls are approximately two years old when their daughters are born, and are close to four when their daughters calve and begin their first lactation. At the completion of their daughters' first lactations, most of the young bulls are culled. Only four to five are returned to general service, and a similar number of the old proven sires are culled. By this time the selected bulls are approximately five years old.

Dairy cattle breeding in developing countries. The genus Bos includes five to seven species, of which Bos Taurus and Bos indicus are the most widespread and economically important. Bos Taurus is the main dairy cattle species, and is found generally in temperate climates. Several tropical and subtropical cattle breeds are the result of crosses between taurus and indicus, which interbreed freely. In the tropics, cows need at least some degree of tolerance to environmental stress due to poor nutrition, heat, and disease challenge to sustain relatively high production levels. Tropical breeds are adapted to these stressors but have low milk yield, whereas higher productive temperate breeds cannot withstand the harsh tropical conditions, to the point of not being able to sustain their numbers. Furthermore, most topical countries are developing countries, which lack systematic large-scale milk and pedigree recording.

Methods and theory for marker assisted selection (MAS) in dairy cattle. Considering the long generation interval, the high value of each individual, the very limited female fertility, and the fact that nearly all economic traits are expressed only in females, dairy cattle should be a nearly ideal species for application of MAS. As noted by Weller (2001), MAS can potentially increase annual genetic gain by increasing the accuracy of evaluation, increasing the selection intensity, decreasing the generation interval.

The following dairy cattle breeding schemes that incorporate MAS have been proposed:

1. A standard progeny test system, with information from genetic markers used to increase the accuracy of sire evaluations in addition to phenotypic information from daughter records (Meuwissen and van Arendonk 1992).

2. A multiple ovulation and embryo transfer (MOET) nucleus breeding scheme in which marker information is used to select sires for service in the MOET population, in addition to phenotypic information on half-sisters (Meuwissen and van Arendonk 1992).

3. Progeny test schemes, in which information on genetic markers is used to preselect young sires for entrance into the progeny test (Kashi et al. 1990; Mackinnon and Georges 1998).

4. Selection of bull sires without a progeny test, based on half-sib records and genetic markers (Spelman et al. 1999).

5. Selection of sires in a half-sib scheme, based on half-sib records and genetic markers (Spelman et al. 1999).

6. Use of genetic markers to reduce errors in parentage determination (Israel and Weller 2000).

Spelman et al. (1999) considered three different breeding schemes by deterministic simulation:

1. A standard progeny test with the inclusion of QTL data.

2. The same scheme with the change that young bulls without progeny test could also be used as bull sires based on QTL information.

3. A scheme in which young sires could be used as both bull sires and cow sires in the general population, based on QTL information.

They assumed that only bulls were genotyped, but once genotyped, the information on QTL genotype and effect was known without error. It was then possible to conduct a completely deterministic analysis. They varied the fraction of the genetic variance controlled by known QTL from zero to 100%. Even without MAS, a slight gain is obtained by allowing young sires to be used as bull sires, and a genetic gain of 9% is obtained if young sires with superior evaluations are also used directly as both sires of sires and in general service. As noted previously, genetic gain with MAS used only to increase the accuracy of young bull evaluations for a standard progeny test scheme is limited, because the accuracy of the bull evaluations are already high. Thus, even if all the genetic variance is accounted for by QTL, the genetic gain is less than 25%. However, if young sires are selected for general service based on known QTL, the rate of genetic progress can be doubled. The maximum rate of genetic gain that can be obtained in scheme 3, the "all bulls" scheme, is 2.2 times the rate of genetic gain in a standard progeny test. Theoretically, with half of the genetic variance due to known QTL, the rate of genetic gain obtained is greater than that possible with nucleus breeding schemes.

The final scheme, with use of genetic markers to reduce parentage errors, is the most certain to produce gains, since it does not rely on QTL genotype determination, which may be erroneous. Weller et al. (2004) genotyped 6,040 Israeli Holstein cows from 181 Kibbutz herds for 104 microsatellites. The frequency of rejected paternity was 11.7%, and most errors were due to inseminator mistakes. Most advanced breeding schemes already use genetic markers to confirm parentage of young sires.

The current status of MAS in dairy cattle. Two ongoing MAS programs in dairy cattle have been reported so far, in German and French Holsteins (Bennewitz et al. 2004; Boichard et al. 2002). Currently in the German program markers on three chromosomes are used. The MA-BLUP evaluations (Fernando and Grossman 1989) are computed at the VIT-computing center in Verden, and are distributed to the Holstein breeders, who can use these evaluations for selection of bull dams and preselection of sires for progeny testing. The MA-BLUP algorithm only includes equations for bulls and bull dams, and the dependent variable is the bull's DYD (Bennewitz et al. 2003). Linkage equilibrium throughout the population is assumed. To close the gap between the grandsire families analyzed in the German granddaughter design, and the current generation of bulls, 3600 bulls were genotyped in 2002. Only bulls and bull dams are genotyped, because tissue samples are already collected for paternity testing. Thus additional costs due to MAS are low. Thus even a very modest genetic gain can be economically justified. This scheme is similar to the "top-down" scheme of Mackinnon and Georges (1998) in that the sons' evaluations are used to determine which grandsires are heterozygous for the QTL and their linkage phase, and this information is then used to select grandsons, based on which haplotype was passed from their sires. It differs from the scheme of Mackinnon and Georges (1998) in that the grandsons are preselected for progeny test based on MA-BLUP evaluations, which include general pedigree information, in addition to genotypes.

The French MAS program includes elements of both the "top-down" and "bottom-up" MAS designs. Similar to the German program, genetic evaluations including marker information were computed by a variant of MA-BLUP, and only genotyped animals and non-genotyped connecting ancestors were included in the algorithm. Genotyped females were characterized by their average performance based on precorrected records (with the appropriate weight), whereas males were characterized by twice the yield deviation of their ungenotyped daughters. Twelve chromosomal segments, ranging in length from 5 to 30 cM are analyzed. Regions with putative QTL affecting milk production or composition are located on BTA 3, 6, 7, 14, 19, 20, and 26; segments affecting mastitis resistance are located on BTA 10, 15, and 21; and chromosomal segments affecting fertility are located on BTA 1 and 7. Each region was found to affect one to four traits, and on the average three regions with segregating QTL were found for each trait. Each region is monitored by 2 to 4 evenly spaced microsatellites, and each animal included in the MAS program is genotyped for at least 33 markers. Sires and dams of candidates for selection, all male AI ancestors, up to 60 AI uncles of candidates, and sampling daughters of bull sires and their dams are genotyped. The number of genotyped animals was 8000 in 2001, and is intended to reach 10,000 per year, with equal proportions of candidates for selection and historical animals.

TABLE-US-00001 TABLE 1 Polymorphism detection in the course of positional cloning to the QTL on BTA6 Number of exons Sequencing size (bp) Polymorphism Gene total sequenced exons introns promoter type.sup.a location MLR1 7 2 482 228 Insertion TGAT Exon 7 (AJ871966) MED28 5 2 133 1,268 C to T Exon 4 (AJ871964) LAP3 13 2 147 450 C to T Exon 12 (AJ871963) IBSP 7 1 560 A to G Exon 7 (NM_174084.sup.b) SPP1(1) 7 7 1,362 5,633 1,205 A to G Intron 5 (AJ871176) SPP1(2) T to G Exon 7 (AJ871176) PKD2 15 15 3,023 2,485 2,931 Insertion A Promoter (AJ871176) ABCG2(1) 16 .sup. 15.sup.c 2,029 3,416 A to T Intron 3 (AJ871176) ABCG2(2) A to C.sup.d Exon 14 (AJ871176) PPMIK 7 1 490 GC to AT Exon 2 (AJ871967, AJ871968) HERC6 23 330 Insertion C Intron 5 (AJ877268) FAM13A1(1) 18 18 2,580 2,190 A to G Intron 9 (Cohen et al., 2004a) FAM13A1(2) C to A Exon 12 (Cohen et al., 2004a) Total 10,806 16,713 4,136 .sup.aThe more frequent allele is listed first. .sup.bAt position 802. .sup.cCoding region of this gene starts in exon 2. .sup.d Y581S

TABLE-US-00002 TABLE 2 Effects of the polymorphisms on the bulls' breeding values for the quantitative traits with each marker analyzed separately. Frequency of Number of the more Quantitative traits Marker bulls common allele Milk Fat Protein % fat % protein BM143.sup.b 346 55.1 -34 0.7 3.5** 0.019 -0.022* MLR1 298 50.5 -67 -2.8 .7 -0.005 0.025* MED28 316 57.2 80 6.0*** .4*** 0.031 0.018* LAP3 341 57.3 13 6.1** .7*** 0.053** 0.039**** IBSP 336 61.3 -35 1.1 .6 0.021 0.015 SPP1(1) 366 57.0 -123** -0.1 .8 0.039* 0.043**** SPP1(2) 309 72.9 -171** -0.7 .4 0.048* 0.061**** PKD2 326 67.1 -141** 0.6 .9 0.046* 0.048**** ABCG2(2) 335 80.5 -341**** 5.3* .1** 0.159**** 0.135**** ABCG2(1) 282 55.4 -67 0.8 .4 0.029 0.042**** PPMIK 369 73.6 -58 -1.7 .8 0.001 0.033** HERC6 328 67.9 -14 4.9** .6**** 0.049** 0.056**** FAM13A1(1) 381 81.8 -64 0.3 .1 0.023 0.028* FAM13A1(2) 370 41.1 -107* 2.0 .2 0.053** 0.042**** .sup.a For ABCG2(2) effects were computed relative to the Y581 allele. This allele, denoted the +allele was associated with increased protein concentration. For all the other markers, the effects were computed relative to the allele in LD association with the +allele for ABCG2(2). .sup.bThis microsatellite was analyzed as a diallelic marker as described herein. Significance: *, p < 0.05; **, p < 0.01; ***, p < 0.001; ****, p < 0.0001

TABLE-US-00003 TABLE 3 Effect of ABCG2(2) on the breeding values of the daughters of the heterozygous sires, and QTL effects derived from the animal model analyses. Quantitative traits Number Kg Kg Kg Analysis Genotype.sup.a of cows Milk Fat Protein % fat % protein Class effects.sup.b -/- 78 0 0 0 0 0 +/- 328 -185 0.4 1.2 0.059 0.065 +/+ 264 -432**** 4.2** 3.3** 0.169**** 0.145**** % dominance.sup.c 14.3 80.9 27.3 30.2* 17.2* Regression.sup.d 670 -226**** 2.6** 1.8** 0.093**** 0.076**** Animal model.sup.d -597 2.2 1.3 0.225 0.193 .sup.a581S was denoted the "-" QTL allele, and Y581 the "+" QTL allele. .sup.bSignificance of the class effect is indicated in the +/+ row. Effects are computed relative to the -/- homozygote. .sup.cRelative to the -/- homozygote. .sup.dAllele substitution effects assuming additivity. Significance: *, p < 0.05; **, p < 0.01; ***, p < 0.001; ****, p < 0.0001

TABLE-US-00004 TABLE 4 Variance components and marker substitution effects from REML analysis of the sire evaluations. Trait Kg milk Kg fat Kg protein % fat % protein Variance components ABCG2(2) 86,640 13.0 12.9 0.0145 0.0128 Polygenic 272,720 553.0 286.4 0.0481 0.0101 Residual 84,504 1.2 0.1 0.0005 0.0001 Substitution effects.sup.a ABCG2(2) 520 6.4 6.3 0.213 0.200 Variance components ABCG2(2) 103,080 2.71 5.1 0.0135 0.0129 SPP1(2) 0 0.0 0.0 0.0000 0.0000 Polygenic 270,550 563.0 289.1 0.0480 0.0096 Residual 77,542 1.6 0.0 0.0000 0.0007 Substitution effects ABCG2(2) 568 2.9 4.0 0.213 0.201 SPP1(2) 0 0.0 0.0 0.000 0.000 Variance components ABCG2(2) 161,952 0 0 0.0158 0.0153 HERC6 15,178 20.6 22.6 0 0 Polygenic 267,670 521.3 282.3 0.0456 0.0093 Residual 86,103 1.0 0.1 0 0.0002 Substitution effects ABCG2(2) 711 0 0 0.222 0.219 Variance components HERC6 218 8.0 8.4 0 0 Variance components ABCG2(2) 85,277 4.7 8.4 0.0133 0.0134 LAP3 2,697 9.2 7.1 0 0 Polygenic 291,069 556.9 286.0 0.0493 0.0094 Residual 77,829 1.0 0 0 0 Substitution effects ABCG2(2) 516 3.8 5.1 0.204 0.205 LAP3 92 5.4 4.7 0 0 .sup.aComputed as described in the Materials and Methods section.

TABLE-US-00005 TABLE 5 Primers for physical mapping and real-time PCR analysis (SEQ ID NOS: 1-24), respectively in order of appearance). Number of Gene Primer Sequence BAC clone.sup.1 BM143 BM143_F TET-ACCTGGGAAGCCTCCATATC E0199P19 BM143_R CTGCAGGCAGATTCTTTATCG SLIT2 SLIT2_3'UTR_f GTCAGAATGGAGCTCAATGC E0380G22 SLIT2_3'UTR_r GATGTTTGTTTGAGGCCGGA MED28 MED28_3'UTR_f TAAGACATTGGCAGCAGGTG E0060K13 MED28_3'UTR r CTAGTGTTCGGGTGCCTTTC LAP3 LAP3_3'UTR_f TGCCTTGATTTTTCATTTTATGC E0060K13 LAP3_3'UTR_r CTGACAATCGCACAGCAACT IBSP IBSP_3'UTR_f GCAGCAACAGCACAGAGGTA E0393F21 IBSP_3'UTR_R TGGTGTGGGGTTGTAGGTTT SPP1 SPP1_3'UTR_f CATTAAAGCAGGGTGGGAGA H0005K14; SPP1_3'UTR_r ATGCTGTGATGGTTTGCATT E0049M05 PKD2 PKD2_3'UTR_f TGGGACCAACCATTTCACTT H0005K14; PKD2_3'UTR_r AGCCACACGAAAAGACT E0049M05 ABCG2 ABCG2_3'UTR_f CCCCCAATTAAAAAGGGACT H0005K14; ABCG2_3'UTR_r GAGGCAAGTGAAAAGAAGACAA E0049M05 PPM1K PPM1K_3'UTR_f TGCCTGGGGAAAATACAAGA E0331116; PPM1K_3'UTR_r GGGTCACCACTTACAGTTCACTT E0412B12 HERC6 HERC6_3'UTR_f GAAATTTCAGGGGGATT E0417A15 HERC6_3'UTR_r TTCATCAAGACTCGGTGCTG FAM13A1 FAM13A1_3'UTR_f CATCCATCACCTCAGTGTGC E308012 FAM13A1_3'UTR_r AAAGGCAGAGCTGCAGAAAC 18SrRNA 18S_f GATCCATTGGAGGGCAAGTCT 18S_r AACTGCAGCAACTTTAATATACGCTATT .sup.1E0380G22 and E0199P19 in contig 8 42 and all other BAC in contig 503

TABLE-US-00006 TABLE 6 Primers for SNP genotyping (SEQ ID NOS: 25-59), respectively in order of appearance) Genotyping platform Gene Location Primer Sequence Mass Spec FAM13A1 Exon 12 Fam13A1_ex12F ACGTTGGATGCCACGCCAAATCTTTTCTC Fam13A1_ex12R ACGTTGGATGTTCAAGTTGGGAGCCGAAAC Fam13A1_ex12E GAAGATATCAGAGGAGGAC SPP1 Exon 7 SPP1_ex 6F ACGTTGGATGTCTCCCACCCTGCTTTAATG SPP1_ex 6R ACGTTGGATGGCCTCTTCTGAGGTCAATTG SPP1_ex 6E CTGCTTTAATGTATCCTTTTC IBSP Exon 7 IBSP_ex 7F ACGTTGGATGTAAACCTACAACCCCACACC IBSP_ex 7R ACGTTGGATGGCCTGTTTGTTCATACTCCC IBSP_ex 7E ACCGTTTGGGAAAATCACC PPMIK Exon 2 PPM1K_ex 2F ACGTTGGATGATTTCGGCTCTGAAGTGGAG PPM1K_ex 2R ACGTTGGATGTAAGAAGTGGTGGGAACCAG PPM1K_ex 2E CCTGTCATCCTGCAGACC ABCG2 Intron 3 ABCG2F ACGTTGGATGGATTGTGTCCTGAGGAAGTC ABCG2R ACGTTGGATGCAAGTCATAGCTGACAGCTG ABCG2E CTGAGGAAGTCTTATTAGGT ABCG2 Exon 14 ABCG2ex14F ACGTTGGATGAATCTCAAAACCGTCGTGCC ABCG2ex14R ACGTTGGATGCGGTGACAGATAAGGAGAAC ABCG2ex14E GAGCATTCCTCGATACGGCT MED28 Exon 4 MED28F ACGTTGGATGGCTTCTCACTTTGTAGGATG MED28R ACGTTGGATGTTGTCAAGTGCTTCTGGACC MED28E TTCGCTGTAATTCATTCCTTA ABI377 LAP3 Exon 12 LAP3_ex12F ACGTTGGATGCAAGACAGGTTATAGATTGCC LAP3_ex12R ACGTTGGATGCTGAAAATGCTCATTTTGGC LAP3_ex12E GTTATAGATTGCCAACTTGC HERC6 Intron 5 HERC6F HEX-CTGAGTCCCAACCACTGGAC HERC6R TGTATGCTGAATGGGTATCTTCA PKD2 Intergenic PKD2F TGCTATGGATCAAATACTATCCAAGTT PKD2R FAM-CCCCGTCCTCTAAAGAATGC ABI7000 MLR1 Intron 5 MLR1F FAM-TGTGCGATTCCACATTGTTT MLR1R AAAGCAAGCAGCCGCTAAT SPP1 SPP1int5_365F CTCTGATCCCCTGAGAATTTTCA SPP1int5_486R CACTGTTTTTCCTTGTTCATAATAAACAC SPP1int5_486P1 FAM-ATCTGTATTTAcTGGATCAT SPP1int5_486P2 VIC-CTGTATTTAtTGGATCATT FAM13A1 Intron 9 FAM13A1int9F AACTTTAAAAGGGAGAGGAATGTTACC

TABLE-US-00007 TABLE 7 Primers for sequencing in the critical region of the QTL (SEQ ID NOS: 60-181, respectively in order of appearance) Primer code Gene Primer Name Sequence 1102 MLR1 MLR1ex21F AAACAATGTGGAATCGCACA 1103 MLR1ex21R AAAGCAAGCAGCCGCTAAT 500 MED28 MED28ex4F CCTGGATATTGCAAGACA 501 MED28ex5R TAAGACATTGGCAGCAGGTG 502 MED28ex4Fnes TCTGTCCAGAAACCAGAGCA 503 MED28ex5Rnes GAAAGGATGCTCTGGTCCAG 400 LAP3 LAP3ex12F CATTGAAACAGGAGACCGTGT 401 LAP3ex1 3R TGTGACTCATCCTAAGTGGGC 801 IBSP IBSPex7F CTGGGGCTACAGGAAAGAAG 802 IBSPex7R ATTCTGGGATTTTGTGTGGC 155 SPP1 SPP1prom 1602F AGATCCCACATGCACCTAGC 156 SPP1prom1147R CCCGGCCCTCCAAGGCATGC 121 SPP1prom771F CAGTAACCCTGCTCGGTCAT 122 SPP1prom28R TCTGGGAGATCCTGGTTGTC 123 SPP1ex1aF CACAGGGGACTGGACTCTTC 124 SPP1ex1aR TTGCTGTCTCCATTTTCCAA 125 SPP1ex1bF CCCTTTTCTGAATATTTTCACCTC 126 SPP1ex1bR GAATTTGCTTCTGCCTCTTGG 111 SPP1ex1F AGCATCTGGAGCAGCCTTTA 112 SPP1int2R ACTCCTGTCCTCTCTGTGCG 113 SPP1int1F TGGAGTGTTTCCACACAAAA 114 SPP1int3R TTGTGTGCCTGCTATGCTTC 115 SPP1int3F TCACTTAGAGACCCCTGTTT 116 SPP1int4R TTTGGGCTGGTTAAATGGAT 127 SPP1int3aF TGCAACTTCTGCAAGATGTACT 128 SPP1int3aR TGCTCAATGAAGATGTTAGGAGA 129 SPP1int3bF CAAACGGGTATTGTCCCAAG 130 SPP1int3bR GAAGAAAACCCTTCTTTCAGC 131 SPP1int3cF GAACCTTTGAACTCATCTACAGC 132 SPP1int3cR GCTAATTAAGGGCACCTCTGC 133 SPP1int3dF TCTTCCATAGAGGAAGGAAAA 134 SPP1int3dR AAATACCCAGATGCTGTAGCC 117 SPP1int4F AAATTCTCACAATTAAAGAACAACCA 118 SPP1int5R UCAAATTCCGGCAAAATTC 135 SPP1int4aF AAATTCTCACAATTAAAGAACAACCA 136 SPP1int4aR TCTGAGGAAACTGATGACAACAA 109 SPP1ex5F CCTCTGAGGAAACTGATGACAA 110 SPP1ex5R CGTTAGATCGGCGGAACTTCT 137 SPP1int5aF TCTGATGTCTGTTGTGCCTTAGA 138 SPP1int5aR GCACTGTAAAGCCTAAGGGACA 139 SPP1int5bF GCCATTAAGTGCTTTGTTGTGA 140 SPP1int5bR GTTTTTGCGCTCAAGTCCAT 119 SPP1int6F CCCTTCCTAGCTGTTCGTTG 120 SPP1int7R AAGCAGGGTGGGAGACAATA 141 SPP1int6aF CGTACGTGTTCATTCAGCA 142 SPP1int6aR CAGAGTCCAGATGCCACAGA 261 PKD2 PKD2ex1365812F GGCCCAAGGAAGAAACGAAC 262 PKD2ex1370002R GGAATGGTGGTGGAGATGGA 212 PKD2ex1F CGAGGAGGAAGAGGAGGAAG 255 PKD2ex1R CGACCTCCTCTTCCTCCTCT 221 PKD2int1F AACAGGAGAGCCTCCCTTAAA 222 PKD2int2R TTGCATATTTGCCCTGTCAA 245 PKD2int2Fe GTGCGGTCTGTAAGGGTCAG 246 PKD2int3Re TATGGGAAGGGAATTTGGAG 247 PKD2int2F TTGGCTTGTTCTGTCTTCCA 248 PKD2int3R GCTGTGCACTTAACACTGGG 223 PKD2int3F AAAATGTTGCCTTTGCTTTCA 224 PKD2int4R AAGTGTCTGTGGCTTGTGGA 267 PKD2int4F TCAGGAACCAGTTGTCTCTGTAA 268 PKD2intSR AAACTGCAGGCAATGGTTTT 227 PKD2intSF CCTGACTGCATCCATGTGTT 228 PKD2int6R AGGTTGGAGAACAACACCAAA 229 PKD2int6F TCTTCATTTAATCTTTTGTTTTCCA 230 PKD2int7R TGTTGAAGGACCTGAATTTGCT 231 PKD2int7F ATTTCCCCTCTCTTTTGCAG 232 PKD2int8R GAAACCTTCATGGTGGCTGT 233 PKD2int8F TGTCAAAAGAATGCTGGACA 234 PKD2int9R CATCATCTCTTCTTTTCTTCCACA 235 PKD2int9F TTTTCCCAAAGAATTTGGTAGC 236 PKD2int10R GTTGTTTCAGCCAGATTGCC 237 PKD2int10F GGCAGAACAAACGAAAAAGG 238 PKD2int11R AAGAATCTCAATTTGCCCGT 239 PKD2int11F GATCGTGTGCATGGATGAGT 240 PKD2int12R GATTGGTTCAACACCTGCAA 241 PKD2int12F CAGTGATCCCGTGTTCTTCA 242 PKD2int13R TTCGAGTTGACAAGGGGC 263 PKD2int13F CACAAGATGTTTTTGTCCCTC 264 PKD2int14R TGTTTTCCCCATACATGCAA 265 PKD2int14F TTCCGAAGGCAATTCCTAAA 266 PKD2int15R ATATGGTGGTCAGGGCACAT 214 PKD2ex1SF TGGAAAAGAATCCCAAACCA 215 PKD2ex1SR GCTCACCAAATTTATGGGGA 251 PKD2ex153152SF ACCAACCGTACTTTGGCTTG 252 PKD2ex1532487R GATTCAGCTTGCCTACCTGC 603 ABCG2 ABCG263223F CCTCTTGATTGCCAGGAAAA 604 ABCG2639O6R GATTCCTGTGAGCTCAACCC 605 ABCG2 6577OF CACACACCACAAAAACCCTC 606 ABCG2 66373R TTCATCTTGTCAGATGGTAACCA 615 ABCG2int1F TGTTTACAGTCTCATTTACCTGGA 616 ABCG2int2R ATGCAGATTTTGGCAGGTTT 617 ABCG2int2F AACTGGCTTTAAACTGGGTCA 618 ABCG2int3R TTTCTTTGTAGTTTTCATGTGTGG 642 ABCG2ex3F CATGAAACCTGGCCTCAATG 643 ABCG2ex4R TCCATGTGGATCCTTCCTTG 619 ABCG2int3F AAGAGGTAAAGCCTGATTTGG 620 ABCG2int4R TTCATATGGGCAAGTGCCTT 621 ABCG2int4F GAGTGATGGTATTAGAAAAGACCTG 622 ABCG2int5R TAGGACCTCACCTGTGTGGA 613 ABCG2int5F CAACAAATGATAGTGGCAGAGG 614 ABCG2int6R TCCTGAAGAGGTAAATGCCATG 623 ABCG2int6F CCAAGAAATGTAAGTTTCAGATGTTT 624 ABCG2int7R ACAAAGGAGTCACTTGGAGCA 625 ABCG2int7F TTTACCAGGACTATCAATTTTTGTG 626 ABCG2int8R TAAACCACGGCTGTTTGAATT 627 ABCG2int8F AAAGGGGTTGTAGAAAAATGGA 628 ABCG2int9R CATTTGGGGGACATTATGCT 629 ABCG2int9F GGAGAGATTTGATTAAGTAGCCAGA 630 ABCG2int10R GAATTTGAAACAAGCACAGGG 631 ABCG2int10F TTGGGGAAAGAATTTTGCAG 632 ABCG2int11R GGTCAGACTGGTCACATCCA 644 ABCG2int11F GCAAATGGTTTAATCTCCTGGT 645 ABCG2int12R ACAGAAAGTCCCCTCCCATC 633 ABCG2int12F TTGGATTAACCCCCTCTTTG 634 ABCG2int13R ATTCCTACCCCCAAACTTGC 635 ABCG2int13F ATTTGCTAGACGGCACCAGA 636 ABCG2int14R TATCCTTGGCCATGAGCTGT 637 ABCG2int14F TTTCTTTATCCTGCTCCCACTT 638 ABCG2int15R ACTGGGCTGAGGAATCCTTT 1000 PPM1K PPM1Kex2F GGCATCCCATTATTGTTCCA 1001 PPM1Kex2R TACCCACATGGAGAAATGCA 705 HERC6 HERC6ex5F TGAAGACTCTCGGTGTGGTT 706 HERC6ex6R GAATTGAAGGCCTCGTCTCA

TABLE-US-00008 TABLE 8 Number of animals included in the variance components analyses for ABCG2 polymorpshism. Number of: Markers analyzed Genotyped bulls Ancestors Total ABCG2(2) 336 422 758 ABCG2(2), SPP1(2) 274 367 641 ABCG2(2), HERC6 298 396 694 ABCG2(2), LAP3 308 399 707

TABLE-US-00009 TABLE 9 Number of animals genotyped per breed and allele frequencies of the ABCG2 gene vith standard errors (SE). Animals Allele frequencies Breed.sup.1 genotyped ABCG2.sup.A ABCG2.sup.C SE Aberdeen Angus 25 1.00 0.00 Anatolian Black 31 1.00 0.00 Angler 30 1.00 0.00 Asturian Mountain 43 1.00 0.00 Ayrshire 32 1.00 0.00 Banyo Gudali 67 1.00 0.00 Belgian Blue (beef) 28 0.95 0.05 .+-.0.041 Belgian Blue mix 8 0.94 0.06 .+-.0.084 Bohemian Red 35 0.99 0.01 .+-.0.017 British Friesian 37 0.93 0.07 .+-.0.042 Casta Navarra 19 1.00 0.00 Charolais 10 1.00 0.00 Chianina 36 1.00 0.00 East Anatolian Red 28 0.88 0.12 .+-.0.061 Gelbvieh 6 1.00 0.00 German Angus 18 0.92 0.08 .+-.0.064 German Black Pied 22 0.93 0.07 .+-.0.054 German Brown 22 0.95 0.05 .+-.0.046 German Brown Swiss 21 1.00 0.00 German Holstein 27 1.00 0.00 German Simmental 22 0.86 0.14 .+-.0.074 Hereford 39 1.00 0.00 Israeli Holstein.sup.2 341 0.80 0.20 .+-.0.022 Menorquina 15 0.97 0.03 .+-.0.044 N'Dama 7 1.00 0.00 Nellore 8 1.00 0.00 Pezzata Rossa 18 1.00 0.00 Pinzgauer 9 1.00 0.00 Polish Red 11 1.00 0.00 Santa Gertrudis 11 1.00 0.00 South Anatolian Red 17 1.00 0.00 Toro de Lydia 13 1.00 0.00 Turkish Grey Steppe 9 1.00 0.00 US Holstein.sup.2 9 0.95 0.05 .+-.0.073 White Fulani 9 1.00 0.00 .sup.1Bos indicus breeds are in italics; other breeds are Bos taurus. .sup.2Cohen-Zinder et al. (2005)

TABLE-US-00010 TABLE 10 Notation of alleles, polymorphisms and QTL status Nucleotide allelic ABCG2 allelic Amino acid allelic designation designation designation QTL status A (adenine) ABCG2(1) Y581 allele +QTL, decreases allele (tyrosine) milk yield C (cytosine) ABCG2(2) 581S alleleallele -QTL, increases allele (serine) milk yeild A-->C Y581S, denotes that at position 581 of amino acid sequence of ABCG2 protein, a serine (S) is present instead of a tyrosine (Y).

Sequence btABCG2 exon 1a 1553.1760 btABCG2 exon 1b 11688.12023 btABCG2 exon 1c 58161.58260 btABCG2 exon 2 84261.84479

TABLE-US-00011 ABCG2 splice variants of first exon and exon 2 are highlighted in bold. (SEQ ID NO: 182) AGGAGAGACT CCATCTTGAA GCCTGTCATC CGTCTTAAAG ACAGGATGTG AACTGGGCCG GAACCCTGCT TAAGAGTGAG GAAACAGTTG CTAGTGAAAA CCAGGTCTCC TGGAGACTTC ACTCCCTACA GATGGCAAAC GGAGATTGTA GTTGTGGTCA GGCTGCCCCT GTTAGATTAA TCATGGAGAC ATCCTCCCTT GATGTATAAT CATTGTTCCC CCCTCCCGGC CCCACCTCCC CCGTTAACCT TAATTGTTTG TTCTCCTAGC ACCTACTTGT AAAACTCAAT CATATACAAC AAAAAGATTG TTAACATGTA ACCAGTCACG TGTGTGTGTG TGTGTGTGTG TGTGTGTGTG TGTGTAAAAC TGGGCCTCTC AAAAACATCA GGGTCCTTGT TGGGAACTGA TTCCCCTTGG ACCTGCTGGC ATAATAAACT GTACTCCAGT CTTGAGTGTC CCCTGAGGTG TGTTTTGCAA CTCAGGATTC CACAACATTT CCAGAAGGAC ATCAGTGTTG ACCTAGACAG GTGAAGCAAA AATGTTTGGA GCCAACAGAG ATCTAACCAG TGAAGTCACT GAACCTTGTT CACAAATCAA GGGTAGATTC TTTCAAGGAC CAGGTGACTA GGAGGCAAGC GACCAAAGGC AGGACTGGTT ACATATTTCG TGACAGTGTT GGTCGCTCAG TCGTGTCCGA CTCTGTGCAA TCCCATGGGC TGTAGCCTTT CAGGCTCCTC TGTCCAAGGG ATTCTTCAAG CAAGAATACT GGAGTGGGTT GCCATACCCT CCGCCAGGGA ATCTTCCCCA CCCAGGGACT GAACCTAGGT CTCTCGCATT GTAGGCAGAT TCTTTACCAT CTGAGTCACC AGCTGGGTCC TGTGCAGCTG TACAGGTCGT ACCCCCGTAT CCGGAGGGGA AATACTTTCA AAGCAAACGC GGCAAGTTAA TGCAGAGCAC GGGAAAAAGT AGGGCGCCCA TTCACTGCAT CTCAAGGCCT TCCAGCACTG AACAAGTAGC ACTGTGGGTG GTGCCTGGCC CCAGGTGGTG ACTGAGGCTG CTGCCTCGGA TTCCCCAACC AGGTACACCC GGAGCAGCTC GCATCCTGGC TTCATAGGCA GAGACGAGAA TAGCGGTGTG GGGCGCTCTG CTCACTCTCA GGAAGGGGGC GAGAGGCTGC GCCCAGACCC TGTAACCCCC GCCCCGCGCC CCTCCATCCC CCGCCCGGAG CCCCTGTATC CCCGGCCCGG CGCCCCTCCG GCCCCTGCTC CACTGGTCTA GCGGCTGCGC CTCGGGAGGG CCTGGCGGAG CCCCGGACCT GCGCCAGAAA ACGGTCCGAA CAGCTAGCTG CCCTTCCGGT CCTCCTTTTC CGCTTTGTTT CTTCTCGGTT TCCATCCACC CTAAGTCCTT TTCTCCTCTC CTCTCCCCGC CCCGCGGTGT CAATCTCCCC GGATTGACAG AGAACGTAGC CTAAATACTA AAGCTGAGAG AATCGCGCGC GGAGGCGCTC GCTGGTCCCG CCTCCTGCCG GCTTTCTTTT CTCTGTGCGC CCCGGGTGGG CTTGGCGGAA CTGGCCTCTA CACCCCGACA TCCTCCATCG ACTGCCGGGG GCCGACTGTT TGGAAAGAGG ATGGGGCTGG TGGCGGCGGG GAAGCGCTCA TCTGCCCGGG AAAATAGCTG GAGAGGAGTG CGGGATTAGA GCTATGCCCC TGATAGTGTC CCCGCAACCA GCGAGACCCT GTAGTTCCTC GGTCCTGGAG GTATGTTCTG GGCAGCACAA CACAGCAACT GCTATGTATT AACTGTCTTT GCAGATAATA CTGAAGAGAT GAAAGGACTT GTCTGAGGTT TCAGACAAAT CCTCATCCCC AGGAACTGCC CTGTTCCTAG CTCTTGCTTA AATGGTGGGC ATGAGTGGCT ATGTGTGTCC AAACTGACAC ATTTTTGCTG TTTGGATGGC AGGATCCTGA AGAGAACCAT TCCTTAGCTA GTCAGAGACC AAAGTCTATA CTAAAGGAAG GATCAGCTCT CTAACTGTAT AATGGGAGGA GCTGGTTTTG AGAGATTGTG TCAGCTGGCA TGGCCATTTC TAGATAATAC ACACACTTTT GACTTTGGAG AGAGGAGATA CTTCCCCAGA GTGTGACAGG CAAATGGAGG GAACAGCTGC CTCTGCCGTG TTGTGTGTGT GTGTGTGTGT GTGTGTGTGT GTGTGTGTGT GTCCTCAGTC GCCTCTGACT CTTTAACACC CCATGGATTG TAGCCTACCA GGGTTCTCTG CCCATGGAAT TTTCCAGGCA AGGATACTGG CATGAGTTGC CATTTCCTTC TCCAGGGGAT CTTCCAGCCT AGGGATAGAA CCCTCATCTC CTGCGTCTCT TGCATTGGCA GGTGGATTCT TTACCACCGC ACCACCTGGG AAGCCGCCTC CACCCTATGA GAGTCTCAGT TCCAACCCAT GGCTCGTTTG ATAGGACTTC TGCACAGGCC TAAACTCCTG CAGGTAACAA AATACAAAAA GTTACTGCCT AAGGGTGCAG CTAGGGATTA AAACACAGCC CTATTACTGC AAATTTTTCC ACAACAGAAG TCAGGTAAGG TTAATAAGCA CTTATATATT AAGAATTAGG TGGGAAAATA TTTCAGAAGG AACTGAGAAT GCTGCAGTTG TTCATTGAAA GCCAGGAGGA ATAATCGGGA AATGTGTCAG GCTCCCTCTG TCCATTCTCC ACATGCTGAT CACCACACAC TCATGTTTGC ATTCTTTCAA TCTCACCTCC CAGATAATTT AAAACACTTT AGCATTGCAT AAAAAAAAAA AAAAAGCCCT TCCTTCCTGG TCTATTCCCT GCCTCTACTC CCTTGTCATT TTTTCTAACT TTCCTTCTTG AACTTTATCC CAGCCTGTGT ACGTTCTTCT CTCTCCCTGT AACACAATCC CACTTCTTTC CCAGGTAAAC TTCAAGTTCA GATGTCATGT CCCATCGGAT GTTTTATTCT GCCATTCCTT CAGTCTAAAT GTCCCTTCCA TTTAGTCCTC TGCCATCCAA TATTTACTTC TATTCTAACA CCTGTTACCC TGTGTCAGAA CTCTTTGTTT CCTTCCCTTT CTTCACCCTT AGGGTGAATT GTTTGAGGGC AGGGGCTAGG TCTCTTTCCT AAATAATCCT AACAGCACAG TAGGCATTTG GTAAAGTTTG GAATGCATGA ATGACATGCT TAAAATAGAG AAGTTATTAT CTCATTCCTG AACCTTATCT TAGTGCTTGA GTGTACACCG TTCCAAAATG ATGAATCATG GAAAGAATAA AAATGCACTG TGTTACTAAG AAATGAAGCC TTAAGGTTTC TAAAATTACA ACCAAAGTGG GCAGGTGGGC CCAGCACCAT TGTATGAAGA TCTTATTCAG TCAGTTCTAG CAAGCTAGGA TGGCATGGCT GAGGAAGTAC GGCAGTGGTA CTTGAAGTAA GAAACAATGA TAATGTAAGA ATATCCAAGT CTAAGGGTTT TTGTAGGTCC TGCAACGTCT TTACACTGTG ATATTTCCGT GATGCTAAAC ATAGGAACTA AAAAGCCTCT TGATGAGGGT GAAAGAGGAG AGTGAAAAAG CTGGCTTAAA ACTCAACATT CAGAAAACTA AGATCAAAAA CAAACAAAGA TCATTGAATC TGGTTCCATC ACTTCATGGC AGATTGATGG GGAAAAAGTG GAAACAGTGA CAGATTTTAT TTTCTTGGGC TCCAAAATCA CTGCATATGA TGACAGCAGT CATGAAATTA AAGGCACTTG CTCCTTGGAA GAAAAACGAT GGCAAATCTA GACAATATAT TCAAAAGCAG AGATATCACT TTGATGAGGG TAAGAGGAGG AAGGTGTGGC AGAGGATGAG ATGGCTGGAT GACATCACCA ACTTAATGGA CATGAGTTTG AACAAACTCC GGGAGATAAT GAAGGACAGG GAAGCCTGGA GTGCTGCAGT TAATGGGTCA CAGAGTCAGA CATGATTTAG CGACTGAACG ACAATAAAAC ATAATGAGAA GCTTGTCTAC TGCCAAAGCC TAAAACCAAG TTCATTGAAG AGAATCCCTG CCTCAAGGTT TCAATTTGGA AAGTCAGAGA ACAGTAGAAT TTGGTTTTCT AATAGTTAAC CTCTTACTTT CAAGGTCACA CAGTTTATTA GGTGTTAATC CAGAAATTGT TCCAAGCTGT ACCCCATGGG GCTTCCCCAG TGGCTCAGCG GGTAAAGACT CCTGCAATGC AGGAGACACA AGAGAGGGGG GTTCGATCCC TGAGTTGGGA AGATCCCCTG GAGGAGGGCA TGGCAACCCA CTCCAGTATT CTTGCCTGGA GAATCCGATG GACAGAGGAT CCCGGCGGTC TACGGTCCAT ATGGTCACAA AAGAGTCAGA CATGACTGAA GTGACTGAGT GTATACCCGT AGGTCACTGT GCAGTTTTTG AGGACAGGGC CTAGGTGGTT TTACTCAGTC ATGCACACAC ACAGTACCTG TTGCAGACCT GCCACAGTGG GTACTCAGCT TGCTGAATGA AGGAAGAAAT GAATAAATGT GCTCTACCAT AGGGGTGTAG ATGAGAGGGA AAGGCACTGT CATTTCTCCA AAGATGGAAG GCTTTAGAAT CTGGGGGAAA ATAAATATTT ACTTTGAAAA TAAACTTATC AAAGTAAAGG CAAAAAACTA TTTTAGATGT CACAAAGATC TATGTTAAGT TGCTGAATCA GTTGTTACTA TTTTAGAGGA TGATGGAAAC TTATCTTCTG AAATGTTGGC TTGTCTGCCT AAGAGGGGTC AAAGCAAAAT GGTCCAGTCT GGAGTTTCCT GAATCCTGAC CTCCTTACCT GAAAAACTGA GCAGTTATTT GGCCCAGTTA TTTAACAGAT GACTCAGTTT TGTCATTTGT AAAATGGGGA TGATTATACC ACATGGGTTG TTGAGAGACA TTAAATAGTT AATACACAAC CTATGAAGTA ATTTGTATCC CATTTTCTGC CACTATTTCC TATTTCTCTA GGTGTCATTT TGCCTTTCAC TGTGGCATAA AACATTTCTG TTTTTTCTCG GTCCACTTCT GTGCTTTTTT CCCTCTCACT ACCTTTCTGC TTTTTTCTTT TTTACTATCT CTCTCCCTAA CCAAATTCTT CTTTTTTTTT TTTTTTTCCT TTGGCCATAT GAGGAATGTT AGTTCCCTGA CCAGGGATGC ATTCCTCTCC CTATGCAGTG GAAGCACAGG ATCTTAACCA CCAGATGGCC AGGAAAGTGC CAATTTCTTC TTAACGTTCT CATAGTTTTT CCTCACTCAC CTAAAAAAAT GACTGAGGGC TATGAACTTC AGTAAACTTA TAGAATAAGA AAGTTAATAA TGACTATTAA AACACTATTT TCTTTTCCCC AAACTGATTT CTCATCTCTG CCGTGCTTAT GCATACTTTT TTTGTATTTG AAAATCAGTG AATACGTTCA GGCTAATTTA GCTCTGATTT TCTTCACTTA ATATAACTTT ATACTGAAAG GGTCAGGATA TGTCCTTCCC CAATATGCCA CTTTGGCATG AGGATTAATT TGAGCTGAAT GCAATTAAGA ATCAACAGAT ACAGAAAGAA GCCTTCTCAG CATTTCCCTT ATCTTATTAA AAAGCAGAAA CTTTTGAGAA ATGAGGCTGT CATAAATTCC CTCTTCAGGA TGGGCTTATT CCTAGGAGAG AGATAAAAGT AAATATACCG TAAATCTCTC TGGGAGTTTC ATGGCCATGA AGACAGAAAA GACCACTTGC ATTTTCACAA ACAAATATTA TATCAAACTT TATCTCCAGT TTATTCTCCT AAAAATCCTT TTGTCTTTCC TACAGAAACT CACTTGTTCT TTCCATAGAA GATTTTTCTG CATTTCCTTT CTTCCCCTAC TAAGTTAGGT ACATAAGCTT CTATCTTTAA CCAGTGAGCT ACTAGCTATT TCCGTATGAA TAAGCCCTTT TTTCCTCCTT TTGTCTTTTG TCAGCTTAAT TCAGAGGTCC CCAGGGAGGA AACCTAAGAG GGCAGAGCAA ACATTTTTCC TCCCATATGC CATGATCAGT GTAGACCACA CGGTTGTTAT TAATTTTTAT GACTGTGGTT CATATACCGC AGTTTGTCAC ATTCCTCTCT CATGGGGCAC ATTGATTGAT TCTGATTTTT TTACTCTTTA AATATATCCT TCCTTTATGA CACTTTCCCT TGCCTTCTCT ACTTCATAGA TATATACAAA CATACACATG TGTAATTATG TAAATATATA AAATTTGCTG CATTTGTTGT CTAAATCTTC AGTTTTTGAG TCATCAGGCA GTGCTTCCCT CTTGAGAGTC TCTCTTTATA GAGGTGATCA AGGCACCAGT CATAAACTAT TGTACCTAGA TTTCTTAAAC TCTAAATATT TATTAACAAC CATACCAATG TGGGAGGCAA TAAAGAGAGG TGGGGTTGGT TGGTTCAGTA AAAATTATTG CGTTGATTTG AGTCCCTCTT CTCTCCTAGA GTTTCTTGTG CTGCCGGTTC AGGACATAAA AAACATGTAT GAAGAATTTA CAAGAAAAAT CTGTCAGAAT TACTGCTTTT CTGCTGTGGT GTTTGGCTTT AAAATTTTTT AAAGCACCAT GGAAGCAGAT TTGGTGTTTC AAAGTTCTGC CACAAGAGTG ATTTTAAGTA ATGTTCATAG CCTCTGTTTA TATTATCGTA TGGTTTATAA TTATGACTGT AAGTCTCAGT TAAATGATTA CCATGTGAAC AGCACCATAC TGTGGGACTA CAAAACCTAA GATGTGGTCT TTAACTCTGG AGGACCTTAT AATTGCAAAG TGAGAAACAC AAACTATGAG TTCTGAGGTA CTTGTACATA GTAGTCATTG ACAGTCTTAA TAATAAAAGT ATGCAGCATA GGATTTTTGA CTCTATAAAC AATACTGTCT TGAGTTTGCT TCTAAACCTT AAAGAAAATT TGGAGCAACT TTTCCATACC CTGGAACAAA GGAATAGATC ATCATAAATT TGCATGGATG GATTCTGGAG AATTCTGAAG ACTCCATCAT AAACCAACAC AGGTTAGAAA ACGAAACAAG TTTTGCATAA TATCAAAGGT CCTTCCACCA TTTTCAAATA ACTGACCTAA GCACTGCTGT CTGTTACAGC CTCTCAGAGC ACTGAGGAAT GGTTAAAGTC CAGGGAAAAA CAAGACTGCA AAAATATTTG CCTGGGGACC ATCTTCTTGA ACTCCCCACC TCGATAATTT GGATTAGCTT CCTCCCTATT CCATGCCATG GATTCTGATT AGAAAAAAGT CTTCTCTAGT TGAAGGACTT CATTGTTCTT TGAGTTAGAG GATGAGGCTG GCTGTTTGAA ACCTTTCTCA CTTTTCCTAT TCCAAAGTGT TCAGTATCTA CTCAAACAAA

ATTGGGAATT AAACTCTATG TACATTTAAG GGATATACGT ATTTGTGAAA GATAAAGGAG GCCTCCAAGA ATTAGATAGG ATTTTTACTA CACCTCTTCA CCTGGACACA ATGCTTCCTT TATAAGAAAT AAGGGATAGT CAGCGGTTCT TTGCCTTTGT AAAGAAATAG CTAGGGATTT CACAGAAGTT CCTAGGAATG ATTAGCTTAT TCCCAGTTGC TTGGAAAATA GGTGATCCAG GACAAGATAA TATGCATTGT TAGATAGTGT GCCCAATAGG TGATCCAGGA CAAGATAATA TGCATTGTTA GATAGTGTGC CCAAGTCAAT AGAAGGGATT CCATTCAAGA AGCTGCCTTC CCGTATATTT TATCTTATTT AATAACTTTA AACCAAAGAT GTTCAAATCT TATTTCACAG AACCCAGTGA GTCCTTAAAC ATTTTGTTCT GACTTTTTGT TTGTGGATTG GTGGATATCT TTTATTTTAA AAATGCACAA ATATATTTTT GTGACAATTT GTGAATTGAT TAATCTATTT TATCAAGTTC CTACTGGTAT ACTAGGTACA ATCCTAGAAA CTAAGGCTCT GTCAATGAAC AAAGCCATAA ACATTCATAC CCCCATAGAG CTTATATTCT AATGGAATCA GAAATACAGA TATAATAAGT AAGGAAATTA CATAATATGT TAGAAGGTAA TAAGTGCTAG TAACAAAAAT AAGATATGGC AGATCAAGAA TGCTAGTAGG AGGAATTGCA ATTTTTAGTT GGTCAGGGTA GTCCTCATGA GAAGTTACCA TTTGAGGAAA AACTTGAAGG AAGTGAAAGA ATGAGCTAAA TAGATGAATA GGGGAAGAAT TGCCCAGAGC AGCTAGGGCA CTGGCCAGGA AGTGGGTCAG TGTGTGTATA TTTGAGCTAT AACGGAGATA TGTCTCGCTA TATTACAATT AGTAAAGGGG AACGTCAGAG TAGGGGTGGA AGATACATAT TGTAAAGGTG TTTGGCTTTT ACTCTTAAGA GAAATAGGAA AATAGACGAA TACATTGTGA GAAGTATTTG AACAATAGAG ATATGTATTT TCAAAACAGT ATCTCCACTT CCTAAACCTA TACTTCCCAG ACATTGCTGC CATTTGGGGT CATATCTTTC TAAAGGCTTT TCTCCATGAT TACATGCATA GATGGGTACA AATAGAAATA CACAATTTTG TTTCGTGAGG ATATGTGTGT GTGTCTCTGT CTACATGTGT GCATTTTAAC ATAAAAAAAT AAGGTCACTC AGTTGTGTCT GACTCTTTGC GACCCCATGG AATATACAGT CCATGGAATT CTCCAGGCCA GAATACTGGA GTGGGTAGCC ATTCCCTTCT CCAGGGGATC TTCCCAACCC AGGGACTGAA CCCAGATCTC ATGCATTGCA GGCGGATTCT TTACCAGCTG AGCCACCAGG GAAGCCCAGT GAACTTATAT TCACTGGGGA GGTAGGAGAC AGGGGACCTC TGGGTGGGAC AGTTTCCCAG GTGGTGCAGT GGTAAAGAAC CCACCTGCAA TGCAGGAGAC GCAGGACACG TGGATTCAAT CCCTGGGTCA GGAAGATCCC CTGGAGAAGG AAATGGCAGC CCATTCCAGT ATTCTTGCCT AGGAAAGCCC ATGGAAAGAG GAGCCTGGCA GGCTGTAGTC CATGAGGTGA CAAAGAGTTG GCCACAACCG AGTGAGCACA CACACAGGGC CAGATATCAG GTGTTTGTCA AGCAGAGTAA AATTCAAGCT TTGTTCTTAC CCAGACACTT CAAGGACAAA GCTAGTGGCA AAAGCTGAGC TCTGCTAAAG TAAAGAGATA AGATGCCCGC TCCTGAGGTC AAGGAAGACT TCCCTGTCTA TACATGTACA GGAAGGCTTC TTGGGGGTCT AAAAAGGGAG GGGTCCCCAC CCCATAAGTG TGGACATGCA TCCATAGGCC TCTGCAGTGG GATCTATCTT AGAAAAATAT TGTGCTCCGC AAGGACTCTC TTGGAGAGGG TCCTAGGACC AATCAGATGT GAAGAGAGAA ACAAGATGAT TGGTTAAATA TATACAAAGA CCCGGAAGGA CCGCCCTATA TAAGGGATTG GTTAAATATA TACAAAGACC CGGAAGGACC GCCCTATATA AGGGATTTGC AGCACCTTCT TACTGTGCTC CTCTTCGCTC AGGATGCCTG CCCTCCTCTC CGGGTGTGTA TCTCTGCCTA GCTTCTGACT TCCTGCACTC CTCATGAGAG AGGATGCCCG GACCCTTTCT CTCTGGATGT GTATCTCTGC CCTGCTTTTG ACATAAATTA ACAATTTTCA GTGTGCTTTC TCATACATTG TGTTGTATCT CTAATAATAA ACTTTGCATG TGTTTTTACA GCTTTTGCCT TCTTGAAATA GTCTTGCTTT CAAATCAGGG AAAACCACAG GGCCATTTTG CTTCTAGCCT CTAGCCCCTG GCAATCTAAT GGCTAGGATT CCTAGTTTTC ATCCAGGTTA CCCAGGTTCA ATTCTTGGGC AGGGAACTAA GATCTCTCTT CAGGACCACT CACTGCTCCT TCCTCCAAGA TCAATATTCT TGTGTTAATT AGCAACTTGG TTTTTATAAT TGACGTGTCT TGGAGACCTT TCTTTGTCAT GATAGTACAC ATATTTCTAT TTCATTCCTT TTTAACTATT ACATAATAGT CTATTGTACA CATATGCTAC ATTTTGTTTA ACCATACTTT TATTGGTAAA TGTGTGTGTG TGTGTGTGTG TTTGTGTGTG TGTGTGCTCA GTTGCTTGGT CGTGTCTGAC TCTTTGTGAC CCCATGGTCT GTAGCCCACC AGGCTCCTCT GTCCATGGCA TTTTCCCAGC AAAAATTCTG GAATATTTAA GTTCTAATTT GCCTCGTAGC TTCTTTCCTT TCCATGTTGA ATTACTATTG TCTTAATATT ACATTTAATA ACATAAAATT ACGTGTTGCA TGAAACACGG GAGGAAACTT AAAAATTAAA TTTGTGTTAC CTTCTCTCAG AAAAGCAATG TTTCTTAAAT TAGAATCATT TAGACTTACC TTAATGGAAA CAATGGCTTC ATTTACTTCT TCATCAAGGA CTTATGTAAT GTTTGTTGTT CTGGAACAAA TGGCATTATG AGAGTTTGAG CCCAATTATT CTGAGCTTTG CCTCCCTCGT GGCTCAGGTG TTAAAGAATC CAACTACAAT GCGGGAGACC CAGGTTCGAT CCCTGAGTCG GGAAGATCCC CTGGAGAAGG GAATGGCAAC CCACTCCAGT ATCCTTGCCT AGGAAATCCC ATGGACAGAG GAGCCTGGCA GGCTACAGTC CATGGGGTTG CAAAGAGTCA GACACAACTG AGTGACTAAC ACTTTGACAT TTCGACTTGC TATGAGTTCA CTCAGTCACC TTAACTGAGT TGACCATGGG TCTTTATCAG TAGGGAGTAA GGATCCATTA TCCACGATCC GCAATCCATT GACTGCCTGA CCTGTGCTTA GGTATGCACC ACAGAGAGGA AAATTAGCAC TTGATTCCAA AGAGGACTTC TGGCAAGGTT GATTTAGTAA TCAGCATTTC AGGGATCTCT TAATATTGTT ATGTCAACTC TAAGGAATGC ATTATTGTTA CCGCAGGTTT ATATTGAGAA GGCTTGGATT AAAAATAAAA AATAAAAACT TGTCATGGCT GGTAAAGAAT GGAGCCAGAA GCTCTTAGTA TATGTCATAT TTTGTCACTT GACATGCTTC ATGTTTTCAG AATATGAAAT GCCTGCTTAA TACAGCCTTA ACTTCCTATT ATACTTCTGG ATTAGGAAAG AGAACATTAG AAGGATGGTG TGTTCCAAAT AAAACTTCTC TCTTCAAATC CCTAGTGGGC TTTTGCAATG CAACCTAACA CTGTCTGTGC TTGGTTTCTT TCACTTCCTT TCTGAATTAG TGTTATCTTC CTGCTTGCAC ACTTTTGCTA GAAAGCAGAG CTTGTAAAAG GAGACCACAT TATGTCAGAG GTAGCAGAAG ACAGGAAGTT TACACAGAAT AAAACTGTTT GCTCAAATTG CTTTAATTAG TCCTTATTAA AGTTGCCGTT AGTGTCAGAG ATGCTGTCGT CGGGATTCTA TTGCACAAAA AGGATATCTC TGACACGTGA ATTTTTCCTT TTCCCATCTC CTTGCCAGGA ACACCAGAAA AAGATCTCAG ACTGGTTAGA AGCATTAGGT TGTCAGTTTG AATCCGAGTG ATGGAGAAGG AACTGTGGTT AATAACCAGC TAACAGTGGA GAAAAAAGGA AGTCAATTAG ATATGAGAAC TGGACATTTT CCCAAGACTA GCTTGTTTGG AAAGCCTCAG TCTTTCTGGT AGTTGCAGGG GGCTGATAAG GTTCCTCTCT GGTACTTTCT CTTGCGCCTT GAAAGCTGGC AGGAAGGGAA GCTCCTGGAC TGTTAATAGA TGCGGCTCTT GCTTGAAGTT TCTATGAGAA AGCCGACAAG AGTCGAAATC TTCTCTGTAT CCCCACTGCC TCTCTACAGA GGTTTGGGCT GTTTTCCTTC CAACATCACA GATCATAACT GAGGTGAGTT GTCTGTTTTT GTTTTTCAAA TGTTCGTACT GAGTGGAGAG TCTTGATTCT TTTTCGGTAT GTTCTTTAAC GAGTGTGTCA TTTTAAAATG GTACTTCTCA AACTTGAATG TGCATATGAA CCTGAAGATC TTGTTTAAAA GCAGCAGAAT TCAGTGGATC TAGGGTGGCT TGAGATTCTG CATTTCTGAG AAGTGCCCAG ATGACCTCAG TGCTGCTGGC CCATGAAACA GAGTAATAAT GGCTTAAGAC CTTCTAGGTT TATTGCTCTG TAGGGCAAGC AGTTGGGAGA TGTTGGCAGA ATCAAGGTGT CTGGCTGAGC ACATGATTTG TGTAGAGCGC CTGGAAGGAA AATGAGACAC TGTTAGTGTC CAGATTGACT TGCTTTGATG GACTAGCTCA GAGTTTGGGG GGTTGTGTTA AATAGTTCCT AGATATGGTA AGCCATGTCA CCCCAAGTGA GACAGAATGT TGGTCTGCTC CTTAGATTGC ATGGACCACT TTGAGCAGAG CCAGAAATAT TTTTGCAGTT TGGGGAATAG TAGTCATATC ATGCCTTAAC TGGGATAACT AGTGGTCACT TGAATATTTC AGCTTCGATT GAAAATTATG CATCTAGAAA AATAACTGAT GTCGTCCTCC TCCCATTTGG AGGTTAAGGT TGTGAGGCAT ATACATCTAT GATATGATTT AAAGTCAATT TGAGCAAGGA ATATAATTGA TATGTTTTAT CATCTTGTGA GAGTGTTCCT CTTTAAATTG AATAGCTCCC TGCCCTAAAT GGTACGTGTT TATCTGAAAG TTGCTTTTAA TCCAAAAGTG CCAAGCCAAG AAGGAAAAAA ATAAATAATA GGAAGTGTGC CTTGCTGAGG GTAGAAAACA GTAGTGGGAG AAAAACAGGG AAAGAAAGGA AAGTGATGGC CGTGGAAGTC AAGTTTGCAA AATGAATAAA AGAAACCCCA GCCTGAAAAT AGGATTCTTT TTCCGACATG CATGGGAGTT TTTCTAGAGT GGTAGCTTGC GTCTTCCTCA GCTAGAGAAA TGTGCTTAAG ATAGAATAGG CAAATTAAAA TTTGTGTTGT TTTAAAGTAC ATGCTGAAAC TATTTGTCAT CGAGTCAAGG GTAGTCAGTG GAATCAAAGG TCAGTGGCAT GAACAGACCT GGTGAGGCCC AGTATGAATC CATTTAAACT ATCTCAGACA GAGGGGAATT GCTTCTGTTT GAAATAAGCT TCAGATAACT TTCCTTTCTA TTATGGAGTA TAACAGAGGA GTTACATACA AGTTTAACAA CCTATATGGC TACTGTTCTG ACCAATCAGA ACAGTAGCTA CTGTAAACAG CCCATATAAT GGGAAACCAC TTGTAGGCAG TAAGAAGTAC ATGGGGTTGA ACATCAGCCT AAGCTAGGTT TTCATGAACT TTTATTGGGG GGAGAAATTG TAAAGCTACA AATGAGTTCA GAGACATACA ACCTATAACA TATATTCAGA GTTCAGAAAC ATATATTCCT ACTAGCATCT GTCAGCACGT TAGCCCCATT CTCTCCAGTG AGGCCACTTC CCTGTCTTTC CAAGCTTTCA TTCTGGCTGT GTATCTCCTG CAACCTTCAC TAAAGAAAGT AGGGTTCTCT TAAGTCATTG TAGGTGACTC AAAAGTCCTA TCCATTCCCT CAGTAGAGGG AAAATGCCTA TACTCTTTTG TAAAGAGATA CTGCAGAAAA TGAAATGATC ACTACGCTAT CCTTCCATAC AAAGCATGGT CACATACTTT ACCTTGCTTG ATTTTTCACA ACTATCATGG GGATATGTCA TGTCAAGGGG ATTTTTGTTT TTACCTGTCA TGGAGGAAAA TGAAGTTCTT GTTAAGCGAT TTGTGAGGAG GCACACAGCC GGTTAGTGGG TGTATTGAAA TTAAACTCGC TTGTTTGCTC TAAGTTCAGG TTTATCCTGT ACTTTTCTTC ATCTTCCCAA GCATCCCCTT AAGACCTATG ACAGCCCTTA TTGTTCTCTA CTAGAGTTCA TTGGCTTTCC CTGTCAAAAT TTGAAACCTT TGTGCCTTAA AAAGAGTCCT TTTTCTACTT GTTTTGTCAA AATTTTTAGT GTGTTTGTCA CAACCTTTAT ATCCATTAAA ACCTTTAGTT CCCAGGGGTA AACATTTTAG AGGAGGGCCT CTAAACTTTA TTTTGACTGA AAATTACCTG GGGAGTTTGC TAAAACTCAG ATTTCTGGGT CCTAACTTGA GAGATCTGAT TCAGTAGATC TAGGACTAGG CCTAAGAATT CACATACCTA AAAGCTGCCA GGTGATTTTA ACGCTACCAA CCAGAGAGCA TGCTTTGAGA CTACAGGCAT AGCTTCAGTC AGTATCTTGA AATAACACAT TTCTGGTTTA GATTCCACGT ATGTGATATC ATATGGTGTT TGTCTTTCTC TTTCTGACTT ATTTCACTTA GTATAATAAT CTCTAGGTTC ATCTATGTAG CTGCAGATGA CATTATTTCA TTCTTTTTTA TGGTTGAGTA GTAGTCCATG GTATATGTGT ACCACATCTT CTTTATGTCT TCATCTGGAC ACTTAGGTTG TTTCCATGTC TTGGCTATTG TGAATAGTGC TGCTAGGGGT GCATGTTTCT TTTTAGATTA TAGTTTTGTC TGAATATATG CCTAAGAGTG TCCGACTCTT TTTGACCCCA TGAACTGTAG CTCACCAGAT CCTCTGTCTG TGGGATTTCC CAGACAAGAA TACTGGAGTG GGTTACCATT TCCTTCTCCA GCAGATCTTC CTGACCCAGG GATCAAACCC TCACCTCTTA CATCTCTTGC ATTGGCAGGA AGGTTCTTTC CCACTAGCGC CACCTGGGAA GCTCCAATGG TGGGGGGTGT AAAAAAAAAT CAGATGATCA AGAGGATATA TTAGGAAATG TCAGGAAGCC TCCTTCTCCA GGTATCCCAT CAATGGGTCA ATATACAAAG

TAGCCACAGC AGCATAGAAG AAAGTGTGAG CTAATAATAA AGTTTTCACT TCCCTAAGTG GCTGCTGTTC TTGTTGTTCA GTTGCTAAGT TGTGTCTGAC TCTTGGTGAC CCCATGGACT GTAGCCCACC AGGGCTCCTC TGTCCATGGG ATTTTCCAGG CAAGAATACT GGAGTGGGTA GCCATTCCCT TCTCCAGGGA TCTTCCCAAC CTAGGGATCA AACCCAGTTC TTCCACATTG CAGGCAGATT CTTTCCTGGC TGAGCCACCA GGGAAACCCA CAGCATTGGG TACATGCCTT AAACCAGCAG CCAGTAATAC AGAGCCAGAA CGTGTGGCTG TGGGGACCAC TGAGAGAAAT AATTCCTCCA TCCACACTGG CTGCCTAAGG TGCTTCTCTC ACATGCTAGA CATACTCCTG CCTCCATTCC CTTTGCCTAA ATGTTTTCCT CTGGTCTATT TAAAATTGCA AAACCTTCCT TTACCTTCTA GACTACTGCT TCCTTCCCCA TGTGCCTCTC TCCAGGACTT CTCACCTCTA ACATACTAGA CTATCTAGAT TGAGTTACTG TTTATTATCT GTCTTCTTCC AAGACCAGGG TTCTGTTTCA TTCACTGTCC TATCCTCAAT ATCTAACGTT GTGCCTAAAA CATGCCTTGT TGGTGTTTAG TCGCTAAGTC GTATCCGACT CTTTTGTGAC TCCGTGGACT ATAGCCTGCC AGGCTCCTCT GTCCATGGGA TTTTGCAGGC AAGAATACTG GAGTTGACTA CCAATTCCTT CTCTAGGGGA TCTTTCTGAC CAGGGATTGA ACCCATGTCT CCTGCATTGG CAGGCGAGTT CTTACCACTG AGCCAACTGG GAAGCCTGTG CCTGAAACAT AGTAGGTAGA CCAACTACAT AAATACCATT AATGTTCTTG GAGAAGAGTA AACAAATGTC TCTAGTGTCT CTAGAGAAGT TCAAGGTAGG CGGAGATCAG CATGCTGGGA AAATCACCTA TGTGTATACT GAATTCACTG AGAGGTAAAA TAGAAGTAGT GTTTGTTAGA GACAGCAATA GTGTCTCAGT TACTGATAAA TGGGAAAAGA GGTCACAGAG TCCAAAGATA GCAGCAGCCA TGGAAAGTAG CCAGTGATGA AGTCTGGTGA CCTGAAACTC AAAGCTGAGA TTTGGAAGAA GTGAGTAGAT GATCCACTCT GGGATGTTCA CATTTTGCAG TGGTTTCTTC TCTCAAAATA AACAAGATCA GAATGTGAAA TTTTCCATCG TAACCTCAAG GAAAGCACTT TTGCTTCTGT AGTGACTTTT TATGCTTTAA TCACAAGAGG GCACCAGAGT CTAGCAAAAG ATCACTTTTT TCCTTCATCT AAAGCTGCGT GCGTGCTCTG TTGTTCAGTC GTGTCAGACA CTTTGCAACC CCATGGACTG TAGCCTGCCA GGCTCCTGTC CATGGGGATT CTTCAGGCAA GAATACTGGA GTGGGCTGCC ATTTCCTACT CAGGGGATCT TCCTGATCCA GGGATAGAAC CTGCATCTCC TGTGTCTCCT GCATTGGCAA GCGGATTCTT TACCACTGAG CCACCTGGGA ATACCCTATC TAAAGCTTTT TGTTTTTCTG TTGCTAAATC CGACTCTGCA ACCCCATGGA CTGCAGTAGG GCAGGCTCCT CTAACCTTCA CTATGTTCCA GAGTTTGCTT GAATTCATGT CCATTGAGTT GGTGATGCTA ACTATCTCAA CCTCTCGTCG CCTTCTGCTT TTGCCTTCAG TCTTTCCCAG CATCAGGGTC TTTTTTTTTT TTAATGAAGT TGGCTCTTCA CATTAGGTGG CCTTTAATGG AGCTTTAGTT TCAGCATCAG TCCTTCCAAT GAATATTCAT TGAAGAAGGG GTGCAATTAA TAATTACTTG GAGCCATATG TGTAAACAGG GACTTTTCCT ATGCAAACTG GGACAAAAGC CCTGCACAAT ATGAGCATGA CCAATTTAAT TATGGGGTAG CTCTACACTA AGGGCTCTTA TTCTCAAAAT CACTACAAAT GCTTATGACA CACTAATAGA TTAGAAAGAA AAGTGACCAA ACTTGCTTTT ATCTCGAAGC AAAGATCAAG AAAGGCTTTC CCCTGTACCC TACTTCCCTA ATTATCTTTA TTGCCTATCC TATTTTTCTC CTTAGTGTGA TCTTAGTTTG ATTATACCCT CAAGTAAGAG AATTGTTTTA TCCAAAATTA TCTCAATTAT TTGAAAGTGG TCCAAAGTGT TCTCTAAATT CTCACAGTTC TTTTCTGCAT ATCTCTTATC TTCTATACTA TATATTAATT ATTTATATAC TTGTTTTATT CTTTTGAACA TGACTTACAT GCTGGGGATG TGAAAAAATA GGTTTTGAAA ATGGCTTTTT TTTTTTCCTT CTAGTTTTAT TGAGATACAA TTGATATAAC TTAGCACTGT GTAAGTTTGA AGTATACAGC ATAATGATTT GGTTGTACAT CATGAAGTGA TTATCACAAT AAGTTTAGTC AGTATCCATC ATCTCACTTA TGCAGAAAAT TAAAAGAGTC CTGTTATTAG CATAAATTCA AAGTATGGTT GGAAGGAGAT TGTGGTGAAT AACAAAAGAA GCTCCTATGA GTCTTATCAC TGAATAAATT ACGAGAGTTC TAGGGGACTT CCCTGGTGGT CCAGTGGTTA AGACTCGATA CTTCGAATGC AGAGGACACT TGTCAGGGAA TTAAGATCCC ATGCACCACG CAGTATAGCC AAAAACTTAA AAAAGTAAAG AGTTTTAGAA GCTGTGTCGG GAACCAAGGG CAAAGACCAA ATATGTATTT CTTACTGTAT TTTTTTATGT CGCTCTTGAA AACATACTAT CAGCTTATAC TAGCTAGCCA CCAGAGAATT TGAGGATGAG GGTAGTTGCC TGAGAAACCA ACCATGGGAT TACAGAGTTG AACTTTCAGT CTCAACCTCC AGGAGGATAG AAGGCTGAAA GTTGGGTTAA TCAGTAACTG TTGACAATTG ATTTAATCGA TCATGCCTAC GTAACGGAAC TTCCCTAAAA CCCCCTAATT TAAGGGAGAG TTCGGAGAGT TTCTGGATTG GTGTACACAT CAAGGGGCTG AGACGTGGGG GTGCAGCCAG AGACTGCATG AAACTCTACG CTGCTTCTTC TGTCTTGGCC CTATGGATCT CTTCTATTTG GCTGTTCCTG AGTTGTATCC TTTATAATAC ACCAGTAAGT AAACCGTTTT CCCAATTTCT GTGAGTTGTT CTAACAAATT ATCACACTTG AGGAGGGAAT GGTGGGAACA CCTGATTTGT AGCTGGAAAC CTGGGACTTG CAGCTGGTGA ACTGGGGCAG TTTTGTAGGA CTGATTCTTT TTTTTTTTTT TTTTTAAACT TTACAAATTG TGTTAGTTTT GCCAAATATC AAAATGAATC CACCACAGGT ATACATGTGT TCCCCATCCT GAACCCTCCT CCCTCCTCCC TCTCCATACC ATCCCTCTGG GTCGTCCCAG TGCACTAGCC CCAAGCATCC AGTATCGTGC ATCGAACCTG GACTGGCAAC TCGTTTCATA CATGATATTA TGCATGTTTC AATGCCATTC TCCCAAATCT TCCCACCCTC TCCCTCTGCA ACAGAGTCCA AAAAATATGG AACGCTTCAC AAATTTGCGT GTCATCCTTG TGCAGGGGCC ATGCTAATCT TCTCTGTATC GTTCCATTTT TAGTATATGT GCTGCTGAAG CGAGCACTGT AGGACTGATT CTTACTCTGT GTTCTGTTCA GTTCAGTTCA GTTCAGTTGC TCAGTCGTGT CCGACTCTTT GCGACCCCAT GGACTGCAGC ACGCCAGGCC TCCCTGTCCA TCACCAACTC CTGGAGTTTG CTCAAACTCA TGTCCATTGA GTCAGTGATG CCATCCAACC ATCTTATCCT CTGTTGTCCC CTTCTCCTCC CACCTTCAGT CTTTTCCAGC ATTAGGGTCT TTTCCAATGA GTCAGTTCTT TGCATCAGGT GGCCAAAGTA TTGCAGTTTC AGCTTTAACA TCAGTCCTTC CAATGAATAT TCAGGACTGA TCTCCTTTAG GATGGACTGG TTTGATCTCC TTGCAGTCCA AGGGACTCTC AGGAGTCTCC TCCAACACCA CAGTTCAAAA GCATCAATTC TTCAGCGCTC AGCTTTCTTT ATAGTCCAAC TCTCACATCT ATACATGACT ACTGGAAAAA CCAAAGCTTT GACTAGACAG ACCTTTGTTG GCAAAGTAAT GTCTCTGCTT TTTAATATGC TGTCTAGGTT GGTCATAACT TTCCTTCCAA GGAGTAAGTT TCTTTTAATT TCATGGCTGC TGTCACCAGC TGCAGTGATT TTCAAGCCCC TCAAAATAAA GTATATTGTT TCATCTATCT ACCATGAAGT GATGGGACTG GATCATGATC TTAGTTTTCT GAATGTTGAG CTATAAGCCA ACCATTTCCA CTCTCCTCTT TTACTTTCAT CAAGAGGCTT TTTATTTCTT CTTTGCTTTC TGCTATAAAG GTGGTGTCAT CTGCATATCT GAGGTTATTG ATATTTCTCC CAGCAATATT GATTCCAGCT TGTGCTTCAT CCAGCCTAGT ATTTTACTTG AAGTACTCTA CATATAAGTT AAGTAAGCCA GGGTGACAAT ATACAGCCTT GACATACACC TTTCCCAATT TGGAACCAGT CTGTTGTTCC ATGTCCAGTT CTGTTGCTTC CTGACCTGCA TACAGATTTC TCAGGAGGCA GGTGAGGTGG TCTAGTATTC CCATCTCTTT AAGAATGTTC CACAATTTGT TGTAATCCAT ACAGTCAAAG GCTTTAGAAT AGCCAATAAA GAAGAAATAG ATGTTTTTCT GGAACTGTCT TGCTTTTTCT ATGATCCAAC TAGACAGATG TTGGCAATTT GATCTCTGGT TCCTCTGCCT TTTCTAAATC CAGCTCGAAC ATCTGGAAGT TCTCGGTTTA TGTACTGTTG AAGCCTGGCT TGGAGAATTT TGAGCATTGC TTTGCTAGCG TGTAAGATGA GTGCGATTGT GTGGTAGTTT GAGCATTATT TGGCATTGCC TTTTTTGGGG ATTGGAATGA AAACTGACCT TTTCCAGTCC GTGCCCACTG CTGAGTTTTC CAAATTTGCT GGCATATTGA GTGCAGCACT TTCACAGCAT CATCTTTCAG GATTTGAAAT AGCTCAACTG GAATTTCATC ACCTCCACTA GCTTTGTTCA TAGTGATGCT TTCTAAGGCC CACTTGACTT CACATTCCAA GATGTCTGGC TCTAGGTGAG TGATCACACC ATCGTGATTA TCTGGGTCGT GAAGATCTTT TATGTATAGT TCTTCTGTGT ATTCTTACCA CCTCTTCTTA ATATCTTCTG CTTCTGTTAG GTCCATACCA TTTCTGTCCT TTATTGAGCC CATCTTTGCA TGAAATGTTC CCTTGGTATC TTTGATTTTC CTGAAGAGAT CTCTAGTCTT TCCCATTCTA TTGTTTTCCT CGATTTCTTT GCATTGATTG CTTAGGAAGG CTTTCTTATC TCTCCTTGCT ACTCTTTGGA ACTCTGCGAT CAGATGAATA TATCTTTCAT TTTCTCCTTT TCCTTTCACT TCTCTTCTTT TCACAGCTAT TTGTAAGGCC TTGTCAGACT ACCATTTTGC CTTTTTGCAT TTGTTTTTCT TGGGGATGGT CTTGATCACT GCCTCCTGTA CAATGTCCAT AGTTCTGTCC ATAGTTCTTC AGTTCTCCGT GTCCCTCTGT CTACCAGATC TAATCCCTTG AATCTATTCA TCATCTCCAG TGTATGTACA TAAGGGATTT GATTTAGGTC ATACCTGAAT GGCTCAGTGG TTTTCCCTAC TTTCTTCAAT TTAAGTCTGA ATTTTGCAAT AAGTAACTCA TGATCTGAGC CACAGTCAGC TCCTGGTTTT GTTTTTGCTC ATTGTATAGA GGTTCTCCAT CTTCAGCTGC AAAGAATATA ATCAGTCTGA TTTTGGTATT GACCGTCTGG TGATTTCCAT GTGTAGAGTC ATCTCTTGTG TTTTGGAAGA GGGTGTTTAC CATGACAAGT GCATTCTCTT GGGATTATTC ATTCAAAATT GCACACAATA TGGCCTCCAT TTCAGGTATG CAGGGCTGGT TCAACATTTG AACTAAATTT TTGTAATCTG TCACATTGAC AGGCCACAGG AAAAAAAATA CGTGATCATA TCAAAAGATG ATAAAAAAAT TGCTAAAATG CAGTATGGAT TCATGATTAA GGACTCTTGT CAAACCAGGA ATAGAGGAGG ACTCCCTCAA CTTGGTAAAG AAATCTACAA AAAGCCTACA GTCAACTTCA TACTTCTGGT AAGAAAAGAG CTTTCTCACT AAGATCAGGA GCAAGGCAAG GATGATCTCT CTCACACTTT CAAGATCACA CTGGAAGTCC TAGCGATGCA ATAAGACAAG AAGTCATGGC ATTTAGGGAG GGATAAAACA GTTTTGGGTT GCAAATCACA TAATTGTCTA TGTAGAAAAT CCAAACAAAT AAACAATAGC AACAACAACA ACAACACAAT AAAAACTAGA ACTAGTAAAT GATATAGCAA GGCTGCAGAA CAATGTTAAT ATACAAAAGT CAACCACTTT CCTATATACT AGCGGTGAAC ATTAAAGACG TAGTACCATT TACGTTAGAT CCCCAAAAGT GAAATTGTTG TTGTTTTACT CTCAAAGTCG TGTCCAACTC TTGGAACCCT TGGACTTTAG CCCTCCAGGC TCCTCTGTCC ATCAGATTTT TCAGGGAAGA ATATTGAGGT AGGTTGCTAT TTCCTTCTCC AGGGTATCTT CCTGACCCAG GGTTCGAACC CACATCTCTT GCACCTCCTG TACTGGCAGG CAGATTCTTT ATCATGGTAC CACTTGGGAA TCTTTATAGA TTACCAAGAA ATACTTTGTT TTGGGGCCAG AAAGCCCTAA AGCAGCAGCT AGACCAAAAG AATTTCTGTT CCTGAAAAGA GAATATAACT GAAATAAGAT AATTACATAT TTCCTTAATC ACTTTGCAGA GCTTCTATTT TTCTATCATT TTCTTCTCTT CAAGTAGGAA AGGATTGTTT GTTTCTGAAA GGCCCAACAT ACTCTACCTA GAAAGAATTC AAGCAAGCCA GTCCTCTGCT GCAAGAATAA CAGGTATTGA TTATATTTCT CAGTGTACCA TTTGGGTACA AAGGATGATT TTGCTATAGA TGGTCAGGAA TCAGCAGTGT GAGCATGAAG TTGTTCAGCC ACAGTTGCCA CATGTATCAT GAGTCTGCAG TAGTTTTGTT ACATCTTCAG TACCTTTTAG GTTCTGGATC TGTTGGCCTC TTTGGCAGAA CAAGAAAGTG ACATTTTATT GTATTTGTTC TGCTGCCTAC AAATTAAGGG GGTGATTGAC AGTGTTTTGA AGGAATAGAG GACTTTGTTT GCTTTTGGTG AAAAACTTTT TATTCTCTCC

ATAATAGAAT GAATAATTGC ATGGTTTTAG AGGATTAGGA TGCTGATAGG AATATTTGAT TTCATAATTT TAAGAGTAGT TGGTGCTATA TGGAAATAAG CTTGAAATCC AGATCTTAAG CTGCTATAAA ATTTGTCAGT TAAATACAGA ATATGTTTGT GATTTCATGG AACAGGAAGG CCAGGCTGGC CTAAACAGTG CTACTCAGCT TCTTAAGAGT GCTGCCAGTT CTTTGTTGTG GCTTTGTTTT CTTAAAGGTG CTTCCTCTTT GGCCAGGGGC TCTTCACCCT TTCCTGAAGC ACGTCTACCA GTTGGGACAC ATTAGGAAAT GGCCCCCAAA TCTGTTTCCT TCAACTTGCA CTGGCAGAGA ACCAGACAGC CTGTCCCCTT TCCTGAAACA CAATCACCAA AGTTGTTTGT GTCTTGGGCT CTTTTCTACA AAGTCTTGAA AAATCTTCCC GAGACCTCAG CAGATTGCAA TATACCAGTT TATCGCTGTG TGCATTATCC CTCTAGATAT GAGTTGCTTG ACTCTCTCTG AGCTTTGTTT GGCAAAACCA AGATTCTAAT ATTAAAATAC ATAAACATTA AACCTTTTGG GCGTGCATTC CAATTACATT TTGAGTTGCA AATGTTCTTT TCTCTCTTGG AAAAGTAGGG GTCTAAACTT TTCTTTTCAC ACTACCTTCT GATATACATG CTAATTCCAA CTCATTTGGT ATAAAAAGAA AATATGAAAA TATAAACAAT GCACAGATAC ATACTTGATT CTGAAAATTT ACTCCCCTCC TTCACTTTCA CAAACATACT CTTATCTTTC CTTTGGATGT GATAATCTAT CCCATCACTT CTTCCTTTAC AATGCTTAAG AAATATGACT TAGTTTAGCC CTTTATTACT TTATTTTGGG CTGTTTTCTA GCTACTGTAT TCTCTGCCAA CAATGCTCAC TCCTTTAATC CAACCTAAAC CCTCCTACAC CTTATCCCTA GTATAATCTT TATTCCAGAG CCACCAAACT ATTTCACCTA TCATTACTGT TGAAAAACTA TTCATTGTTC TCCCTGTGGA AAGAATCAAG TCCAAATTTT TGAGCCTGAG AAACATGGCA TCACAACCTG GGGCTTAGAG GCTGTTCCCC ACTCTTCTTT TTAAAAAATA TTTATTTATT TGGCTGCGAG AGGTCTTAAT TGTGGCATGT GGCTTTCAGT TCCTTGACCA AGGATGGAAC TCGAGCCACC TGCCTTGGGA GCATGGAGTC TTAGCCACTG GACCACCAGA GAAGTCCTTC CCTCTCTTCT TTTTTAAAGA TCTGGGCTGC AATGCGAGAG AGTTAACATG CATCTCACTA TCATCTCTGT TATTTTCTTA TCATCTCACT TTCATCATCT TTTGGCACAC TCTTACTTCT CAGACCTTTC CCCATTCTTA CATCTTCAAA TCTAATGTAT TTTTCAAGGC CAAGATTTTT AAGACGAGCT GCCTCCGTGA AAGCTTTTCT GACCCCTGTA GCTTGCAGCC ATCTCTTACT TTGAGATCTT AATGCTTAAT CTCACTTCCA TTAATTTGGC CACTTTTCAC TTACTTTCTC TTGTATGTCT TCAGAAGCAC TGTCTCATAT TATCACTTCA CTTTGGGATG CTTTTATCTT GTCCCCTCAA CTAAATCATT AGCTCCTTCA TTCATTTATT AGTATTTACT GTGTTTACTG CCGTGCTGTG CTTAGTCACT CAGTCATGTC TGACTCTTTG CAACCCCATG GACTCTAGCA GTGTCAGGCA TGATGCTCTA GTGGAGACTC CTGCCACACT CTTCATCACC CAATGGGGAA ATCTGTCAAA GGTTTTAAAG TATATTAAAA GGATAATTTT TATTAACTTA TCCTGGGTCT TTAACACCAT GGAGTTACCA GCTATTACAT GAGGCCAGTT GGACTCCCTA CCTACTGGTG CTTTTATAAA AGTTGTATTT TAATATCACC ATTAGAAGCA GATTCTGTAA GTGAGGTGGT GTAATGTGGT TAACTAGTAA GTGGTATAAA CAAGGCTGGA TCCTAGGCTC CTTTTTAACC GGAATCTAAG TGACATGAAA CTGTGGTTGA TTTGAACAAA TGCTCTTCTT CCACTGAGAC CAGGACAAGC AGCCTGCTAT GGGCTGATGA GATATACTAA ATATGAACTA TTTTGATCCC CTCAAGGGAC TTTTGGGGAG GGGGGCTGAA AGACCTCTTC AAAAGTTTAC TCGAGTTTTA GAAATTAATA TTTGGCGATC AAAGTTGTAA ATTCAAACCT CTAGTTTTCC TTAAGTCTAT AAATTCAATT TACCAATGCT CTTGCTCTAT TTATAAGTCT AGCAGATTTT ATTATTTACT TCTAATAGAT CTTTCAATGG TGTTTGATCT AATTTATAAA CTTAGTTAAT TTAACACTTC CAAATACTTT GTATGTAGAG GAAAAATATT CAATTTCTCT AGTGTGTTGG GAGACCCCTA GACTACCGTC ACCTTCAGAT TCACTGGAAG GATTTATAGA ACTCAATGTA TAGGTCTACT CGTAGCTAAG ATTTATTACA GGAACATAGT AAAGATACAC AGATAGTAAG GGAAAGACAA AGGCCGAGTC TGGAGGACGC CATCTATAAG CTCTCTTATG CGTTTCTGCT CAGAATACAT GCTATTCCCC CAGCAACAGA AACTCTGCAA CATGTGTGCA GTATTTTTTA AATGTTAATT TTATTTTGGA GTATAGTTTA TTTACAATGT TTCATTTGTT TTATGTATGT GGCAAAATGA TTCAGTTACT CATGTACATA TAATCCATTC ATTTTAAGAT TTTTTTCCCA GGTAGGTTAT TTCAGAGTAT TGAGTAGAGT TCCCCATGCT GTGCAGTAGG TCCTTGTTCT GGTGTGCAGT ATTTTGGCCT GGGGAAACCA CTAGGGAAAA ACTAGAGCCC AAGGTTTTTC TTGGGAGCTG AGTATGTAGG CATTCATGCT CTGCCTAGCA TGAACCAGAA TTCCATACTC CCAGAAGGTG AGCAGGCATT CTGCATAAAC CATATTGCTT GCACAACCAG TTTAGGCAAA GTGAACCATC CTTATCAGTT AACTGTTGCA TGAGAATACT CGGTGACTTA ACTTCCAAAT CCCAACCAAG GGCCAATCTT GAGAGCAGGC CTTTCTAAGG ATAGCAGACT CAGACCTGCT GTGTTACTTC TATTTTCTAA TTTAACAAAC TAAGTTTTCC CAATTGCTCA AATAATGAAT ATGAAGCAAA TAATTGAAAT TATAAATACG ATAAACTGTA GTTCTTTTAA ATATCCTATT ATTTTCTACA AACTTAGTAG GATTTCAACT TTAAATCAAA AGCCTAAATC ACTTATTTAA TTACATACTT GAAATTGGAC AGACAAGATT GATCTTATAC TCTAATGGGT CAAATTCTAT TAAATAATGT AAATATATAA AATTTCTTTT TTTATGTATA AACAAGACAC AAAAATTCTT TAATATCAAA GTATTAACAT AGATCTGATT ATCTTAAACA TTTCTATGAT TACTCCCAAT CCTTCCTAGA ATGAAAAATG CTTTAACACT AAGGAAACTA TATCACTCTT AACACTAAGC TAGTAAGGTA GCCTGACCTG GAACTGGAGA TTTCTGCAGA GGTTGACTCC TTGCCCTGAC CATGAATCGT AGTTGATTAG GTAACTTTAA AATGAGTTAT TATCATGTCC CTGAATTTAG GTTATATATT AGCTAATTCT TCTGATTGCT GACTGAAGTC TACAATTTAC CCTAGGTTAA GCATTGACTG GAAAAGGCTT TTTAAAAAAA AAAATTGTGG GAGAGAGAGA CCTTAATGTA ATTGTTATTT TGGTCTAAAT TTAAAGCTTT TTGAACTTAA AGGAATTCTT CATTCTTTCA TATTGTTGCT ATCTTTTAAG ACAACAGTTT TTTAGAATAT TTATTAGAAT ACTGAGAGTC AGTTCCTAGG CAGGTTGATA AGAAGTCCGG GAGGAGGAGA AAAGGGTCTG GGACTCTCAA GGAGAAAAGG GCAAATGTTT TTTTCTATAT GTCTTAGTCA ATATAACAAT GTATCATGCT CAAAAGACAT ATTTCTCCTT AATAAGAACC TTCTGACTAA TCTTTATCTT AAAATGTGTA TTATGGAAGT GGGTCTGGTA AGATCTTTCT ATTGTTAGTT CTAATCCTGT CATCTTAAAA TGTAAATTGT GGGAGTGGGT CTAGTAAGAT CTTTACAACC TTGAAACATT CTTTTGATTT ATTGAAAAAG TATATAACTC CCTTTTCTTA GACTAGCAAG TGGGGCACTC TCCATCACCC TTTTGATGTC TGTGTCAGAA GCTTTCTCTG TCCCTTTTTC ACTTTAATAA AACTCTGCTA CACAATGCTC TTGAGTGATC AAGCCCGGTC CCTGGTCCCA AAGCTAAATC ATCTTTGGAG ATCGTGAATC CGTCATCGTT CACCATGAGC TATCAATACT GGATATGTGT TATGGTTTTA CCTATGTAGT CACAACTTTC AAAGTAATTT TTCCCCTAAT TTTTTAATAT ATTAAAAAAA AGAAAACAGT TGTAGGTTCA CAGCAAAATT GAATGGAAGA TAGACAGATT TTCCATATAT CCTCTGCTCA CTACCCCAAA CGTACTCTCG TCCATTATCA ATAGCCCCCA CCAGAGTGGT TCATTTGTTC CAATCAGTGA ACCTACACGG ATTCATCGTC TCCCCAAGTC CATCGTTTAC ATTAGGGTTT ACTCTTGGTG GTGTACATTT TATGTGTCCA TAGACTCTGA CAAACGCAGC CATCACTGTA GGGTCACACA GAAAGGTTGC CCTGCCCTAA AAATCCTCTG TGCTCCACAT TCTTCCCTGT CTCACTGCAC CTGGCAACCA CTGACTTTTT ACTGTCTGCA CACTTTTACC TTTCCCTGAG TGTCATGTAG TTGGAATCAT ACAGTATGTA GCCTTTACAT AGTGGCTTCT TTGACTTAGT AATATGCATT GAAGTTTCCT CCTTGTCTTT TCATGGTTTG ATAGCTCCTT TCTTTTTGAC ACTGAATAAT ATTTCATTGT CCAGTTGTAC CACAGTTTAT TTATCCGTTA ACCAATTGAA GGATATCTTG GTTGCTTCCA GGTTTTGACA GTTAATAACT ACATCTGCTC TAATCATCTG TGTTCGAGTT TTGGTGAGGA CTTAGCTTTT CAGCTCATTT GGGTAAATAC TGAGGAATGT GATTGCTAGA TCTGGTGGTA AGGGTATGTT TAATTTTATA AGAAACTGTG ACAGTCTTCC AAAGTGGCTG TATTGATGTG AATTTCCACC AGCAATGAAT GAAAGTTCCT GTACAGCATT TGATATTGTT TTAGAGTTTG ACTTTTTTTT TTTTTTTTGG CCACCTGATG TGAGCAGGAT CTTAGTTCCC TGACCAGGGA TTGAAACCAG TCCCTGGCAG TGAAAGAGCT GAGTCCCAAC CACTGGACTG CTAGAGAATG TGCTGGAGTT TGGCCTTTTT AATAGGTGTG TAACGGTATC TCATTCTTGT TTTAATTTGC ACTTCCATAA TGACATGATG TAGAACATCT CTTCATATGC TTATTTGCTG CCTGTGTAAA TATCCTCTTT GGTGAGATGT TTGTTCAGGT GTTTGGTCCA TTTTTTAATG TGGTTTGTTC TCTTTTTTGT TGTTGTTGTT GTTTTGTTGT TGTTTTGTTG TTGTTGTTGC TAAGTTATCT CTGACTCTTT TGCAACTCCA TGGACTATAG CCCGCCAGGC TCCTCTGTCC ATGGGGTTTC CCAGGCAAGA ATACTGGAGT GGGTTGCTAT GACCTTCTTC AGGGAATCTT CCTGACTTAG GGATCAAACC TGCATCTCCT GCATTACAAG TTTGTTGTCT TAGTATTGAG TTTTAAGAGT TCTTTAGTAA GATGCTCTTT TCCTATGGCC TCTTTCAAGA TTGTTTTCTT TGTCTTTGAT TTTCTGCAGT TTGAATATGA CATGTCCAGG TGTAGTTTAC TTGACATTTA TTCTCCCTGG TGTTCTCTGA GCTTCTTGTG GTTTGTGATG AATGGTTTTA AATGCCAATT TCTGTCCTCA ACAGTGATGG CAAACACATT TTTTTTTTGA TGTGTTTCTA TGTCTGAATT GGTTACCAAA TGATTAATTG ATGCTCAAGC AGCAATAATT AGTACTTGGT AGTATTGGGG AAGGGGAAAT TTCTTGAGTT CTTTTTACTG GTCTAATAAC TGAATTGACA CAAGACAGAT TAACAAGAGA ATAAAACAAT TTAATTTGTA TGCATGAAGG GTCTCTAGAA ATGGGACCGC CTGAAGCAAC TGAAGCAGGC TGTTGATATA TAAAGACCAA GAAATAACTA TTTGCAAAGA TTTAACAAAA CAATTGGGTT TATGCATGGC GTATCAGATT AATGAAGAAA TAACAAAGTT TACACAGCTT TCTTAGCCTC AAATTCCCCA ACTCTCTTGA CAAGACTGCT TTCTATTCTC CTGGTATAGG GAGGGAACGT TCATGGGGGA GATTCATTTC CCACTGAAGG GAGAAAGAGG AGGGTCTGAG GTTTTTTAAA ATATTTTTTC CCACCAGCTG TTTTTCATGG AACTTTAATT CAGTGTAATC ATCATGCCAT TGAGGCATAT TCTGTGGTAG CCTGCCCTAG ATCCCAGTAC TAAACTGTAC TGAGGTAAGA ACAACTTAGT TAAGATGCTG GCTTCACTTT GCAGGCTCAG AAATTGGATC TTTTCACTGT GTACTTATGC TAGGTTGGAA CTCATAGTTG CTGATTCATG ACAGTTAAAC TCAAGAAGCT GAGGTGATCA GCTTGAATCA GAATGATAAT TAATTGATTC TCTTAAGGGA CACTCCTTCC TATGACAGAA GTACTCAGGT CACCTATACA GTCACTTCTG GGTATGAGAG TAAAGATAAG TGTATACGCT TGAGAGATGT TTTATCCAAG TAATGGAAAA TGCTTGTGTC AGCTATCTCA ACCTATGACA GAGGAAAACA TCTTTAGGAA CTGGGTGTTT CATGTTGCCC TGCTCTAACG TTGAAAATGT AGTTAAATAT TCTCAAACTC TAATAATTGT GACTAGTAAC GATAAAGACA TGGCTTATCA TTTATCATCA GTTCAGTTCA GTCGCTCAGT CATGTCTGAC TCTTTGCAAC CCCATGAATC ACAGCATACC AGGCCTCCCT GTCCATCACC AACTCCCGGA GTTCATCCAA ACTCATGTGC ATCGAGTCGG TGATGCCATC CAGCCATCTC ATCCTCTGTC GTCCCCTTCT CCTCCTGCCC CCAATCCCTC CCAGGGTCTT TTCCAATGAG TCAACTCTTT GCATGAGGTG GCCAAAGTAC TGGAGTTTCA GCCTTAGCAT CAGTCCTTCC AATGAACACC CAGGACTGGT CTCCTTTAGA ATGGACTGGT TGGATCTCCT TGCAGTCCAA GGGACTCTCA AGAGCCTTCT TCAGCACCAC ATTTCAAAAG CATCAATTCT TCGACGCTCA GCTTTCTTCA CAGTCCAACT

CTCACATCCA TACATGACCA CTGGAAAAAC CATAGCCTTG ACTAGATGGA CCTTTGTTGG CAAAGTAATG TCTCTGCTTT TTAATATGCA GTCTAGGTTG GTCATAACTT TCCTTCCAAG GAGTAAGCGT CTTTTAATTT CATGGCTGCA GTCACCATTT GCAGGGATTT TGGAGCCCAG AAAAATAAAG TCAGCCACTG TTTCCCCTGT TTCCCCATCT ATTTGCCATG AAGTGATGGG ACTGGATGCC ATGATCTTCG TTTTCTGAAT GTTGAGCTTT AAGCCAACTT TTTCACTCTC CTCTTTCCCT TTCATCAAGA GGCTTTTTAG TTCCTCTTCA CTTTCTGCCA TAAGGGTGGT GTCATCTGCA TATCTGAGGT TATTGGTATT TCTCCTGGCA ATCATAGAAG GTGATAAATC ATAGAAGATG TGATTTATCA TTTATCATAG AACATGATTC TTCTATGCCA GAAAATTGGC TAAAAACTTC ATCCTCACAA AATCTTCAGA GATAAAGATG ATTACACTTT GGTAGATTAG GAAGGTTAAA TGATTTATTC AAACTCATCC AAACAATTAA TAAAATCCAG AGACAGAATT TGAACGTAGT ATTCTCTGAG CCCTCCATAC ACTATCTTAG ACCAGTTTTA GTTTCTATTT ATTAATAGAA CAAACCCTTG TGTTAACACA TTAGTTTTTC TGACAGGTTA CTCTAATACT AGTTATCAGT GGTTCCTGTT TAGCTTTGGC AAGTTAATAA AGGTGACTGT GCGAAGCTTT CCATGAAATT GTATAACCTG GTATGAAAAT TAATAAGTAA AACCTCACTA AAATGAGGTT TTTCCAGTAG TCATGTATGG TTGTGAGAGT TGGAATATAA AGAAAGCTGA GTGCCTGAGA ATTGATGGTT TTGAACTGTG GTGTTGGAGG AGACTCGTGA GAGTCTTTTG GACTGCAAGG AGATCCAACC TGTCCATCCT AAAGGAAATC AGCTGAATAT TCATTGGAAG GACTGACACT GAAGCTGAAA CTCCAATACT TTGGCCACCT GATGCGAAGA GCTGACTCAT CAGTAAAGAC CCTGATGCTG GGAAAGATTG AAGGTCGGAG GAGAAGGGGA TGACAGAGGA TGAGATGGTT GGATGGCATC ACTGACTCAA TGGACATGAA TTTGAGTAAA TTCCAGGAGT TGGTGGTAGA CAGGGAGGCC TGGCGTGTTG CAGTCCATGG GGTCACAAAG AGTCGGACAT AACTGAGTGG CTGAACTGAC TGACGCTAAA AATGAAGCTG GGAGGCCAGA AGGGGGAGCT TTCATGCAGG ACAACTCCAC ATCCATTACA GGAAGAAATG CCAATGATAG ACCCAAAAGA AGCATTAACA AAGACTCATC ATTTATAGTC TCCAAAAGGA AAAAGTATAC ATAGCATCTC CAGGAAAAGA TGTGTATCAT GCCTCCTAGA GGAAATCCAC TTCCTAGCAA CTCAGTCAGT GAGAAACCAT CATCACTCTG AACTCTCACT TTTCTCCAAG GGACTTTGAT TCAAAACAAC CTCTTGCAAC ATCCCCTCTT TTCTCCATGT TTCTTTTTTA AAATAATGTT TCTTTCCTTT GTTCATTGGG CTTGCCTATG GTTTCTGCCA TGAGTTGTTT GTCCCAAATT GTAATTCTCT GCTACACCCA GATAAACCCC TCCTTTTTTG CCAGGAAAGT AGTTGACTTT TATTTTTAAA ATCAGTAGTA GAATATTTTA AACAAATAAA AATATAGAGC ATATTGTAAT AAATGGGCTT CCCTGGTGGT TCAGTGGTAA AGAATCCGCC TGCAATGAAG GAGATAAGGA TGCGCCGGTT CTATCCCTGG GTCGGGAAGA TCCCCTGGAG GAAGGCATGG CAACCCACTC CGGTATTCTC TCCTGGAGAA TCCCATGGAC ATAGGAGCCT GGTGGGCTGC AGTCCACAGG TTCACAAAGA GTCGGACACA ACTGAAGTGA CTGAGCACAG CACACATAAA AATATGAGCA TACTGTAATA AATAGTTATG TACCTACCAT GAGGATTTAA TGCATTGACA TCTGTCTATT TTCTACAAAG AAATTCTTTA AAAATATAAA TCAAACAAGT CACTTTTCTT CTTGAAACAC TCCACTGGTT TTCTACATTT AAATAAAAGC TCAAAGACCC AGTGAGCCAC TAGGCCCTAC ACCATCTGCC TCCCCATCAG CCGTCACCCT GTCTCCTAAC ATTCTCTTTC CCATTACAGA TGCCCTAGCC TGTTTACCTT GCTGGTCCAT GGAGATGCCA AGCACTTCCA ATCTGAGGGC TTTGGGCCTA TTGCTCCCTC TGTAGCACCA TTCTGATCTC AGTGTGCTCT TTTGAGTTTA GTTGTATGAC TGTGGTATAA AACAGTCGTT ATATTGTCTC ATTCATCTTA CAATTTTATG ATTTTCTCTG ATTATGTAGA TGTTTGTCTC TCATGTTCAA AAAATCCAGA GGTAAGCATT CCAGAGACAG TATACCAATT TCCTGGTTTC AGGAACTCAC ATTCCTTCTA TCTTTTTACT TTGCTATCTG TGGTTTCTAT TCTGAGTCAT CTCACTGTCC ATGATAGTGA TAGCTATTAG GAATGCCAGT CCTGTTTGAA TTTCAGCCCA GAGGAAAGAG GAAGCAGGAA AGAGCATTCC AGGTTTCTAA GAAATGCTGG GTAAAGGAAG AAATGGAAAC CTGAGTTTTT TATTTTTTAA TGTTTTTTGA AGTTAAAACT TTGATGTCAG AAAAAAAAAA AAATCCCAAA ACTTTGTTGT CTAAGTAAAA TCTCATCTAC CTTCATGGGA GCCTCAGAGG ACAATAATAA AGTATTCTTT TAAACTTATT TCTAATCACC ATACTAGTAA AACTGTAGTT AAGCTTGATC TTTTTGTGCC ACCTGTGGCC CAGGAGAGTT TAGCTCCTTT TTGTTTGTTT TAGCAATAGA AACATTTTTA AAAATTAAAA ATGGATGCAC AACTTCAATA TTTTAAAAAT GTATTTTTAA ATGTTAAAAT TTATATATTT ACTTATTAGG AAGTTAGTAT AAGCAGTATT TTTGATGAGC ACAGAGATGT TGTGTAATTT TTTATAGTTG TAGAAAGTCT CTGAAATAAA TTTATTTCTA AATTTGGTTG TGTAGTATTG AGAAAAATCT GATTCAGAGA CTAGTAGTCA GAAATGGCTT CAGGTTTTGA AGTTTTGTTC ATCTTACAAT TTTATGATTT TCTCTGATTA AACAGAGATG AAAAGGGAAA ATTTATTCTG AGATACATAT AAAAATGACA CAAGTTAACA CATAGGCTTC CAGTGTGGTA GATAGTACAT GAGAAGGCAC AGGAAGTGTG TTTTTATACA ATTTCTTAAG TGTCTTAAAT GAATAGATAA ATACACATAT ATGTTTTCAA ACTGTGGTGC TAGAGAAGAC ACTTGAGAGT CCCTTGAACT GCAAGGAGAT CAAAACTAGT CAATCCTAAA GGAAATAAAC CCTGAATATT CATTGGAAGG ACTGATGCTG AAGCTGAAAC TCCAATACTT TGGCCATCTG ATGTGAAGAG CTGACTCATT GGAAAAGATC CTGATGCTAA AAAGATTGAA GGCAGGAGGA GAAGGGGCAA CAGAGGATGA GATGGTTATA TAGCATCACT GACCCAACGG ACATGAGTTT GAGCAAACTG TGGGAGATAG TGGAGGACAG AGGCACCTGG GGTGCTGCAG TCCATGGGGT CATAGAGTCG GTAACTTAGT GACTGAACAA CAACATATAT ATATATATAC ACAAAAATAT ATATAATATA TATGTAATGT ATATAATATA CTATATATAA TAATAAATAT ATAAAATGAG CATATTGTTG TTGTTGATTG GCTTGAAACT GCTCTAAAAC TGCTTTATTG AAATTTGGAT ACCACACATG TTAATTGTAC AATTCAATGA ATTTTCATAA ATTTATAGAG TTGTGTAACC ATTACTGATC TAATTTTAGA ACTTTTCTAT TACCTCAAAA AGCTCGCAAC AAACTTATGC TTACTGGTGC CAGTTGTACC CTCTCTGCTT CCTTCCCCTC TTTACCTGAG AGGAGTAGAT GGTCTGAGAG CTGGTGTCTT AATGCCTGTG TAAAAGTATC CATGATCTGT GTTCCTGTAA ACAGTGTCTG AACATAACTG TAGAACTTGT AGTCAAAGAT AAAAATTAAA AGTGATTTTG TTGTTGAGAG GCCTGTGAGC TGATTCATTG TAAGTACTGT GTAATAATGC ATAACTGGGA CTGAATTGTG TTATATGTCG AACTGGAATG TTCATATGTA TCAGAGGACA ATTCTTCTGA TGTCCAGAGT TTTCACTACA TAATGCTGTT TTGTTTTTTT GGCTGTGCTG GGTCTTTGTT GCTGCAAGGG CTTTTCTCAA GTTGTGGCAA GTAGGAGCCA CTTTCTAATT GCAGTGTGTG GGCTTCTCAT TATGGTGGCT TTTCTTGTTG CAGAGCATAG GCTCTAGGCC CGCGGGCTTC AGTGGTTGTG GCACATGAGC TGTAGAGCAC AGGCTCAGTA GCTGTGGTGC ACGGGCTCAG TTGCTCCGTG GCATGTGGGA TCTTCCCGGA CCAGGGATAG AATCCGTGTC TCCTGCATTG GCAGGCAGAT TCTTTACCAC TGAGCCACCC GGGAAGCCCA ACGCTTTCTT GTTGACTGGC AAGTTGCAGA TGACATTCTC TGTGGCTTTG GATGCCTGCC AGAGGGAAGA CTTACAATTC CCAACAAATT TGAAGGCATG CTTGCTAGAT ACGATACTTG ACATTAAGTA AGCAGGTTCA CTATACACAG TGTGTAATCA AAGAACTATC TTTCACAAAC TCTTATCTTT GTTTCTGACA GAACACTTGC AGTTTCTACA AAACTGCTGT AAAAGTTGGC CTCAGTAAAA GTTGTTTATC TCTCAGTAAA AGTAGTAACA CTATACAGGA CTTCCCCCCA CCTGCTTTTG ACAGATTGAC TCCATGGGAT TTAAAACTTC CTTTTTTTCT TGAGTTGATA AGGTGACAAT GCTCTTTTGA AACAGATACA GGTGAGATAT ACCAGGTGGA CTAAGCAGGT GTGAAACAGG CCCTGGGGTA GGGTAGCTGA CCTTATTGAT AAAGTAGTGA CAAGGGACAG TCAGTTACAT CATAATGTAC TAAGGTATGT TACAGAAGGA AAGAAGTGAT ACAAAGGATG GGTTTGGGCA AAAGCCTGTG AGACTATAGA GACTTCTTCC TTGACTAGCA AATGAGGTCA CCCTGCAAGC TGTGCGGGCA AGACAGGAGT GGAGCTCACG TAGTTCTCTG GCTGACCCTG CTGCTGAAAC AGCAACCGCA GAGCAACTAA GCCCACTCAC CGCAACTACT GAGCCTGTGC TCTAGAGCCC AGGCGCCACA ACTACTGCAC CTAGAGAGTA GCCCCTGCTC CTTCTGTAGC ACCAGTCTGT GATGATCCTC TGTTGGTTGT TGTCAGCTTC CAGTGGCTGG TCACCATGCT CATCATCTTC AAGCCCTCGT CTCCTTTGCA GATCTTCTTA AACTACCTCT GCCCTGTGCG TTCCTTAGGA GTTCCTGGGC CAAATGCCTT GTTGGTGTTG CAAGTTGTCT TTACTGCTTT ACGACCCATT TTGAACTTGA GTAAGAAAAT TGCTTGAATT TACTTTTTGT CTAACGTCTT TTCCCTAGTC CAAAATAAAT ATAAAATAAA CAGCAACTAA TAAATCATTA GCAAAAAACA TAAAGTGAGA AATGTGCATT AAAATGACAT ATAACCACAT TTATTTAAGA ATGTATTCCA ATTTCAAACA GCAAATTTCA ACAGTGCAAA ACCACAGTTA CTTTTGCAAC AACCTAAGCA TATTAAAAAG CAGAGACATT ACTTGACCAA CAAAGGTCCA GCTAGTCAAG GCTATGGTTT TTCCAGTGGT CATGTATGGA TGCAAGAGTT GGACTGTGAA GAAAGCTGAG CGCCGAAGAA TTGATGCTTT TGAACTGTGG TGTTGGAGAA GACTCTTGAG AGTCCCTTGG ACTGCAAGAA GATCCAACCA ATCCATTCTG AAGGAGCTCA GCCCTGGGTG TTCTTTGGAA GGAATGATGC TAAAGCTGAA ACTCCAGTAC TTTGGCCACC TCATGCAAAG AGTTGACTCA TTGGAAAAGA CTCTGATGCT TGGAGGGATT GGGGGCAGGA GGAGAAGGGG ACGGCAGAGG ATGAGATAGC TGGATGGTAT CACCGACTCG ATGGACATGA GTTTGAGTAA ACTACGGGAG TTGGTGATGG ACAGGGAGGC CTGGTGTGCT GCCAGGGCAA ATCATGGGGT TATTGCGATT CATGGGGTCG CAAAGAGTCG GACATGACTG AGCGACTGAA CTGAACTGAA CTGAATGGTA TTGAGTTGTA AGGATTCTTT ATATATTTTG AATACAAATT GTTCCTCTAC TCCATACATT TTTTAAAAGG CATAGGTAAT ATTTGTGTTT AATTTCATTT ACAGAATGAA ACCAAAATGT ATAAATATTA TTTATGATGC GGGGGTATCA TTGAGGATTA ACAACCTCAA TCGTAGAGGT TGTTATGAGA TATACAGTTT GCAAATATTT TCTCTTAGTC TGTGACTCAT ATGTTCTTTT TTTTTTTTTT TTTGGTGGCC AAAGTACTGG AGTTTCAGCT TCAACATCAG TCCTACCAAT GAACACCCAG GACTGATCTC CTTGCAGTCC AAGGGATTCT CAAGAGTTTC TCCAACACCA CAGTTCAAAA GCATCAATTC TTTGGTGCTC AGCTTTCTTT ATAGTCTCTC ACATCCATAC ATGACCACTG GAAAAACCAT AGCCTTGACT AGACGAACCT TTGTTGGCAA AGTAATGTCT CTGCTTTTTA ATATGCAGTC TAGGTTGGTC ATAACTTTCC TTCCAAGGAG TAAGCGTCTT TTAACTTCCT GGCTGCAACA CCATCTGCAG TGATTTTGGA GCCCAGAAAA ATAAAGTCAG CCACTGTTTC CCTTGTTTCC CCATCTATTT GCCATGAAGT GATGGGACCA GATGCCATGA TCTTCGTTTT CTGAATGTTG AGTTTTAAGC CAACTTTTTC AGTCTCCTCT TTCACTTTTA TCAAGAAGCT CTTTAGTTCT TCTTCACTTT CTGCCATAAG GGTGGTGTCA TCTGAAACTC CAATACTTTG GCTGACTCAT TTGAAAAGAC TCTGATGCTG GGAAAGACTG AGGGCAGGAG GGAAAGACTG AGGGCAGGAG GAAAAGGGGA CAGCAGAGGA TGAGATGGTT GGATGGCATC ACCGACTCAA TGGACATGGG TTTGAGTGAA CTCCAGGAGT TGGTGATGGA CAGGGAGGCC TGGCGTGCTG CGGTTCATGG GGTCGCAGAG TCAAGACACG ACTGAGCAAC TGAACTGAAC TGAACTGACT GAACTGAATG GCAAAAACGG TTTAAAAACA ATATTTAAAT AAAAGGTTTG

TGAAGTCCTA AAGCCTGTTC TTGGCGTTCT AGGATTATTA TACCATAATT TGCAACCTAT TGCTAGGAAG TGTTTGAGTG GCATTTAAAC TCAGCAAGCT GAGTATCTCA TTTTTAGCAG AATCCCGGAC TGATGGAGTT GGAAAGGACC TAAAACTTAA GCAGAATTAA CACTTCTAAT TCTGTAAATA AACTCCTACA TGTTTGAATG ACTTAATTGC AATGCTGTAT GAAACATTTT ATGGAGCACT GGAGGCACAG CTGGATTTGA GGACAAACAA AAACACCAGG AGTCAGAAGT TCAGTTAAGG CAGGAGTACA AAAAAATCAA TGTTTCCTGA TAAGACTAGG GATTTATTTG CTGGCTCATG ATAAACAACA GGTTAAGCAT CAAAGAAGAG TAAGGAAGAA CTCTAAACTC TGTAGAAACC AGGCTTTAAA AATAGAAATT CACCTCAATG ACTGTTGTAA ATACTAACAA AGAAAAAGAA TTCATGCTGA TAAGGGAATT GTATTGTGTT CAGTATTTGA GGGTTAACTT TGTACATTTA CCTCAAACTA TGCCATGCCT CATTTGCATT TGTGATTTAT GTATATTTCT TTTTGTTTAC CTCTTTAAAC TTATTCATTC ATTTAACACT GAATTTATTG AGTACCTATT TAAAGCTAGA AACTAACCTT AAAAATTAAT TCTCACTCTT ATAAAGAAAA TACATAAGTA GCAGTTATAA AATTATGGGA GTAAGTACTC TAACATATTT TATAAGTAGG TATATTTTTG AGTATAAAAA TACCATGAAA AAAAAGTTGT TTTTTTTGGA AAGATCAATA AAGCTTTAAC TATATTGACT AAGGAAAAAC AGAAACCACT TAAAAGCAGA AATGAAAGTG GGGTCATTAC TATAAATTTT ATAGAAATAA AAATAATATA AAAGGATACT ATGAAGAATT GTTTGTCAAC AAATTGGGTA ACCTAGGTAA GGTGGACACA TTGCTAGAAA AATACAATCT GCCAAAACCA ACTCATGAAG AAATAGAAAA TCTGAACAGA CCTATAACTA GGAAGGAGAT TGAATCAGTA ATTAAAAACC TCCCGAACAA AGAAAAGCAA TGGACAAAAT GGCTTGACAG GTAGATTCTG CCAAATATTT AAATAACTAA CTCTTCCAAA AAAACCTGAA TCTTCCTAAT TCATCTGTGA GATCAACAGC CCCCTGATAC TAAAGCCACA CAGAGACACT CTAGAGAAAA CTAAATCACT ATCCCTTGTG AATATAGATG CAAAAGTTCT CAATATAATA CTCACAAGTT TAATTGAGCA CCATATTAAA TGGATTATAT GCCATGACCA GGTAGGATTT AACCCTGGAA TATGAGGATG GTTCAACATA GGAAAATCAA TGTAATACAC CATATTAACA TAATGAAGGG AAGAAATTAC ATGATCATCT TAATTGATGC AGAAAAAGCA TTTGACAAAA TTCAGTACCT TTTATGATTA AAAAAAAAAA AGAAACCTCA AACTAGAAGT AGAAGGATAC TTCCTTAACC TAAGGGCCAT ATATGAAAAA CCCATAGCTA ACATCTTACT CAATGGTGAA AGACAAAGCC TTTTCCCTAA AATTAGGAAT GAGACAAAGA TGCCTGCTTT TGTCACTTCT GTTCAGCAAA GGCTTCCCAG GTGACTCAAT GACAAAGAAT CCACCTGCCA AGCGGGAGAA GTGGGTTCAA TCCCTGGGTC CAATCCCTGG GTTGGGAAGA TCCCCTGGAG AAGGAAATGG CAACCCACTC CAGTGTTCTT GCCTGGAGAA TCTCAGGGAC AGCAGAGCCT GGTGGGCTGC CGTCTATGGG GGTCGCACAG AGTCGGACAC GATTGAAGCG ACTTAGCAGC AGCAGCAGCA GCAGCCAGTC TTTTTGCCTG GGAAATCCCA TGAACAGATG TGAAATTTTT TTTTCACTGA TTTTTTAAAA CTTCTGAATC GTTTGAATCA CTTGAAACGA GACGCATAAT TCTTATATTA AAAAAGAATT TTTAAATAAA TGAAGTTCCC AAAGGGTCAG TTAGCCAGTT TAACTTTCTA TGTTAAGGAT AGTTGTCAAA AAAGATACCC CACTAGATGA AGATTTCTCT TCCAACTCTG AAAATATGCT ATTAACATCA CACAAATCTT TTTTCAGTCT TGCAGTGGTT TCAAGTGAGA GCAGTGCATC CCCCGCCCCT CTCAGAGACG ATGTTTAGAG ATGTCTGCTA CCCTTTTTGG TGGTCATATG TCTGAGGGTT GCTATTGGCA TGTAGTGGTC ATAGGCCAAG GAGGGAAAGC ATACTGTAAA GTAAGCAAGT GTCATATTGA AGAAATCATT GCCAAATCTA TTCTTAGGAT GATTTTAGCT CTCAGGTTTA GTTCTTTTAT CCGTCTCGTT AGTTTTCTGT CTGTGGTGTA AAGAAAGTTT CCATATTCAT TCTTTTGCAC ATAGACTTAG TTTTCTCAAC ACCGTTTTTT AAAATTGAAA TATAATTGGT ATACAATATT ATTTAGTTTT AGGTGTACTA TATAGTGACT TGACATTTGC ATATATTATG AAATGATTGC CATGATAAGT CTAATAACCA TCTCTCATTC AAAATTATTA CAATATTGTT AACCATATAT ACTGTATATT ACATCCCCAT GGCTTATTTA TTTTATAACC TGATATCTGT ACCTGTCAGT CTCCTCCGTC TATTTCTTCC CCCACCCTCC ATTCTGGCAA CCACCCTTTG TTCTCTGAGT CTATGAGTCT TTTTTCATTT TTGTGTTTGT TTTTTAGATT ACACATATAC ATGAGAATAT ACAGTATTTG TCTTTCTCCA TCTAATTTAT TTCACTTAGC ATAACACCCT ATAGATCCAC TCATGTTGTT GCAAATGGCA AGTTTATTTT TATGACTGTG TAGTTTTCTA CTGAATACAT ATACCACATC TTCTTTATCC ATTCATCTTT TGATGGACAC TTAGGTTGCT TCCATATCTT GGCAATTGTA AATATTGCTG CTGTGAACAT TGGAGTTCAT GAATTTTTTT GAATTAATGT TTTTGGTTTT CTTTGGCGGG GAGGGGTGAG TATACCCAGG AGTGGAATTA TTGGGTCATA AAGTAGTTCT ATTTTCAGTT TTTTGATAAA CCTTTGTACT GTTTTCCACA GAAGCTGCAC CAATTTACAT TCTCACCAAC AGTGTGCAAA GCAAAGCTTC CCTTTTCTCC ACATTGGGTG ATAATTTTTA TCTGTCAATA TTTTAAATAT ATCACTCCAC CTTCTCTTGC TCTATAGTTT CTGCTGGGAT AGCTTAATGG GGGTATCTTT GTAGGTTACT ATCTTTTGTC CCCTGTGTGT GTGTTAGTCA CTTGGTCGTA TCTGACTCTG CAACCCCATG GACAGTAGCC ACCAGGTTCC TCTGTCCATG GAATTCTCTA GGCAAGAATA CTGGAGTGGG TTGCTGTTCA CATTTCCAGG GGATCTTCCT GACCCCAGGG ATTGAATCCA GGTCTCCTGC ACTGCAGGCA GATTCTTCAC CAACTGAGCC ACCAGGGAAT AGCTATCTTT AAAATTCTTT CTTTATTATT AAATTCTGTC TTGGAGAAGA TTCTTTTGCA TCAAGATAAT TAGGTATTCT GTTAACTTGG TAGATTTGTA TGTCCAGTTC CTTCCCCATC TTTGGGACAT TCTCAGCTAC TATTTCTTTA AATAAGCTTT CTGCTCCATT TTCTCTCTCT TCTCCTGGGA TACCCATTTT CTTTATGTTG CCTTCTCTAA TGGAGTTGGA TAGAGTTTCT TCAATTTCTT AAGATCTTGG TTCTTTCTCC CCTTCTGCTT AAATCACTTC TAGATTTCTA TCTCTGAGCT CACTAATTTT CTCTTCTTTG TGAGAAAATG GAATTTCCCA ATACTTCTAA TGCATTCTCC ATCTCATTTA TTGAGCTCTT TAGCTCAGCA GTTTGTTTGG TCCTTTTTTA AAGTTTCAAT CTCTTTGGTA AAGTATTGGT TCGTTCCTTA CTTTTATTCC TAGGCTCACT AAACTGCCTT CTGAGCTTTC TCATGCCCGT TGAGTTTTTC ATGATGGCTA TTTTTAATTC TTTGTCATTT GGATCACAAT CTTCCTTGAC TTCAAGTTTG GTCATTTTCT TTTTGTGATA CTGTGTGACT GGGTTTTTTC ACAGTGTTTG ATGAGTTGTT TCTCTGCTGG TGCATTTAAA GTAACAAGAA AGAAAAGAAA GAAAGAAAGA AAGTCGCTCA GTCGTGTCTG ACTCTTTGTG ACCCCATGGA CTGTAGCCTA CCAGGCTCTT CTGTCCATGG GATTTTCCAG GCAAGAATAC TGAAGTGGGT TGCCATTTCC TTCTCCAGGA GATCTTCCCA ACCCAAGGAT TGAAACCCCG TCTCCCGCAT TGTAGGCAGA TGCTTTAACC TCTGGAAAGC CCCTGGTTTG AAGTAGCAAA CCCCTTTCTA ATTTAGATGA AGTTTTGTTT ACTTAGATTC TAACAATTCA ACAGATTGAT AATTAGAGGT CTTTCTTCTG TTTTTTAGTA GATGGTGCTA TAGCACAAGT TTTCAACTTT TCTTGCTGAG CTGCCTCTGA CAATATTTGA GAATTGGCAC TTTCCACCCT TCACTGCCTT TGCCAGAGGT GTCACAGGTG CCCTCCGTGG TCCCTGCTTG TGCCTCTGGG CTCATTGGTG CCCTGCTGAT GTTGGTGCCA TTGCTGTCAC TGTCATTGCT GCCAGGGGAA CTGGGATGAT GGGTGCCCCG CTGTGTCCGG GGTCACTTGG TTAGTCTCAG CAGGAGGGGT GGGTGGGAGA AGCTGGGGTC AGACAGGTGC CTCCACCACA GCTGGGGTTG TCAGGTTTGT AGGCACCACC ATGGGCAGGG GGATGAGGGT CACGGGCACC ACCATGGCTT GAAGGACCGG AGTCATGGGC CCTGCCACTA CTGCTGCCTG GTTCTGCCAT GACCAGGAAG CCATATGCAC TGCCTCCACA GCTGCTGCCT GGCTCTCTGG GACTGCAGGC TTAGCCATTT CAGAAGAGAA GCGGGGGTTG TAGGCACTGC CGCCACTGTT ACCCTAGTTC CACCTCCTCT GTGTGTTCCA AACCACCCAC CTTCAGGTAT ACAGATGTGT GGGTCTCTGC AGCATCCTGG TAGTTTGAAC AGAGGCAAGT TATGAATGTC TTACTAGTTG GAAATTGAGG GGGAGAAATA AAGCATCTTA CACTGCCATG ATGCTGATAT TCAGTTCAGT CGCTCAGTCG TGTCCGACTC TTTGCGACCC CATGAATCGC AGCACGCCAG GCCTCCCTGT CCATCACTAA CTCCCAGAGT TCAACCAGAC TCACGTCCAT TGAGTCAGTG ATGCCATCCA GCCATCTCAT CCTCTGTTGT CCCCTTCTCC TCCTGCCTCC AATCCCTCCC AGCATCAGAG TCTTTTCCAA TGAGTCAACT CTTCGCATGA GGTGGTCAAA GTACTGGAGT TTCAGCTTTA GCATCATTCC TTCCAAAGAA ATCCCAGGGC TGATCTCCTT CAGAATGGAC TGGTTGGATC TCCTTGCAGT CCAAGGGACT CTCAAGAGTC TTCTCCAACA CCACAGTTCA AAAGCATCAA TTCTTTGGCG CTCAGCCTTC TTCACAGTCC AACTCTCACA TCCATACATG ACCACAGGAA AAACCATAGC CTTGACTAGA CGAACCTTTG TTGGCAAAGT AATGTCTCTG CTTTTGAATA TGCTATCTAG GTTGGTCATA ACTTTCCTTC CAAGGAGTAA GTGTCTTTTA ATTTCATGGC TGCAGTCACC ATCTGCAGTG ATTTTGGAGC CCCCAAAAAT AAAGTCTGAC ACTGTTTCCA CTGTTTCCCC ATCTATTTCC CATGAAGTTA CTCTCCAGCA ATTTTTGAAA TCAGAAAGTG TGAGAACTCC ACTTTGTTCT TCATTTTCAA GATTACTTTG GGTATTTGGG ATTCTTTGAG ATTCATGTGA ATTTTAGGAT GAATTTTTCT ATTTCTGCAA AAACACACTG GAATTTAGAG AGTAATTGCA TTCAATCTGT GGATCATTTT GGGTAGTATT GTCATTTTAA CAATCTTAAA TCTCCAATCC ATGAATACAT GATGTCTTTC CATTCATTTA TGTTTTCTTT AATTTATTGT ATTGTCTTGT ATTTAAATTA TTGTATTGCC TTGTAGTTTA CAGTGTACAA GTCTTTCACT TTGTTGGTTA AATTTATTTT ATTCTTTTTG AAGCTATTAT AAATGAAATT GTTTTCTTAA TTTCCTTTTC AGATTGTTCA TTGCTAGAGT ATAGAAAATC CACTGATTTT TATGTATTGA CTTTGTATGC TGAAGCTTTG ATGAATTTAT TAGCTCTAAG TTTTTTTGTG TGAAATCTTT AGCATTTTCT TCATAAAAAA TAATGTCACC TATTAACAGA AATTATTTTA TTTCCTTCAA GTCTGGTCGC CTCTCCTTTT CTTGCCTAAT TTGCTTTAGC TACAACTTCC AGTACCATGT TGAATATTGT TGTTGAAGTC GCTAAGTTTT GTCCAACTCT TTTGCAACTC TATGGACTAT AGCCCATCAG GATCAATTGG CAGCCCACCT GCCAAAGCAG GAGACATGGG TTTGATCCCT GATCTGGGAA GATCCCACAT GCCACAGAGT AACTAAGCCT ATGCACCACA ACAATTGAGC CTGTGCTCCA GAGCCTGGGA GCCACAACTA CTGAGCTCAG GTGCTTCAGT TATAGAAGCC CGTGTGCCAC AGAGCCTGTG CTCTGCGACA AGAGAAGCTG TGGCAATGAG AAGTCCACGT ACTGCAGCTA GAGAGTAGCC CCCACTTGCT ACAACTAGAG AAAAAGACCA GGCATCAAGG AAGGCCCAGC ACAGCCAAAA ATAAATAAAT AAATTAATTA AATTATTTTT TTTAAGTTGG TGAAAGATGA ATATTTGAGA TAAAATGAAA ATTACTAAGA TCCACATCTT CAGACATGAA AGAAAATATT TATGAAATAA AATTATTTGT TGTCTGAAAT TTGTTTCAAA GTAATCTGTG GGAAAGGGGG AAAAAAGAGG AGTATCAGTG AAATGAAAAT TGACTACCAG TTGAGATTAG CATATAGTCA TTCATCATAC TATTCTTTCT ACTTGTGAAA TGCTTGGAAA TTTCTGTGTA TGTGTGTGTT AATCATTCAG TCATGTCCTA CTCTTTGAGA CTGTAGACTT CCAGGCTCCT CTGTCCATGG AATTCTCCAG GCAAGAATAC TGGAGTTGGT AGCCATTCCC TTCTGCAGGG GATCTTTCCG GCCCAGGGAT TGAACCTGGG TCTCCTACAT TGCAGGCAGA TTCTTTACTG TCTGAGCCAC TACAGTGGTA AGAAAAAGTG AAAAAGATGA CAGATACATT TGAGAATTTC TAGTTTCAGC AATATTGCAG AGTTAAGAGG CCCTGAAACT ATTCAGCTAC ATAATATCTA AAAATGCTTG ATAAAATATT AAAACCACTC TTATTTTTTA ACTTAAACTT TTTATTTTCC ATTGAGGTAT

AGCCAATTAA CAATATAGTG ATAGCTTCAG GTAAACAGTG AAAGGACTCA GCCATATATA TACATGTATC CATTCTCCCC CAAACTCCCT TCCCATCCAG GCTGCCACAT AACACTGAGC AGAGTTCCAT GTGTATATAG TAGGTCGTTG TTGAAAATAT TGAAACCACT CTTAATTGAT TGGATGATTC CCACTAAGAT CAGAATGGAG TACAGACTAG GCAGGTAAAC TAAATTTTAG AGCCTTGGAT ACTCTGAGGC CTACAGTATT CTTTATTGAC ACTCTGAACT GCATTGCACA GAAGGGACAG AAACAAAGCC TGAAGTCACG TAGAAGGGAA GCATAGTACC TACATCTAAG AGAGGCATAC CCTCACAACG GGCAAACTCA AGGTGAACCA TAAGAACACG TTTCCTTACT GGACTGGGCT ATGAATGGAA GTTAAAAAAA AAACCAACAA CATTTTCTTT GAGAACTTTT TCTTCTGGCT AGATGTCACA TAGTTTGGGA CTCAGTCCAC ATATTTTGCC TGATCCCAAA ACACAAGCCT ATAATTTAAA GAGTAGCAGG TTAGGTACTA TCCCCAGGTG CCTGAGAGAA GTAAAAATAG ACTTTTCCAG ATGAGCATAC CCTCAAGCAG GCCTCAAAGA ATTCCTGGAG ACAGTCAACA AAAAGCTCAT AGTAAAAAGT ATAAAACAAA AATCAAGCAA GCCATAGATA GCAAACCCAG AACCATAGAG AGTTCAACTT TTATAATTAA TTATCATAAG TAAACTAAAA AAATAAGTCT GCTTGAAATG CTTTTAGATT AAAAAAGGAC TTTGAAAACA TGAGCAAAAA TAGGAGACTA ATGATTAGGC CAATTTGAAG AAGAACAAAA TATTACTCTT AGAAATTAAA AAAAATACTT ACTGAAATCC CATCCAGGCT GCCACATAAC ACTGAGCAGA GTTCCTGGAT TCAAATGGAT AGACAGTTAA AAGAAAGATT AATGGAAATA AAGAGCAACC CACCCCAGTA TTCTTGCCTG GGAAAGCCCA TGAACAGAGG AGCCTGGTGG GCTATAGTCC ATGGGGTCTC AAAGAGTCGG ACATGTACTT AGCTGTACTT TTTTTTTTAA TTTTGGGATT AACATGATTT ATTTCATTAT CAGTCTTACA AATTACTGAG GTTGGGTAAG GCCGGGATTG TAGCTTGAAT TTCACACTTT GGTTGAGGAA CAGTCTGTTA GTGAACAGAA GGCCGTGGAG GTGCCACAGT TCATCCAGCA GTGTTAGAGA CCTTCTCAGA AGCAACAGGT GAGACCAGGC ACATCACAGT CAGAGGTCCA CTCCAGTGGC TCTCAGGGTC CACTGCCTGC CCCCGCCCAC CCTGCTTTAT GGAGGCACGG AGGCCCCTAG AGGCCCCAGG GAGACATGAT GGGCTGAGGG GCTTCACCAT CAGGTGGTGT GTCTCTGCCT CAGCATTTCC ATCCATACCA CACATCACTT TCTCCCACTA TCTACACTCT TATTTATTTT TAATACTAGT GTATTTTTAA AAATATACTT TTATTTGGCT GCGACGGTCC TAGTTGCAGC ACATGGGATC TTCAGTCTTC ATTGAGGCAT GCAGGATCTT TAGTGGTGGC ATGTGGGATC TAGTTCCCCA ATCAGGGATC AAACCTGGAC CCCCTGCATT GGCACTGAGT TTTTGCACCA CCAGGGAAGT CCCACTCCAC CCTTTTATAA GTGGGCAGCC TCATCCCTGC CTGGGCTTCA AGCAGAGAGC CTGGTTCTGG TCCCCAACTT TTTGTCAGTG GAGTCCCCTT TATTGCGCCA AACTCCTTAC CACCATTACC TGTTCCTGGA CTCAAGACCT TCAACCCACA AGCTTGGTAA TTCTCACCAC TTTGGATTTC TTTCATGGAG ATATTCATCT TGGTTTTGCA ACTGCCTGGA TTTTCTTGTT TTTCTTCTTT TATTTGGATC CATTGTGACT GAGAAGGGTG AACAAATTTA TTTTACTTTC TCTCTCCAAA GAAATCTTAT AGCAGTTTTT GCATAATCCC ACTATGCTTC AGTTTCATCT TCAAGATAAA AATTTTAACA GAACCCACCT AAAGGCATTG TTGTAAAGAT CAAATGAGAT TTAGAAAAAA CTGCACAAAA CCTAAAGGCA CTTAGAACAC TGCCTGGCAA GTACCAAGTA CTCAATAAAC ATTAGCCACT ACTATTGGTA CTGGGGAAAG ATTGAGGCTA CCTTATATTT TCCAAATATA CATAATTTTA TTGTCTTTAT TCAACCCCGT GGCATAGGTA TTATCACCCT TAATTTGAAG TAAAGAAATT GAGGCACCCA AGGGTCAAAT AGCAAAAGCT GTAGAGATGA GATGAACCTT GGGTACATCT AGACTGGCTG TTGACTTTGT TATAAAATAG AATAATTAAT GTATATTTCT TGCTCTAATA TGGGTGATGA CATGGAGAAG ACTAAAATCT CATTCTGGAT GAAGTTATAA GCTTTGGCTC TGTTGACATC ATCTGTTATA ATAGATGGCA TGACAGCCAG AAATGAAAAA AGTCTAAGGC ATTATATAAT GAATGATGTG TCACTTAATG CTCATTACAC TTTAACTTCA GTTGCTCCCA CGAATGAATT CTTGTCTCTA CAGGCAATAA AATGTTATAG TAGTCAGTAA GGTATCATAG AAAAAGGGCA GTCTCAATAA ACCCTTCTCC ACTTTTACAA CATTCAGGTC AGGGTGGATA AGCCCCTGAA TTACATGAGA TAAACTCACT TTTATTATTC AGTCAATAAA TATTTATCAA GTATCTGTTG TGTTCAAGGC TCTGAGCAAG GCAACATTTA GGAAATACAC TGAGGTGGGA GACATACTTT CTACTTTCGT AATTCCCTTT AATGGCCCAC AAGACGTTCC AGCTTCTTTG TCTCTCCCAT TCAATGTTTT ATCTGTTACC AGGACTGTAA ATTCTTCCTT TATGGTGTTT CTTTCCTCAC AAATTTTTTT CCACCATAAA ACTCTAGTTC AGTCTATTTT TTTCATTCCC AGACTGTTCA CTGCTTTCCC ACATCCGCCA TCCATCCTAT ACGTAAACAG ATTACTCTTC CTAAACACCA CTTTGACAGT GTCATCCCTC TACACTAAAC TTTCAATGGT TTCTCACTCT CAAGATAAAT CTGCACTCTT GGTTTGGCCT TAGGGCCTCC ACATTTGGCC CCAGAAGATT CTCTTACATT TTTGTTAGTA TGTTTCTGAG AATACAGTGA TTGAGCTACT TTTTGGTGAA GAGCTTCCAT GAACAAATGC TGTATACGTG TTCTGCAATG ATGAAACCTA CTTAATCAGC TTGTTTTAAT CTAGCATCTC CTCGTCTTTC TTTTCCCCAT ATCACGTGTT CATAAAGTCT TTTGTTTAAG TAAACTTTTA AATTGCAGTA TAACATACAT ACAGAAAAAG CAAAGAAAAT CTTAAGTAAA CGATTTGGTG TATATTTAAA AAGTGAACAT ACCTGTATAT CTGCCACCCT AACCTCTTTC TCTATCTCTC TGTCTATATA TATGTGTATA TATACTTTTA TATTTGTTTA TTCTCAATAT CCCAGAAGTT TCCATTATGT TCTACCCTAG TTATTGTCCC TTCCAAAGAT AACTACTCAT CTCACTTTTA TCACTATATA TGAGTTTTGT TTATTTGGTT TTTTTTTTTT TGGCTTGTTT ATTTTTATTG AAATATAATT GACATATAAC AAATACACAT ACAAATATAT ATGCATACAT TTGATCTGAG TAACAGATAT ACAAGTGTGT TTACTTTGTA AATATACATC AAGCTGTTTA CTTAGATTTT CTGTACATTT TCTATATGTG TATTATACTT CAATTAAAAA GTTTAAAGAC TTTATAGATA TGTGAAATTT AGTTTGGTGA ACTGTCAACG TTTAAACTTT CAGTCTATTT TTCAAGGACA AATGTTACAT CTTCTGCCCC ACTTTCTAAC TCTGCAGATT AATTATCTGT ACCTAATTAT ATACATTTTC CCCTCTACTA TGCTTATTTT TTAGGGCTTG ACTACCTCTG TGAACTTTAC AACCAAATGA ATTATTTGGT CTCTTGTCTC CTACATAAAG AAAATTATTA GAATCAAGGT GATCGGGCTT CACATCTGGC CTCAACACCT CCACCACACC CTGCTCTCTC ACCACTCCCC TTTCCCCCCC ATTATGCTGT CTCTCTGTAT TAATGCCAGC CTCTTTTCTC CATACCCATA AAAGACATTG ATAATTGGTT TTTGATATTT CTCTTCTTTC CAAGATGGTC ACTACCTTGG CAGAGTCTGT GTTTATTTAG ATGACCAAGC CATCACCCTA GCTTTTGTGT TCTTTGATCT CAACATAACC TTCAGTGTAG GCAGAATTCT AAAAATCCCC ATCTGGGAAC TGCTCTGAGG AATTCTGAAG TTGTGACTGA AGTTCCAAAT GAATTCACCC CAAAATAGTG AAATTATCTA GATGGCCTGA TGTAATCACA CAAGCCCTTT AAAAAGAGGG ATATAAAATC CGAGAGAAGT TTGAGGATGT GCTTTGAGAT GAGGAGTCAC ATGAGAAGGA ATGTGGGCAG CCTGAAGAAG ATGGTTGACT GTCAGCAAGG AAACACAGAC CTCAGTCCTA AAACTACAAA GAAATGGATT CTGCCAACAA TTGGTCCTTA GCAGATTCTT CAGATGGAAG TCTTCGGATA AGAATCCAGC TGACCGACTG GATTGAATGC ATGATAGCCT AAGCAGAGCC CAGCCTAGCC CACCTAGATT CCTGACCTCC AGTGAAATAA TAAATGAGTA TTGCTTTAAG ATGCTAAACC GATGCCAAGT TCTTACTCAG CACTAGAAGA CAGATATACC TTTCTTCCAT TTCCGTAATT CAACTGTCAT GTTCAAATCA TGAGACCTTG TCAAGCCTGG ATTGCTAATA CTATATTATA TGCTAATATT ATATTATATG CTAATATTAT TGCTAATAAT ATAATATTAT TATATTCAGT GACTTCACCC TCTGGTTTCA GCTCTTTAGC CTCCAAGTGA CCCTAATTTA GGTCCCCTCA CCACCTCTGT CTTCCTGCCT TCACTTTTCT GTGATGAATC ACTTAACCTG CTCAAACTCT TGCTCCATTT TTCTGTTGCC TTACCCACCT AGCAAAACCA CATCCTCAAA TTTATTCAGC CTTCTAACCT GCTCTAGCTT TACTTCTCTG TGATTGGGAA AGCCATGTCC ATTTGTAACT CTGATGTCAC CACATTTATA GAATCCAGTC TTAGGGGTCT TGGTGCTCGG CAATCTCTCT TTAGGTCCCT TGGAAGAAAA ACTTTTTGTC TACAATTTAG GTCTAGTGGT GGGGGGGGAT GAGCTGAAAG TTAATTGACA ACAGATTAAA GGAAAAAAGA TAAGGTCCTG GGGTTTATAG ACCAGTTTAA TAGGGGAAAG TGGGATGGGG AGAAAGGGAT TCTATGGGAA AACAAAGGAC TTTTAAGAAA GACAAGTAGG CGTTTAGGGA AAGAAGCAAA GATATTTCTT TCAATTTTCT CTCTTTTCCC TAATTAAAAC ATTTATCTAC ACATCTTGAC TCCCTTCCCT TTGGTCACAA CTTAAAAAAT ATATAATATT TGCTTTTCTT TTCTAATTCC TCTGAATTCT AGATCCATTC TGTTTTCTAA GTTACCTGAT TAACCACCTT TTCCTCTTTA TGGCTTGTCT TCCTGGCATG CACACCTATT CTGGCCTAAT TTAAACCAAA CAAGAAATAT TTTCTCAGAG CCCCAAGATA GGCTTTAGAT ATACTGCTTT CTCTCACCTT TCTTTTATAG TGAGACTTTT GGAAAGTGTT GTTTATACCC TGTTTCTATT TAGAGACTAA CTGTTCTCTC ACTGAATTGA TCGAAGGCCC CTGGTAGCTG ATAAGCAGAG CCATGGTGGG GGTCATGGTG CATACAGCCT CTTGCACTGG TTTTTATTTG CTTCAACTTA AGTAGTAGTG AAAATAAATA TACTGGAAGC CAATACAGAT ATTATATTCC CAAATGCCCC CAGGGCTATA ATAAGCCCTG CCTGACACCT GACATCTCAC ACGCTAGTAA AGTAATGCTC AAAATTCTCC AAGCCAGGCT TCAACAATAC GTCAACTGTG AACTTCCAGA TGTTCAAGCT AGTTTTAGAA AAGGCAGAGA AACCAGAGAT CAAATTGCCC AACATCCATT GGATCATCGA AAAAGCAAGA GAGTTCCAGA AAAACTGCTG CTGCTGCTGC TGCTGCTGCT AAGTCGCTTC AGTCGTGTCC GACTCTGTGC GACCCCATAG ACGGCAGCCC ACCAGGCTCC GCCATCCCTG GGATTCTCCA GGTGAGAACA CTGGAGTAGG TTGCCATTTC CTTCTCCAAT GCATGAAAGT GAAAAGTGAA AGTGAAGTCG CTCAGTTGTG TCCGACTCTT CGCGATCCCA TGGACTGCAG CCTGCCAGGC TCCTCTGTCC CTGGGATTTT CCAGGCAAGA ATACTGGAGT GGGTTGCCAT TGCCTTCTCT GAGAAGAACA TCTACTTCTG CTTTATTGAC TATGCCAAAG CCTTTGACTG TGTGGATCAC AATAAACTGT GGAAAATTCT GAAAGAGATG GGAATACCAG ACCACCTGAC CTGCCTCTTG AGAAATCTGT ATGCAGGTCA GGAAGCAACA GTTAGAACTG GACATGGAAC AACAGACTGG TTCCAAATAG GAAAAGGAGT ATGTCAAGAC TGTATATTGT CACCCTGCTT ATTTAACTTA TATGCAGAGT ACATCATGAG AAATGCTGGG CTGGATGAAG CACAAGCTGA AATCAGGATT GCTGGGAGAA ATATCAATAA CCTCAGATAT GCAGATGACA CCACCCTTAT GGCAGAAAGT GAAGAACTAA AGAGCCTCTT AATGAAAGTG AAGGAGGAGA GTGAAAAAGA TGGCTTAAAG CTCAGCATTC AGAAAATTAA GATCATGGCA TCCAGTCCCA TCACTTCATG GCGAATAGAT GGGGAAACAG TGGAAACAGC GGCAGACTTT ATTTTTTGTG GGCTCCAAAA TCACTGCAGA TGGTGACTGC AGCCATGAAA TTAAAAGATG CTTACTCCTT GGAAGAAATG TTATGACCAA CCTAGACTGT GTATTAAAAA GCAGAGACAT AAGCAGGAGG AGCGGCGGGC AGGAGGCTGC AGGATGGTGA AGCTGACGGC GGAGCTGATC GAGCAGGCGG CGCAGTACAC TAACGCGGTG CGGGACCGAG AGCTGGACCT GCGGGGGTAT AAAATTCCTG TCATTGAAAA TCTCGGTGCC ACCTTAGACC AATTTGATGC CATTGATTTT TCCAACAATG AAATCAGGAA ACTGGATGGT TTTCCTTTGT TGAGAAGACT AAAAACATTA TTAGTGAACA ACAATAGAAT ATGCCGTATA GGTGAGGGGC TTGATCAGGC TCTGCCTTGT

CTGACAGAAC TCATTCTCAC CAATAACAGT CTTGTGGAAC TGGGTGATCT GGACCCTCTG GCATCTCTCA AGTCACTGAC TTATCTGAGT ATTCTAAGGA ACCCTGTAAC CAATAAGAAG CATTACAGAC TCTGTGATTT ATAAAGTTCC ACAAGTCAGA GTACTGGATT TCCAGAAAGT GAAACTAAAA GAGCGTCAGG AAGCAGAGAA AATGTTCAAG GGCAAACAGG GTGCATAACT TGCAAAGGAT ATTGCCAGGA GCAAAACTTT CAATCCAGGT GCTGGTTTGC CGACTGACAA AAAGAAAGGT GGGCCATCCC CAGGGGACGT GGAAGCCATC AAGAATGCTA TAGCAAATGC GTCAACTTTG GCTGAAGTGG AGCGGCTGAA GGGCTTGCTG CAGTCCGGTC AGACACCTGG CAGAGAACGC AGAGCAGGCC CCACTGATGA TGGTGAAGAG GAGATGGAAG AAGACACCGT TGCAAATGGG TCCTGAGCAG GGCGGCCTCA GCACCTCAGG ATGTGTAACA GTCCACCTCG GACAGGTCCT GCCTTGTGTC AGCAAAGTAG AGTTCATCAA CATTGTTGAA ATGCTCAAAA CTGCTGCTTG TAATTTTGTA ATACAGATTT TGAAATCTAA AACCCAGTTT TCTACCAGTA GTACAAATAA AGGACACTCG CTATGCTGCG GGTTGTGCGT CACTGGGGCG TGTGCAGTGA GGTATGGATA TGGAGAGTTG GAAATGCAGC AGGGCGGCTC TGTGGGCAGG CTTCACAGTC CTCTTGAAAT GTTTAGATTT TTAAATTCAT AATAAAACTT AGATTATCTG TGTGCTGCTA CTGGTTGTTA GAATTTGCGA TATGGGCTGC ATTTTTTTCT TCATGAAGGC TCACAAACAT CATTAAAGAC AGCCAGGCCC CAGGGCTTTG CAAGAAAAAA AAAAAAAGCA GAGACATCAC TTTGCCAACA AAGATCCGTC TATTTTCCAG TAGTCATGTA TAGATGTGAG AGTTATTTTC TTTATAGAAA GCTGAGTGCT TAAGAATTGA TGCTTTTGAA CTGTGGTGTT GGAGAAGACT CTTGAGAGTC CCTTGGACTT CAAGGAGATC CAACCAGTCC ATCCTAAAGG AGATCAGTCC TGAATGTTCA TTGGAAGGAC TGATGTTGAA GCTGAAACTC CAATACCTTG GCTACCTGAT GTGAAGAACT GACTTATTTG AGAAGACCCT GATGCTGGGA AAGATTGAAG GTGGGAGGAG AAGGGGATGA CAGAGGATGA TATGGTTGGA TGGCATCACT GACTCAATGG ATATGAATTT GAGTAAATTC CAGGAGTTGG TGGTAGACAG GGAGGCCTGG TGTGTTGCAG TCCATGGGGT AATTAAGAGT CGGACAGGAC TGAGCGACTG AACTGAGCTG ACACCTGAAT TTGCTAAGGG GGAATTGTGT TCACCACTTA GAGAACACAT AAGGAATGGG CCAAGTCCTT ACCACTTCCT TGCAATTGGT AGCCAGGCAA GCAGACAGAG AGAGCTCAAG GGGGCTGGGA GAGGTTTGGA GGATATTAAG AATTCTATGA GAAGGATGAA GAGAGCTTCT AATAGGTCCA TATAAGAGCT TTGATAATAG GGTTGCCTGA TTGATGGCAT TATAGGCCCA GGAAGCTTGT TCCTTTAATG AGAAGACTTT GTTTTTGATT TTTACTTTCT TGCCATTCTG TATAATAAAT CATACCCTTT ATACTTTGTC AACATTAAGT TAATTTATTA ACTTTATTAA TAAAGTTTAT CAACATTACA TTTATCAACA TTAAGTTGAT ATCAACTCAT CTGTTGCTGA CATTCCATCA AGCACTGATA CCCCTGTGAA AGCCATACAA GCAAACACCC TTCACTGGTG TGATGATTGG AAAGGAGTAT TAGGCTCCCT CCCTGCCCCC ACTGCAAAAT CTTCCAGTTA TTTTTAGAGT TTTCAAAAGG GTGGCTCAAG TGATTTTATG AATAAGACCA TTGGCTTCCT TCCTGAAGGC ATTTTTTCTG AAACATCTAG CTATGCCTAT GTGCACTGCC TACAGAAACG CATGGTGACA CCTAGGCCCT TCTAGTGCTC ATTTAAGATC GCCAATGATA CCACTCTAAT GGCCAAAAGC AAAGAGGAAT TAAAGAGCCT CTTGATGAAG GTGAAAGAGG AGAGGGAAAA AGCCGGCTTA AAATTTAAAA TTCAAAAAAC TAAGATCATG GTATCCAGTA CCATCACTTC GTGGCAAATA GATTGGGAAA AAATGTAAAC CGTGACAGAT TTTATTTTCT TGGGCTCCAA AATCATTGTG AATGGTGACT GCAGCCATGA AATTAAAAGA AATGTGCTCC TTGGAAGAAA AGCTATGACA AACCTAGACA GCATATTAAA AAGCAGAGAT ATCACTTTGT GAACAAAGGT CCATATAGTC AAAGCTATGG TTTTTCCAAT AGTCTGATGC TGGGAAAGAT TGAGGGCAGG AGGAGAAGGG GGAGACAGAG GATGAGATGG CTGGATGGCA GCACCGACTG AGACATGAGT TTGGGCAAAC TCCAGGAGAT AGTGAAAGAC TGGGAAGCCT GATGTGCTGT AGTTGCATAG GGATGCAAGG AGTCAGATAC GGCTTAGCTA CTGAACAACA ATGATATGTG TATCAAAGGT GTGAACTCCA GTTGACCTCA TAGCTTTCAG TTGGGAAATC TTGACTTTGA TAAGTCTATG ATTTGACTGT AAGGCATGTA AAACATGACT ATGACTTCAA GGGCAGAGGC AAATGGGACT GAGCACAAAG CACTCTTAAA TTGTTGGGAG ACTGAATCTG GGACCAACTT TTTGTGGGAA ATTTAGCTAT ATGTATTAAA AACTTTTAAA TGAGCATACC TTTTGCCTCA GCAATTCCCT GTCTGGAATT TACCTGAGTG TGTGTGTAAT GACAGAGCTT ATAAAGATAT TTTGTGAATA ATAGGAAGAT TGGTTAAAGT ACATAACAAA CACTGAATAC CATGTGCCCA TTAAATATAA AGTTGTAGAA AGATTTTGAA TGACAGGGAA CCATGTTGCA AAATAGCAGT TTTACAAAAT ATTAATAGTA ATAGCTACCA TCTAGTGTGT GTGCGCGCTC AGTTGTGTCT GACTCTCCAC AAAGCCCACC AGGCTTCTCT GTTCATAGAA TTTTCTAGGC AAGAGTACTG GCATGGGTTG CTGTTTCCTA CTCCAGGGGA GCTTGCTGAA CCAGGGATTG AACCTTGGTC TCTTGCCTCT CCTGCATTCA GTTCAGTCGC TCAGTCGTGT CCGACTCTTT GCAACCCCAT GGACTGCAGC ACTCCAGGCC TCCCTGTCCA TCACCAACTC CCGGAGTTTA CTCAAACTCA TGTCCATTGA GTTGGTGATG CCATCCAACC ATCCCATCCT CTGTCGTCCC CTTCTCCTCC CACCTTCAAT CTTTCCCAGC AACAGGGTCT TTTCAAACGA GTCAGCTCTT CGTATTAGGT GGCCAAAGTA TTGGAGTTTC AGCTTCAACA TCAGTCCTTC CAATGAACAC TCAGGACTGA TTTCCTTTAG GATGGACTCC TGCATTGGCC AGCAGATTCT TTATCACTGA GCTACCTAGG AAGCCCCAGC ATCTATTAAG TGCTATCTAA TGACATTACA TACATTATCA GTGCTTTATA CACATTGTCT CATTTAATGT AACTATCCTG AGAGACCCTT TCCCCTGATT ACCGATAACT ACTTAAAGGC TAAGGAACTA GTTCAGGTCT CCAGGGTTTG AGAGAGCCAG AATTCAGACA CAGACTATCT GACTCCAGAG ATAATGATGT CCATCCCCGT ACTCTGTATA CAAGCCCATT TTTGTTTTTT AAGAAAATAT GTATGCAGAG AAAGAGACTA AAAGCAGATG GTATGTGGCT GGTGGGTATA GATGATTTTC ATCTATTTCT TGATATGTCA TAAGAGAGGA ACAAAAAGCT TAGTTACATG GAAATGAAAA AGTGTTAGAT TAAGAACACA TCTAGGGACT TCCCTAATTG TTTAGTGGTT AAGACTCCAT GCTCCCACTG CAGGAAGCAT TGGTTTGATC CCTGCCCGGA GCTAAGATCT TCATTGGCTG AAACAGTGGG TACTGTGGGG TCAAAGAAAA AAGAGAACAC ATTCAGTAGT TGTCCCAATA ACCAGGCACT ATAAATACTG GGCAGTTATT CTGTTCAAAG AGGGTGAGCA GAGGGCAGTG GTCTGAGAAA CTGAGTCACC CATTTATCCT CCTAACTTTT GACCTTGTGC AAGATGGCCT CATTTGGACC AGGTGGGTCA TCTTAAAATT AGGAAGGTAG TCTTTAGGTT CCTCCCTCCC TAATATTCTA TTACCTAAAA TACCCAAACA CTAAATGAGA AAACAGGGCA TTTGAAAATA GTTGGTTTTG TTCAGTCACT AAGTCGTGTC TGACTCTTTC TGACTCCATG GACTATAGCC AGCCAGGCTC CTCTGTCCAT GGGATTCTCC AGCAAGAAGA CTGAGTGGGT TGCTATTTCC TTCACCAGGG GCTCTTTCTG ACCCAGGGAT CAAACCTGTG CCTCCTGCTT GCAGGTGGAT TCTTTACTAC TAAGAGCAGC AGCAGCAGCA GGCAAATTCT TTACCACTGA GCCACCTGTG AAGCTTAGCC CAAAGTAAAA TGTTAACTTA GAACTTAAAA CGACTCATTT CTATAATGCA ATGCAATTAT GAAATGCTGG CTTCAATCTT AAATTTTCGA ACAGAATTTG ATGGCAATGA TCCGCTTGAG AAAGCATTAG GAAGAGGTTA TGTACTCTTT TCCTGAATCT GCACACTCTT ACAGCTTTTC TACACGATCG GAGTATTGAA TAGATGCATG TATCACAGGA TTGTGAGGAA CATATTTAAA CTATTCACTG AATATTTTCA TTCAAAAAGT TTTGTTTCCC CCTCCGAACA CCCTTAGATT CAGTTCCTGA TTTTATTGGC CCTGGGAAGC AGGGACCTTA TTTCTCAGAA GCTCATTCAT TAGAGACCGC CTACTTGCCC CGGGGGTGGA CAATGTGTGT GACAGGAAAA AACCTCGGTG CCAGGGTCCC CGGGTATTTA GGGGCGTGGG ACACTGGCAG TGGCCAAATC CGCCCAGGTC AGACCAGGTA TTGATCCCCC CGGGTAGCAT TTTGTGGTTG GTCTCCAGGG GTACTCCCCA CTGTCTATTT CATACCAGCC CGGGAAGCAG GATTTGTAGC GTTGTCGCCG CAAGCCCAGG GATATAGTCA TTTCCCTGAC CTCTTCCCGG CGGCCGGGTG ACGGTCAGGT CCAGTACCTG GCTGGGTCCT CTAATGACAC TTGCGTGCTC TCAGCCCAGA CGCCGGGCGC TTATCGCAGC CAGGCAGGCA GCGCCACGCC TTTCACGGGC CCTCGGGCAT CGACCCTGAG GGAACAGGGG CGTGAGGGTG GGGCCGCTGC CGGGCGCTGT CCCGGTCAGC AGTCTAAAGC TTGCGAAGTG AGGCTGAAGT CGGTGCTGCC TGCGCTCGCT CGTCGGCCCT CGACCGCCGG CTCGCCGCCC GCTCTCTCCG ACGTGACGGT AACCCGGGGC CAGTGCCTTC CCAGGTCAGC CGCTGCGCCG GTGAGTGCGG GGTGCTAGGG GGGCGCGTGG GCGCGGTGGG TGGGCTGCCG CCGGGGGTCG TGGGCGTCGG TCGGGGAAAG TCGCCCCCGG CCGGGCTTTG CCTCCAGCGC GGGCTGTGTC CTGAATCCCA CGCCGTTACC GGGCGAATCC CGAGCGAGCG GGAGTTTCCG GCGGTCTGAT AGGGACTGGG GAGACGCTGG AAGGAGGAAA GGAGCCAGAG AGTTTTCGTA AAAGCTTTTC ATCATTTAGG AAGCACTGTA CGGATGCCTG ATGTCATTGT TAAGTAGGAG ATGCTTCCGT AGGGTATATT TGGAAGGTCC AGCTGACTCA GCGTTTTATA TAAATGATTG TTAGTGCTCT GCCTCTGAGC ACAACAGCTC CTGAGATTGA AGCCCTCGGT TAAAACTGAA CCGCTAACTG TGAGTAAATT GTGAAAACCG TTTGGAATAT ATGGCATAAA AGGTCCGTGG CTATTGTGTG TGCATTTGGT AGGCAATAGA AAACTGTACA ATTGAAATGA CTAGGTTTTA ATTATTCCCT CTCAGTTTTA TTTGAAAGTG AGTATGAAAC AGACTGAAAA TTTAGACTCC CCTAAATTTG GACCTCCACC CCGCCTCCAG AAAACAGCTC CTTGGTGCAA CCGATTTCGT GTCTGGTAGC ATGGGGTCAC ACAGAGTCGG ACACGACTGA AGCGACTTAG CAGCAGCAGC AGCAGTGTGT TTTAGCCGGT TGGTAAAACT CTTCCCTTTC CCCAAATGTA TGATATTGGA TAGATAAAAG TTATTGAGTA TGGAGGTAGC AGAGAAACTT GTTAATATTG GTACCTTTAA AGGGATTAAC CGATATATTC TATGCCCATT TCTTCTCCCT GGGACATAAA GTTTGTCCAC AACTTTGGTT GGTGTGCTAA AGCATTATTG AGCTGCCTTT TGTAATTTTT CTGTGGATAG TTGACTCAAT GATTAACTTC AAAAAATTAA CCAGCTTATT AAAAATACTT GTTAAAAATG CTACTAAAGT TAGAATACAG AAAAATACAT AACCAAAAAA GTTAGATTGT AAATCTAGCA AACAGTTAAA AAAAATACCC ATAATGTTGC TTTGTTTCAT TTTCTCACTC AGTGGTAGAA ATATAAAAGC TCATTCCACT TTCACGAAAA AAAAAAAAGA TTTATAGTAA CAAATGTTCA TTGGTCATCT TTGTTCTGGA CCCTGAACAT TTAGCTAGAG CCCCCTGAGG TGCTGTTGCA TCAAAATGAT ATTAAAATAC ACTTACCAAA ATCAATTTCT ACATTTAGTT GTGTTAAGTG TTCATGAGCT TTTGAGGCAA GCCTAAGTAT TACAAATGGA AAGAGAAATG CACCAAGAAA AGAGTCACTG TGGGGGAGTA CATTTGAATG TATGTGGACA GCAAATTAAA GTTATATCTT GGAAGCTAGA ATAAAAATGG ACCAATCAGT CACACAATTC AGTGAGGACA AAGGCAGGAA ATATACATGA GCTCCTTAGA GAAGCTTTTC CTGGCACCTA CTTCTGAGAG AAATGTCTAA TATCACAGAA GGCTGCAGAT GAGACTGAAG TATAGCGGTG GAAGAGTCTC CTGGGTGCCC ACCCATAGTA CATGCGGTCG TGCATTTTCT AGGACTGCTT GCTGTAGTTG TCATTCTCCT TACCATAAGT ATTATGAGAA ACACTCGTAG GATGCTAAGC CTCTATGGTT CCACATGCTG TGGTTTGATA GTTTGGGAAT AAATCTGGAT TTTATAGAGG GGTAGGTAGA CCTCATGTTT TCAGATACTG TTTCTCTCAG GCATTTCTGA CAGAAGTTTG GTGTCAGTTG AAGGTTATAT CAAGTGAGAA GTTTTATTCT ATGTTGCTTA CTGGGGTTAG AGGTTAAGGT TGAGGCTCTT TTAGTGAAAC

TTAAAGAACC TGAATGATCA TCCTTGATAC AGGGTATATA GGTCTGTGCT ATGCTGTGCT TAGTCGCTCA GTCGTGTCTG ACTCTTTGCG ACCTCATGGA CTGTAGGCTG CCAGGCTCTT CTGTCCTTGG AGATTCTTCA GGCAAGAATA CCTGAGTGGG TTTCCATGCC CTCCTCCAGG GGGTCTTCCC AACCCAGGAT CAAACCAATG TCTCCCTCTT TGCAGTTGGA TTCTTTACCG TCTGAACCAC CAGAGAAGCC CAAGAATACC GGAGTGGGTA ACCTATCCCT TCTCTGGGAA CCCTATTCCG ACCCAGGAAT CAACCAGGGT CTCCTGCATT GCAGGTGGAT TCTTTACCAG CTGAGCTACC AGGGAAGCCC GTATAGGTCT ACAGTAAGCT AAAGTTTATC CTTTTAAAAA ATCAGTTCTG AGTTCAGAAT GTGAACCAAT AATGATGGAG TATCTAGATG AATTTGGCTT TATAGTTTTT TTTTCCCCCC AACATTAGTT TATGAGATCT AATTCACATA TCATACAGTT CATGCCTATT TAAAGTGTAC AGTCTCTGCA GTCTTCACAT TTTCATCATT CTCGCCCCTA AAAACCAGTT AACACTCACT CCTCCTTCTC ACCATAATCC CTTAATCTCT GTAGTTTTTT GGAAACCAGT GTTCTGCTTC ACAAGGAGAC CATTAGAAAG TGGACATCTA ATTTTTGAGC CACATACTTA GCTTGTTTAT AGAAATAAGT AAAATATTCA GAGAATCGTA ACAATGAAAG TTAGTGGTGT TCTGTTGTTT AAAATGAGGT GGGTGGGTGT GGGTGAAGCA GAAGTGCTGC CCACATCCCA ATTCCAGTGA AGAAGTTTTG TTTTTGGCAA GAAGGGTAGA ATGAAATCTT AAAACTCCAT TGAAAATGCT GATTACTAGC TCAGTCCCTT TGCAGCTGAA AAGACCTGTT ACTCTTTAGA GCAATGGTTG GCTGGGAATT ACTGCTTAGA TGGAGGTAGC AGTAGGTAGT TCTCTGTCAT TTAACGGGAT TTAAGTTCTT ACCTGGAAGC ATAAAAAGGA AAGTCTCTAG AAAGCAGCAA GCCCTGTTAG CTCCCTCTGA AAACACTTGA GCTGAGTGTC TTACAAGGAA AAAGGAAAGA TTGCCTGAGG GGTACCCAAA CTTCAGATGT TTTGCACAGG AGACCTGTCT CTTCTCTTCT GGTCCTGCTG CATGGGCAGT TCTACGCTGA CCACACCCTG ACTTCACCCT GAAGTGAAGT GAAGTGAAGT GAAGTCACTC AGTTGTGTCT GACTCTTTGT GACCCCACGG ACTGTAGCCT ATCAGGTTCC TCCCTCCATG GGATTCTCCA GGCAAGAGTA CTGGAGTGGG TTGCCATTTC CTTCTCCAGG GGATCTTCCC AACCCAGGGA TTGAACCCGG GTCTCCCGCA TTCCAGGCAG ACGCTTTAAC CTCTGAGCCA CCAGGGAAGC CCTGGACTTC ACCCTAGAGG AGTGAAAAGA AGGGATGCAA AAGGTACAGG GAACACAGGA TCCTTAGAAA GGGAAAATAA AGTATTTCAT TTTACAACTT TTCCTCCACC ATCCCATATT ATTTTGAAAT GCCATATGAG AGTTGGACCA TAAAGAAGGA TGAGCGCTGA AGAATTGATG CTTTCAAACT GTGGTGTTGG ACAAGACTCT TGAGAGTCCC TTGGACTGCA AGGAGATCAA ACCAGTCAAT CCTAAAGGAA ATCAACCCTG CATGTTCATT GGAAGGACTG ATGCCGAAGC TGAAGTTCCA ATTCTTTGGC CACCTGATGT GAAGAACCGA CTCACTGGAA AAAACCCTGA TGCTGGGAAA GATTGAAGGC AGCAGGAGAA GGGGACGACA GAGGATTAGA TGGTTGGATG GCATCACCAT CTCAATGGAC AAGAGTTTGA GCAAGCTCTG GGAGTTGGTG ATGGACAAGG AAGACTGATG TGCTACAGTC CATTGGATCA CAAAGAGTCA GACATGACTG AGCAACTGAA CAGAATTGAA ATTAAAAAAA TTTTGAGAAG CTGAAGCAGT AGCTATATTT TCCATCCACA TTTTTCTCCA GTACTTTGGC CACCTGATGT GAAGAACGAA CTCACTGGAA AAGACCCTGA TGCTGGGAAA GATTGAGGGC AGGAGGAGAA GGGGGTGACA GATGAGATGG CTGGATGGCA TCATCGATTC AGTGAATGTG AGTTTGAGCA AGTTCTTGGA GACAGTGAAG GACCAGGAAG CCTGGTGGGT TGCAGCCCAT GGGGTCACAA AGACTTGGAC ATGACTGTGA CTGAACAGCA ACAACAAAGA TAAGATGAGC AGGTCTTCAG AATTAATAAA CGGAAATGGC CATTAACTGG TGAATGCTTG CTGTCTGCAG GTGGTTTTTA TATTTATTCT CATTTTTTGG TCACACCAAG CCTTTCAGGG AAGTATTGGA GTTTCGTACT TACAGAGGAG GAGGCAGAGA ATTGTACAGG GTTATTTATT GCTGGGACAA AGTACTTTAT TAAAGATCAC CAACCCTTTC TTTTTTTTTT TTTAAACAGC CTGGTCATTT GTTTCACATT TTCTTTCCAT GTTCACAGAG CAGCTCAGTT CATTGTAAAG GCATGCAGGG ACAGTGAAAA GAGCCTGTGA GAGCAGGGAG GCCCAGACCT ACCTAACTTG GGTCTAGTCA CTGTGCCATG AAATCTCTTC ATCTTTGTGG ACCAGTTTCT TCGTGGGACT AAAGAATATA GGAATTTGAG CAAGAGAGGT CTGATTTTAT TTAAGGAGTC CAGAAGTAGA ATATGAGTTA GTAGAAATTG CCTGAATAGT AGTGTTAGGT ATGCTGAGAA TTCTTAGTAT TCTTACCTGA TCCTACAATA AAGGATTCTG CAAACCATCT ACTTTGATTT AGAATCTTTC TGATCCATTT CTCCTTTTCA TAACATAGGG AGACTGTTAC ATGTCTTTCT AGAATATATC ATATGATACT AATAGTTACC CCAAGTAAAC ATATGTACTT GAGAAACCTA AAGTAGTAGG CTAACTGTAG TAAAAACCCA ATAGTATCAT TTCAGTTATC TCTTCAATCT AATAGTACTG TTATTATCAT GCCAGACCAT TCACTGCTTC CTCTGGAATC TAAGCTATGA GTATAATCCA TTTGACATGT GCAATGTTGT TTTATACCCA GCTATTACTA GCAACCTAGG GCCAGGTGAC TCATTACATT GCTACAGTGT ATGTGCTGAT TAGCTCTTTC CTCGAGCTAC AAGCTATTCC TTGTGTTCTG ATTTCATACT TAGATATATA CCTGCCCTCT CCCCCAGTGA GATATGTTCT ATCTAGCCTC CTAGAAGTAC TCCTTACCCA GAAGTAAATT CAAGTGGTTT AAATTTTTCA ACAAAAATAA AATTGCTATT CTCTCCCTCT ATAATATGAG AAACTAGAAA AAGAGCTCTT TGGTGCATTA GTCTTCATAA AACAATGCTT TTCCAAATAT ATACAGCTGT GGCTGGGTTG CATCGGTCTT GATAAGGAAG TTTTAAAGAA CAAAGATGGC AGTTTAAGTT TAATATTACA CTAGCATTAT AAACATTAAA AAATATTGGG GTTATTTTTT TTTAATTTTT AATTTTGAAA TCATTTTTAG ACTTACTTAA ATGTTGTAGA AAATGGTACA GAGAGTTCCT ATAACATCTT ATGTAACTAT AGTACCACTG TTAAAACTAA ACTATAAACT TATTTGGATT TCATCAGCTT TCCACTATCT TTTTTTCTAT TCAGGATCCA GCCTCAGAGC TCACATTGCA TCTGATTTTT GTATATCCTT AATTTCCTTC AAACTATGAC AGCTCTTCAA CCTTCTATTG TTTTCCCTGA TCTTGACACT TATAATGAAT ACTGTTCAGT TATTTTGTAG AATGTCTTGC AATTAATACT GGATATTTTC TCATGATTAG ATTGAAGTTA TGCATTTTAG GAAGAAATTG GAGAAGGAAA TGGCAACCCA CTCCAGTATT CTTGCCTGGA AAATCCCATG GATGGAGAAG CCTGGCAGGC TACTGTCCAT GGGGTGGCAA AGAGTCAGAC AGGACTGAGC AACTTCACTT TCACTAGAAG TAATCCCAGT GCATCATATC AGGGGTACAT GATGTCTTAT TACTGATGTA AACTGATGTA AACTTTGGTT AAGAGCCGTT TGTCAGGTCC CTGATGGTTA TCATTTTTTC CCTTTGTATT TAATATATAT CATGGGAGAG AAACTTGGGC CTTGCAAATA CCCTGTTTCT CCTTAAGTCC TTATTCACTG GTTTTAGTCC ATTGGTGGAA CTGGATGCAC ATGGTACTGT GTTGTTCTAA CAGTGATTTA AAGATTGTTT CTCATTACTT CTCTTTATTA ATGAGAATTT TATAAGGAAG AGCTGTTCCT TCATTTTTTT ATTCAACTGT ATGAATATAG ACTCATGGAT ATTTATTTTA TTGTATAGGT TATAATTGAA TACAGTCATT ATTTAATTGC TGATCAAATG GTTCCACCAT TGGCCACTGG GAGCTCTTCT TTCAGGTTGG CCACTGTGCC CTTTTGATGT ACCACCTCCC CATCCTCCCT TTTGAAAAAG CATTTCCTTG CTTTCTGGTA TCATGAAATG CTCCAGGCTG ATTTTTCTAT TTTCCATGCC CCGACCCTTG CATCAACCAT TTTTCCAAGG CACTCTGGTT CCTTGTTTTA GAGGCTGTTA TTATCAGAAA CCAAGATCTG GGTACTAGGT GTGTTACTGA AGTTGCTTTG AACTTTTTAA GTTTCATAGA TTTGTGACCT AGCAAATGCA TCTCTATAGG AGGAGTAATG CCTTAAATTT CAAAGACTCT AGAGACCATA GTTGCCAATT TGCATTCAGT CTCTTATGGG AAAGAAATAC AATTGGAAGG GCTAGAATTT TAAAAGTTCC CAGTTTTTCT CAAATGAAGA CCTGTAAGTG TTTATAAAAC AAATAGAATA AACACATTAA TTTTTATTTA CTCAGGCTCT GATAAGAAAT TAGCTTGTTA CTTACTGAAT GTATGTGAAG GGGAGATATG CATAGATCAT ATCTTTCAGA AATGCAAAAT GTCTTTAAAT GAATTGTGAG ATCCTGGCCT CTACTTCCCC ACACAAAAAA GACTTCTGGG TAAGTCTTTG AGCCTACTTT CTCATTCTGA AAAGAAAGGT TTTAGGCAAG ATTTTCATTT CTCTTGACTC TTAGTGGGCT CAGAGGACCC TTTAATATCC AGAAAATTTG GACCCTTTTT CTATATTTTA GGTATAATTT AGTGTGTGTT TATTGGTTCA CTGGTTAAAA AGATTCAGTT TAATTTCATA TCTAATTTAT GTTAATCATG CCAGCTTACT TTTAACACTG AAATTTACTC AGTTAAACTT TATTTTAATC TAAGACAGTC CGGACCACGT ACAGAAGTCT TTTCTAAGAG TTCCATTTCC ACAAACCTTC TTTAACTTTC TTTTTACTGA TAGGTTTTGT CCTATGCTTT TCCTTTCTCT CTCTCTAGGA TAAAATTACT TTCTTTTCCC TCAACAAATT GTATTTTCAT TTCTTATACC TTTTTTCCTT TCATGCAAGA TGTTTTCCTT ACCAATTTTA GTTGTCTCAA TTACATACAT TAACCAGAAT TCTAACTTTT TAAAAACCTC AATTTCTAGT GAAAACTAAG AAGTATGCAG TTATAAACTG TTTTTCAATT ATTATTCTGT AGATTGTCAA AATCACAAAT ACTGTTTATG ATTTCTAAAA AATGTGTGGT TTTTTAATGA AAATTTTTCA ATGTGATATT TTTATTAGTA GACCTAAATA TCTTCTCTGT AAAAAGGCAG CCTATGTTGA GTAATTAATG TTTCAGTATC TTATTTTATT TGGGAATGAT CTAGATATTT AAACGGAAAA GAACATGGCA ACCCACTCCA GTATTCTTGC TTAGAGAATC CCATGGACAG AGGAGCCTGG TGGGCTGCTG TCCATGAGGT TGCACAGAGT CGGACACAAC TGAAGCAACT TAGCATGCAT GCATGCACTG GAGAAGGAAA TGGCAACCCA CTCCAGTGTT CTTGCCTGGA GAATCCCAGG GATGGAGGAG CCTGGTGGGC TGCTGTCTGT GGGGTCACAC AGTCGGACAC GATTGAAGCA ACTTAGCAGC AGCAGCAGCA GATATTTCAT AATTTCCATC ATTTCATTTA ATTTAGCAAA ACTATAAATA TTAAGTCATC TAAAATCTAG AGAAATTATT TTTAAGTAGA CAAACCGTAA GACATAATTA TTCTTAAAGA ATTTACCTCA AAATTGTTAC TCTGTTTATA TCTGTTGAAT TATAGTTATG TTTAGATTAC CATGAAAACT AATGAGACAT TACACAAAAT AAGCCATCAT TTCAAGATTT TTTTTTTTGA AAATTTTATA ACAGAGACAG TATGACCTAT TTAACTTTTG GTAAACCTAG GTGCAATAAA AGTAAGAATG GTCTGTATTC ATTAAACCAA CAAATTTAAA CTTTAAAACT GATTCAGTTC AGTTCAATTC GGTCGCTCAG TCGTGTCTGA CTCTTTGTGA CCCCATGAAT CGCAGCACGC CAGGCCTCCC TGTCCATCAC CAACTCCCGG AGTTCACTCA GACTCATGTC CATCGAGTCA GTCATGCCAT CCAGCCATCT CATCCTCTGT CGTCCCCTTC TCCTCCTGCC CCCAATCCCT CCCAGCATCA GAGTCTTTTC CAGTGAGTCA ACTCTTCACA TGAGGTGGCC AAAGTACTGG AGTTTCAGCT TTAGCATCAT TCCTTCCAAA GAAATCCCAG GGCTGATTGC CTTCAGAATG GACTGGTTGG ATCTCCTTGC AGTCCAAGGG ACTCTCAAGA GTCTTCTCCA ACACCATAGT TCAAAACCAT CAATTCTTCG GCACTCAGCT TTCTTCACAG TCCAACTCTC ACATCCATAC ATGACCACTG GAAAAACTAT AGCCTTGACT AGACGGACCT TTGTTAGCAA AGTAATGTCT TTGCTTTTCA ATATGCTATC TAGGTTGATC ATAACTTTGC TTCCAAGGAG TAAGCATCTT TTAATTTCAT GGCTGCAGTC ACCATCTGCA GTGATTTTGG AGCCCCAAAA AAGAAAGCCT GACACTGTTT CCACTGTTTC CCCATCTATT TCCCATGAAG TGATGGGACC AGATGCCATG ATCTTTGTTT TCTGAATGTT AAGTTTTAAG TCAACTATTT CACTCTCCTC TTTCACCTTC ATCAAGAGGC TTTTGAGTTC CTCTTCGCTT TCTGCCATAA GGGTGGTGTC ATCTGCATAT CTGAGATTAT TGATATTTCT CCCGGCAATC TTGATCCCAG CTTGTGCTTC TTCCAGCCCA ACATTTCTCA TGATGTACTC TGCATATAAG TTAAATAAGC AGGGTGACAA TGTACAGCTT TGACGTACTC CTTTTTCTAT TTGAAACCAG

TCTGTTGTTC CATGTCCAGT TCTAACTGTT GCTTCCTGAC CTGCATACAC ATTTCTCAAG AGGCAAAACT GATTATTAGT ATAATATTGA CTATTTCCCA GATCACAAGA ACTTGAAATT TATTTGGGTT GGCTTTCTTT TAAGTAACTT AATTAAAAAA CTTTTTTTTT TTTCCAAGAT TTTTTATTTT TAATTTTTTG GCCAAGCCCT GCAGCATGTG GGATCTTAAT TTGCTGACCA GGGATCATCC TAGGCCCCTT GTCAGTGAGC ACGTAGAGTC CTAACCACTG GACTGCCAGG CAATTTGCAG GCTAGTTTTT TATTATATTT TTAAAATATC AATTTGTAAG TGATTACTTT GTCAACAAAG GTCCGTCTAG TCAAGGCTAT GGTTTTTCCA GTAGTCGTGT ATGGATATGA AAGTTGGACT ATAAAGAAAG CTGATCACAG AGGAATTGAT GCTTTTGAAC TATGGTGTTG GAGAAGACTC TTGAGAGTCC CTTGGACTGC AAGAGTTCCA ACCAGTCCAT CCTAAAGGAG ATCAGTCCTG GGTGTTCATT GGAAGGACTG ATGCTAAAGC TGAAACCCCA ATACTTTGGC CACCTGATGC GAAGAGCTGA CTTGTTGGAA AAGACCCCCT GATGCTGGGA AAGATTGAAG GTGGGAGGAG AAGTGGACGA CAGAGGATGA GATGGTTGGA TGGCATCATG GACTCAATGG ACATGAGTTT GGCTAAACTA CGGAAGTTGG TGATGGACAG GGAGGCCTGG CATGCTGCGG TCCATGGGGT TGCAAAGAGT CAGACACGAC TAAGCACATG AACTGAACTT TTACATCAGT TAAATACAGC TTTTTTATAT GTGTAATTTT GATAATATTA TCTGGAGTTA GGAACATATC ATATGTATAA TGTACACATA GAAATATAAA AAGACATAAC TAGAGACCTC ATAGCTTCAT TTGAAAACTT AGTTATGTAT CAGTTATTGC ATTATAAATT TACTAGTTTA TAAATAACAA TTTGAATAAG TTAAATATAT TTGCTCAGAT GACTAAAGCT TTTCACTGTT TGTGAAGAAT ATTTTAAAGT TTGTATTTGT CCTTGATAAA TCCTGAAGGA GGCTGTGAAT TAGATATGAT GAGGGATGCT TTCTAGCAGT TTGAGTTCAG AAAAGCCTGT TTCTCTCTCT TTCTCTCTTT CTTTTTTTTT TGGTGCAGGT TCTACCTGAT TGAGCTAATT CATAAGCTCA GTCTTAGGTC CTTGTGGGAT GTACTTATGT TTCTGATATG TAGAGATTTG TAAGACAAGA CAGTTGCTTT TAATTCCTCA GAGAACTGGT CTGTCACCTA TATGGTATTG AAAGATTGAT TTGCCCAACT ACATTTTCTT TATTTGCTTC TTTATATCAG TAAAAAGATT TCCAACTACA GTGAAAATCA AGAGTTATAT GTTCTAGAAC TTTAGGGTTC AGTTTATCCT GCTTTCCAAA CTTTGCACAA GCTATTCAAT AAAGGCCCTC TTTTTTGAGT ATACAAATTA AACCCAGAGC AGTTCACTCT AGGGGCTAAA AGTCTTCATT ATTTTTATTA ACTCCTGAAT ATTAGCCCCC AGTTTTATTT CATATTGTGT GGGCTCAGGT AACCCTATTG ATTTTCCTTA GTGTGTTTAA TCAATGTTGC CTGAGGGGCA GATTTATAAG CCCTATCTTA CACCAGGCAA GGGTGACCTA AGTTTATTCC ATAATATAAT TGGCAGAAGA GATTTAACCA TCTTATATAA AGCCCATTTA AACATACCAA CTTTTATAAA CATTCATCTC AATTCTCTCA GCTCTTATAT CTGTAATTTT AACCTCCATT AAGTCCCCAT CAACCTGTCT TGGTCTTACA CAGAGTCCCA GAAACGTTTC TTTTTATCTC CCTGACCACG TTATCTATCT TTATATAAAA GGCTTTGGGT TTCCCAGCCG AGGGGTTGAG CCAAGGGACT CAGGCCTTTC ATTGATATTT TAACTTGATT AATTGGCCTA ACTGTTGCCC CAAGCAATTG AATTTTCTAG CAGCCTTTTA AATATGTATA TGTTTTGCTG TGCTTAATTT TGCTCAGTGT GTCTGACTCT TTGCGACCCC ATGGAGTGTA GCCCACCAGG CTCCTCTGGC CATGGGGGAT TCTCCAGGCC AGAATACTGG AGTGGGTTGC CAGGCCCTCC TCCAGGGTAT CTTCCTAACC CAGGGATCGA ACCCAGGTCT CCTGCATCAT AGGCAGATTC TTTACTGTCT GAGCCACCAG GGAAGCCCAA ACTGGGGTAA ATAGAGTGGA CTTGTTTGGG GTTCTTTAAT GATGGAGACC GATAGGGAGT CCCTTTGGCC ATCCAACCTT AGCATTGTAT CAAAATGTTT GTTTTGATAC ATGTATTTAT TGGTTTATTT ATCCCATTTC TTAACCATCT AAAGATTTTT ACTGTTTTGG AACAAGTCTC TTTAAAATTT CTTCCTTGTT GGGAAGATGT CTCTAGACTT TCTCTGCAGT TTTTTCTTAT TCCTGTTAAT CAACCTAACT TAACAATCTA ATGCTTTTAT TAGCATCTGT AAGACCCGTT GAGGGGAAAT TGACCACAAA TTTAGTTTCC CAAACTTTTT TGTTGTTGCT TTTTGTTCGT TTAAACTAAG GGAGTTATTA AGGTTAGCCA TTATATTTTT TTGTATCCAC TTTCTACTTT GGTCTTTTCA TAGGTGCCAG TAATCCAGCT GTTAATAGTG AGAGTTCTCT AAAAATTTCC CAGTTTAGAA GTTTCTTCAA TTTTAATCTC CATTGTCTGG CCATTGCCAG AGCTCTCATA ACACAGGGAG GAAAAAAAAG TCTTAAGATC AGGTAAAACA TTTATATCTC AAAGACACAG TGGGAGAAAT GCTAGTTCCT CCTTTGAAAA GTTTTTTGTT CCTTTAAGGT CAGAATTCCG AGAAGATGTT TTATCAAGCT GGCTTTTTCT AGCTGCACAC ATGCACACAA AAATTAACTT TGGAGTGTTA AAAGAACCCA CATTTGGTCC TTTTTAAGGT GAGGTTTCCT TTAATTCCCA ACAAAGCAGG TACTTGTAGG AATAAATTCT GTTCATACAT AATAAAGTCT TCCCAGCGTC TCTCAACTGT GGTAATCCAG TTTTCAACTG AGCAAAATCT TTCCCTTGTC AGTTCATCTG GGATAACCCA GGTACCTCTT CTTGAAATTA AGTTCAAGGA AAATCTCCTC CAGCGAGGAT TTTATTCACC ATCAAATAAA ACTAAGGATA ATCAGCCAAT AGTGGAGATC CAGGACCCAG AAGAGATTTA CCTAAATTCA TATGGACTCT GAGGAGGTGG CTAGGCACAA GAGGTCTTTG CTGGTACCAA GGCTCCAGAT TCTTGTAGCG TTCGGGTGAG GGAGAGAAGT CTGCTCTGGG TCCCTTTGTT GCTAACTAAA GCGGTCGACT GAAGAAAAAC GCATAACCTA AAAGTTGCAA GTTAAGTTTT ATTTGAGGAT CTTACTGAGG ACTGTGGTTC AGGAGACAGC CTCTCAGATC ACTCTGAGGA ACTGCTCCAA ACACAAAAGA ATAAGGGAGT AGCCAGGGTA TTTAGGAAAT TTTGCTGAAA CGAAAAACAA CAACAGGAAA AACCAAACCA TGTAGTCAAA CATCAAAGAT AGTCACAAAA AATAGACATT ACTAGTTAAT GATTTTAGTA CTTTTCTGTA TGAGAAGATA CAAGACTCTG GGCTCATTGT AATTATTCCT TAGATATGCA TCTTAACTTA TCTAGGGCCA GTGCCCAGAA CACACAATGC TTCCTTTTTT TCTCTATCCT AATTTCTCCT CAGCTGTACC TGGGGGGTTT GGGGAATGCG ACTGCAGTGG CTAATGGCTT GATCCTTGTT TACTGGAATA AGAGGCAACA TTCTTTGTTT ACTAGAATGG CAGGCAACAT TCCCTGTCCA CGTCCACGTC TGTCAGTTTC CTCTTAAATG TAAATGAGTG TGAATGTAAA TGTAAAATGA ATATAAAATG TAAATGAGTT TCCATGGACC TGAAGCTGGA CCATTACTAT ACTTGCCCTT GTTTTCCCTT AATTGGGCAA ATTTGGGGGA GGTTGAGAGT GAGATTGCTT TGAAATGGGG CAAACAGTAG AGAGTCATTA TAAAACTCCC ATTGGCTGTG ACCTTGCTGT GGGAATAGGT GCCTTTTGCT TGTTGGAATG CTGGATCTTC CTTGCTCTAC CAGCCCCACT CTTTTGTGTA TAAAGGCTGC ACACCAAGGG TAACCGGCAT CCTAAGATAT ATATCTGAAT ACACTCTTCC TTAGAAACCA GATAATGTTT TTACATACAG TTTCAGAGTG CTTGTTTTGT GTCTGGTGTT GTATTTAAGA GGCTTCCCTG GTGGCTCAGA TGGTAAAGAA TATGCCTGTA GTGCAGGACC TAGAGGACAG TGTCCACATC TTGGCTCTTG AATGACTACA GTAGCCTCTA TGTAGTCTCC CTGCTCTGCT CCTGTCTCCA GCACCCCCAC CCCCACCCCC AAGTCAGAGT GATCTTTTTA AACATAATTA GATTATGTTA TTCCTCCACC GAGAAGCCAA GCAAAGTTCT TATAGTGGCC TGAGGTATGG ACACTGCCAG AATTGACCTG AACCTCTGAC TTCATATCCT ATGCTCTCCC TCCCTCTGCT TCAGTCCCCT TGGCCGTGCT CTTCCTCAGG CTAGCACTTG ATCTTGGCAT CACAACTCCA GAGAGCCACC CTCAGGTTTC TGCTCAAAGA CCTCATTGGG AAGGCCTTCC CTGACTTCAT TTCCTCCTTC ACTTTTATTT TTTTCTCTTT AGCACTGCTG ACTCTGACGT TTTTCATCAA AAGGAAAAAG GAATAGGAGT TAGGGACATA CCCCCATGCA GTCAAAAATC CATTATAACT TTTGACTCCT CCAAAACTTA ACACATATTT TATATGTTAT ATGCATATCT ACATATATTT TATCATTGAT GACATATCTA ACTTTCTTGG TTTTTTTCAA TATTTCAAAT TTTTTCAAAT TGTTGCAAAT CTTGAAAAAA AAAATCTCCC AATATATTTA TTGAAAAGAA ATCCACAATA TAAGTGGACC TGCACAGTTC AAATCTGTTT GTTCAAGGTA TGGCCAAACG CAAGTTCATA TGCTCGACAC ACAGTAAGGC CAAACTGAAA CACTGGAGTT TGGAACAGAG AAAGGTTTAT TGCAAGGACC AAGGAAAGAG AATGGGTGGC TGTACTCAAA AGATGTGAAC TCCCTGATGG TTTTCAGGAA AGTGTTTTTA TAGGCAAAAT TTGGGGTGAG GGCTGCAGGG TGTGTGACTT CTGATTGGTT GGTGATGAGT TAGCATGGTG GTGTTTCAGA AATCTTGTGC TCAGCCTGAA GTTACTGTTG TCCATCCTGG TGGGGGCCTT ACTTCCTATA GAAAAACTCA AAGATATTGT AATGTATATC CCTTGAGGGG GAACCAGGAC CCTGCTCCTT GGCTGTCCTA TAGTTTCTTG ACTGCCTTTC CTTGGTTTCT GCATTCCTTC ACTCTTCTAA TTAGCAACCA TTTGAATCTG CCCTTTGAAA CTCAGGGAAG GTCTGAGAAA CTGAAATTTT TTCCCTGCAA ACAAGAAATG GGATACAGAG AGACTTTTGT ATGCAAGAGG GCCACACAGG GTCCTGCCAG GTTTCAAGGG TCAGTTATAG TTGCATTAGG TACACTTGTA TCTATTTAAA GAGAGGATTA GGATTAAATG GAGGGACCTC CCTGGTGGTC AAGTGATTAA AACTCTGCCT TCTAATGTAG GGGGTGTGAG TTCAGTCCCT GGTCAGGGAA CTAAGAACCC AGATGTCTCA GGGTGCGGCC AAAAAGTAAA AAAATAGTAA TAATAAAAAA ATTTTTTTTA AAGATTAAAT TAAAAAAGGG ACAGGAAACA GATCTATGGT TGTCATGGGC TGGGGTGGGA GAGGGAATTT CTTTGGGATG ATAGAAATGG TCTTTGTCCT ACTTTTCATG ATTACATGTC TGTATACACC TTCAAAGTCC AAAAACTGTA CTTAAAGAGG ATGTTTGATG GTCTACAACA CTGTTTACTA TTGACACGTT TTGAATAAAC ATGACAAAAA ACAGAGATTA GGCTGAACCA TGAGTAGAGT TGGTGTTATG TTGGAAGGAA TGTTATATGT ACCAAAACGT TCCCCCTCTT GTTTGTTATC TATTCCTTTT TCCTCTGTGT TTTGTGTGTG TTAGTCACTC AGTTGTGCCC GACTCTTTGT GACCCCGTGT ACTGTAGCCC ACCAGGCTCC TCTGTCCGTG GGATTCTCCA GACAAGACTA TCAGAGTGGG TTGTCATTTC TTCACTAGGG GATTTTCCTA ACACAGGGAT CAAACCCGGG TCTTTACCAT CTGAGCCATA AGTCACCAAT TCTCCGTGGA TCCCTCACTG GTCTTACTGC GTATCTCCTC AGTGCAGGAA GGACGGGGAT CTGTAGAATG AGGGAGGAGA TGGCTGAGGG GACCTGTGGA GCTTCCAAAG TCAAGTCTTA GCTCCCTACA GGGCATACGT CACTCTCTGA TGAACTTTGC TGCCTCTCCA GCCTAATTTT CTTACTGCCC TTTCCCCAAA GCTGAACTTT AATATAATGA ACTTACCAAC TAAAAAAAGT CACAACCTAA AAGTTGAGGG TTATGCTGCA TTTGGTGGGA ATTTTTAGGA CTTCAGGACC GGGAGGCAAC ATTTCAAGTA GCCTTGAGAG AACTGCTCTG AGGAGGCAGG GTGGAGGAGT CAGGTTATAT AGACCTTGGC AACGAAGGAC AGGTAGTCTG AACATCAAAA GTATTTTTGT GAATTAAAGA AAACCAGCTA TCTCAAGTTA AGGAATTTAG CACTTTTCTG TATATGGCAA GATGCAAGCC TCTGAGCTCA CTGAAGTCTT TCCTTTCCTA TGTATCTCAG CTATCTGGGG CCAGTATCTT GTGGTTTTTC ACATCCTGAG TTCTCCTGGG CTCCCCATAG GGAGTGGCTG CAGCCTGAAG GCTGTCAGAT CTTGCTGGTG TTCTTCTCCT TCCTGGGTGC CCTGGAGGGC TGGGATCACT GGTGACTGTG ACCTCATTGT TTACTGATAT GGCAGGAAGT ACTCCATTTC TCAAACAGCA TGCATTTCCC AAAGCAATCT CTTTCAGTTT AATGATTTTG CTTTCCTTTA CTAGGTCAAC TTTCTTTTCT CTTCTCTCCT TCCTATATAA CTGGTTAGTC TCCTTTAATA GGCCACTTCT AACCACTGTG ACCCCCACCC CCACCCGCCC TGCCCCAAGC CATGTATTCC CTGAGAGATG AATCTGGTCT TAATCCCTCA AGTAATTTTG AAGCTCTAGG CAAAGGGGTA GGGAAGGACA TTCCTGGCTG GAAATTCTGC TTTGAAACAG GATAATTATA TTTTCTCTCA ACTCCACCTG GGTTAATACA GTGAGTTTTT AGGGGGTATT CATTAAGCTT TGTCCTTACC TTCCACAAAG TCCAGGTGAA ATCTTTGGTG

GTATTTGTGT CCTTTCTAAT TTGTACATAT AGTTTACTAA TCCTGGCAGA ATTTAACTTC TGTAGATGAC CTCTCTAAAT AGGGTGGTTA GTGACTTCCT CTTGTTTGTG CTCACAATAT CTTTATGAAG CTACTTTGCT TAATACAGGG GTGTGGCATA TTGTAATTTA GTCTTTCATT CAGCGGGAAT AATTGAGAAT ATGATATGAG TGACCCCAAA GGATACAAGG GCTTCCCTGG TGGCTCAGAG GTTAAAGCGT CTGCCTGGAA TGCAGTAGAC CCGAGTTCGA TACCTGGGTC GGGAAGATCC CCTGGAGAAG GAAATGGCAA CCCACTCTAG TACTCTTGCT TGGAGAATCC CATGGAGGGA GGAGCCTGGT AGGCTACAGT CCATGAGGTC ACAAAGAGTC GGACACAACT GACCAACTTC ACTTTACTTA AAGGATACAA AATTGATGGA CATTAGGTCC CTGCTCTTAC AACAGACATG TGGGCAAATT TTTAGTTTGC AAATGCATAT ATGGCTTTCT GAAATGGCAG GTTTGCAATA AAGTCCAAAG GAGATAACTT TAAAATATCA TGATTTTACT TATAATTTGG GAGATAGCTG AAGGCCAAAA GGGCATGAGA AGAATGTTCC TGCACTGTGA GCTAGGGCTA GAAAAAACAT TTTAATGATA ATTTGCTTGA TGAGCTGTGA TCCAAATACT GGTCATACAT TGTTAGATAA AGCTTTGTGA CTATTATTAG AAAGCTTTGG AGGGTGGCTG GAAGGTCTAT AGTTCATTTA AATTTATTAT TTTTCTTTCA TCAGCCCACC TTCAGTATTT GAAATTCGGA ATAAAGTAGT CTGAAATTTA CCATGAAAAT GCTATGAGAT TTGTTATTGT TAGGGAACCA TTAATTGCCC ACTTTGGCCG GGCATGATAA TAATTGCTTG CCTGAGTTGT CTCACAATAG GAGGTCCTGG TAAAGAAGGA GGTACTACCT CCAAAAAGTA ACAGGAAAGA GTTCAGATCA GATCAGTCGC TCAGTCGTGT CCGACTCTTT GTGACCCCAT GAATTGCAGC ACGCCAGGCC TCCCTGTCCA TCACCAACTC CCGGAGTTCA CTCAGACTCA TGTCCATCGA ATCAGTGATG CCATCCAGCC ATCTCATCCT CTGTTGTCCC CTTCTCCTCT TGCCCCCAAT CCCTCCCAGC ATCAGAGTCT TTTCCAATGA GTCAACTCTT CACATGAGGT GGCCAAAGTA CTGGAGTTTC AGCTTTAGCA TCATTCCTTC CAAAGAAATC CTAGGGCTGA TCTCCTTTAG AACAGACTGG TTGGATCTTC TTGCAGTCCA AGGGACTCTC AAGAGTCTTC TCCGACACCA CAGTTCAAAA GCATCAGTTC TTCGGCGCTC AGCCTTCTTC ACAGTCCAAT TCTCACATCC ATACATGACC ACAGGAAAAA CCATAGCCTT GACTAGACGA ACCTTTGTTA GCAAAGTAAT GTCTCTGCTT TTGAATATGC TATCTAGGTT GGTCATAACT TTCCTTCCAA GGAATAAGCA TCTTTTAATT TCATGGCTGC AGTCACCATC TGCAGTGATT TTGGAGCGAG CCCAGAAAAA TAAAATCTGA CACTGTTTCC ACTGTTTCCC CGTCTATTTC CCATGAAGTG ATGGGACCGG ATGCCGTGAT CTTCGTTTTC TGAATGTTGA GCTTTAAGCC AACTTTTTCA CTCTCCACTT CACCTTCAGG AAAGAGTTCA GGAGGGGCCA AAAGGAGAAG GGAGGAGTCA ATATATCCTA TCAACCTCCC AGAATCCTTC TCGCTGAAAT CCATCTTGGC TGAGAGATGT ATGCACCACC AGGGAGGACC CTGAGTCAGA ATGATTGGCC AGAGACAACC TGGAAACCAA CCCCATTACC ATAAACGCGG AGACTCTGAG CCATGTGGTG GAGCAGTTCT CCTGGGTTCC CTTCCCCTGC TGCTCTCCGC TGAGGCACCC CTCTCTAATA AAGTCTTTTG CTTTGTCAGT TCGTGTGTCT CCTTGGACCA TTCATTTCTT AGAGCTCACT CTTGGGCCCT ATAAGGGGGT CCCCTTCCTG TACTCAGTAG TAAAAAATGT TTTGATAAAA TGTGAATTCT GTTTGGGGAC CAGATACTTT AGGGATTCAT CTTGTTTGTT TTACTTGAGG AAAGTGATTT AATTCAATTT AGCTATTGTT CAAAAGACAG TTCTAAAATA ATGGAAGCAT TGCCTTTTTT CAGCCATTGT ATATATGATC ATTTTATAGA TTTGTTATTC TTAACCTGAA ACATATAGCA CTGTCCTATT TTTGAAATAA ATATATCTCT TTCTCTCTCT TTAGTCGCTA AGTCGTGTCC AACTCTTGAG ACCCCATGGA CTGTAGCCTG CCAGGCTCCT CTGTCCATGG GATTCTCCGG GCAATAACAC TGGAGTGGGT TGCCATTTCC TTCTCTAGGG GATCTTCCCA ACCCAGGAAT CGAACCCAGG TCTCCTGCAT TGCAGGCAGA GTCTTTACTG ACTGAGCTAT AAATATAGTA TAGTTTTATG GTATTTTGAA ATCTAAGAAT GAATTTGATA ATAGCATATA GCAAGTATTA TTTTTTTTTT TTTTGATGCA GGATGAATAT GGGAGTGCTT GGGGTGTCCT CATAGTGTTC AAGTATATGT GTCTTTTATG GGGTTATAAA ATTGACTGTT TATAAAGTAA CCCAAGAATG AGAAAATACA TTTTTAAAAA GTAAGCACTT TAGACCTGTG TTGTCCTATA TGGTAACTAT TAACCACGTG TGGCTATTTA AGTATAAGTG AGTAAGTTAA ATAACATAAA ATATTCACCA GCTATATTTC AAGTGCTGAG TAGCAGCCAT ATGTGTCTGG TGGACAGCAC TATTTTATTA TCCCTATGCG TATTAATAAA GAACATGGAA AGGAGCACAG GCACTTTTCC ATCTGACCTC TGATTATCTT GAACTCAAGA GAATCACTTC TTGGGCCTCA TTTACAGCCT TTTTACACAT AAGAAACCAG ATTACCATCT ATGAGATCAG TGGTTGTGTA ACTTGTGAGA ATGAAGGGAA TTGGTAATTT TATTTTGTGT GTGTGTGTGG GGGGGGGGGT GGGGGCGGGG GCCTGTGCTG CTAAGCATGA AGGATCTTAA TTCCCTAACC AGGGATTGAA TCCATGCCTC CTGCAGTGGA AGCACAAAGT CCTAACCACT GTACCATCAG GGAATTCCAG GGAGTTGGTA ATTTTTATCT TGTCAAGTTA TATATCTCTT AGCTGGTGCT CCCTAATCTC CACTATTTTA AACATATCCT CAGCACTCAG TCCTTGATAA ATCCTTCTCT TAGCTATAGA GGAGGGGAGA AAAAAGTTTT CATTACCAGG CCCATTCCTG TGTCTCACTG TTAGCGTGTC TCACTGTTTT TCTGCAGTAG CCTCCTAACG CCCTTGCTTC CACACTTGTC TCACAGTAGC AGCTACAGTG ATTTTTAAAA AACAGTTAAG ATCATGAGCC TTTCCTGCTT GAACGGCCTC AGCGGCTTCT CTTGGACTAT ACAGACCTTC CGCAATGGTA TTTCTTCCTG TCTGTCTGTC TGACCTCGTT CTTTGTGCCG CCCTCCCCAG ATCACTCTGC TGCAGCGCTG TGGGGGCCTT GAGTGCCAGA TCGTTTCCTT GACCTGAAGA CATCAGCCCT CTGACTCCAA CGCTGCAGTG CCGATGTCAA CACTGGATGT TTGCTCCAGG GTGGAACTGT TAGATGAGAG ATGATGTGAA AACCCATTGA TGGATAGAGG ACTCTTTAAA CTTCAGGGAT TTATTGTGGA AGTTACAGCT CAGATTTTGA GTTCCTTTTC TAACAATGTT CAAAACTATC CAGCTTCTAT TTCTGTTTGT TCATAAGTTT TGTAGCAGTC ACCTGACAGT GACCCAAGAA GCCTAATTCC TTGTCAGGGT AGCGAGGTCT GGGCGTCACA GTAAATAGCT GAAGAAGGTG TGTTTACCCA GCATGTCCTC TTGGCTATGA GGCAGAGTGT CACTTTTGCT ATTATTATCC CTAGGGGAAA AAAAAGTAAG AAGAAGGCCT GAACTCTTGA CCTGAGGCTG CTCTGGCTTC TACCAGCAGG TGCAATATTT CCAGCTATGG ACAGCTGTCT GGCTGAGGAC TTTAGAACTG AACTCTACTT TTATTACCTG TGTGCAATTT CTATTGACTT ATGTACTCTG TTTATAGTAG ACTGTCTGAT TAAGAGTATG ATAAAGAGTA AGATAGAGAA AAATGGTATT TTTTTTTTTT TAAGCGAGTC CTATATTATT GAATTCTGCA ATAGGGAGCA GAATTATATA TGGTTGAGTG TGTGGGCTTC AAAGGCAGCA GGCCTATTTT GGCTTTTTTT TTTTCAATTA ACTAATTTAT TTTAATTGGA GGATAATTAC TTTATAGTAT TATGATGGCT TTTTTCATAT ATCAACCTGA ATCGGCTACA GGTATATGTG TCGCCCCCAT CCTGATCCCT CCTCCCACCT CCCTCCCCAC CCTATCCCTC TGGGTTGTCC CAGAGCACTG GCTTTGGGTG CCTGGCTTCA TGCGTTGAAC TTGCACTGGT CATCTGTTTT ACATATGGTA ATGTACTTGC TTCAATGCTA TTCTCTTAAA TCATCCCACT CTTGCCTTCT CCCACTGAGT CTAAAAGTCC ATTCAAAAGT GGTAGTTTTA ATGCAAGTTA TCATTCTTAT AATAGATATA CCAGTGTCTA TGGAAGAAGA CTTTCCAAAA AAGTAAAAAT GTACCTCATT AGTTAGAAAA CAAGAAGAAG AGAGGAAAGG TGACAAAGGT AGACACAGGT AGAAAAGAGA TAGCTGGGAA GGGGGAAAGA ATCTCGTTAT TCAAAGCCGC TCAGTCATGT ATGGAAGACT GTTCCAGCTG GTGAAAAGAT AATCAGGCCG GTTAACAGGG CAGGCTGGTT CAGGCGAGTT GTATGAAGCC ATTTGGATGC TGCTTTTATT TTTCAAGTCT TTGAAGTGGG TCTCAGATTC AGAAAACGAT TTAGCACATG CTCTGGAAGC TGAACTAAAC TGGAAGCAAG GAAGCAGCAA CAAGGGGGGA AGTTGATTTT TGTCATAGGG AAATCTAGAT GTGGTGTATA TATATATATC TGTAGGGAAA GATTAATGTT TACTTAGAGA CAGTTACTTT CAGTGATTCC TCTATAAACC CAGGATACTG GGATAAACCC AGTATCTGGA TAAACCCAGT ATACTGTATA CAGTATACCC AGGATACTGT ATAAACTGGA GACTTGAGTA CTTGAGGTTA ATATGGTGCT GAGATGTGTG TTTTTAAAAT TTTGTTATCA TTCCTATAAG TTTTTTGTTT CATCTTAGAG TAATATATTG TTTCATATTG GTGTTAGAAA TAAGTTTGGT TTTTGGTATA ATGTGCTTCA GCTGGATGGT GTACTTCAGT TATGCCTGCT CATCTCTTGA TTTGTGACAC ATGAATTACT AAGACCCTGT ACTAAGCATC TCCTATTCCT AAGCACCTCC TAGCAATGTG AATTACTAAC TTAATCCTAT CACAGTGAAG ACGAACTCAG TATGCACATA CTTCTAGAAT TGTGATTGTA TTTATCTGTT CTCTATCTTG GATGGATGGA TGGGTATGGA TGATCTTTCT TGGGTACTAT AGTTCCAGTT GGTGCCTTTT ATTAACAGAA AATCTCACAA AGATTTTGTA TTAATGTTTG TCTTGAGCCA ATGGCCTATT TAAATTTAGG TGGGATGTTA TTTGATTCTC TTAATGAGCC TTGTGGAATA GGAAATGACA ACCCACTTTG GTATTCTTGA CTGGAAAATT CTATGGGCAG AGGAGCCTGG CAGGCTACAT TCCACGGGTC GCAAAGAGTT GGACAGACTG ACCACACACA CACACACACA CACACACACA CACAGAGCCT TGGGAGATTG TTAGAAAGTG TCCTTACGCA CACACGCACA CACACACACA GCCTTGGGAG AGTGTTAGAA AGTGTCCTTG GAGCCTGAAC ATCAAATGGG GAATGGCAAG AGAAGCAATT GCTCGTGTCA GGCTAGTATA GTTTGGCTTT TGAAGACATG GGGGATGGCT TAAGAAGTTT ACAAAGTCGA TATGCAAGGT CTCTATAGTT ATTTGCACCT TGAGCCTTCT CTTTCACTGC TTTCAGAGAG TAGGGCTTGA GCTAGTTATT ACCATTCATT GTGCTCACAG ATTAAAACTA GGCTCTTTTA ATTTTCTGGG TGCCAGTCTA TAAGTGGTTT CCTACTTTTG CAGTTTCCAA AGTGGAATAT GTTTTAAATG TGATAACAAT AGAGCAGTTT CCGGCTATAG GAAGAATTAC AGATTATTTT GATTTGGGGG AAGTTCTACT ATGATATGCT CAGGTGTGTG TGGTTTTCTT ATGCATATCC TGTCTTGGTG TTCCTGGAGC TCCTTCAGTC TGTGGCTTGA TACCTTCAGT TTTGGAAAAT GTTTGGCCAA TATTTCTTCA AACACTGATT CTGCTTCATT TTTATTTTCT CTTTTTCAGG TCTCCAGTTA CTTGTATGCC AGATCTTTTT CATCACATTT CATATGTTTC TTAGCTCTTT TATGTAGTTA AAAAAAAAAA AGCTACTTCT TCATTCTCTT CAGTCTGAAG TTTTTTGTTT CTTTTCCATG CTGATAATTT TCATACACTC TTCAATCTGG ATGTTTTCCA CATGGAAGTC TGTCAGTTCA CTAATTCTTT CCCAGTCTGT ATCTAAACTG CTATTAAACT CATCTACTGA TTTTTTAAAA ACTATTGATT AGTTCTTTGG TGATAGCCTA TCTTTTCATT TATTTTCTTA GACATATTAC TCAGTTATTT TAACGCAGAT GTCTGATGAC TCCAACGTGC AATACTTATG GGTCTACTTC TATTTTCTTG TTTTGGAACA TTAGGTCTTA TTTTCTGGCG TGCTTGGTAA TTTTTTATTG AAAATTTGGA TGATGATGAC TTTGGAATAG ATTTAAATTT CTTTTAGCAA AATATGAGTG GATCACATTG CTTGAGTAAA GGCTGGTCTG CTTCTAGGTT GCTCATATTT CCAGGTCATA GCCCTACTGG TACGATCTCA AAAACTTGGG GTTTTCAACT GGTAAACTCA CAGCTCCAAA CTTTGTCTCC CTGTTAATGA GCTGCTACTG CTGCTAAGTC ACGTCAGTTG TGTCTGACTC TGCGACCCCA TAGACGGCAG CCCACCAGGC TCCTCCATCC CTGGGATTCT CCAGGCAAGA ACACTGGAGT GGGCTGCCAT TTCCTTCTCC AATGCATGAA AGTGGAAAGT GAAAGTGAAG TCGCTCAGTC GTGTCTGACT CTTAGTGATC CCATGGACTG CAGCCTACCA GGCTCCTCCA TCCATGGGAG TTTCCAGGCA AGAGTACTGG AGTGGGTGGC CAGTGCCTTC TCCGCCTATT AATGAGATGC

TACTTAAATA TATTCATTCA GCTTTTGAGC AGCTCTTTCT GCCTGGTTTT TCTGGGTTTT GCCCCATGTA TGTGTAATTT GCCTCAAGAA TGCTGGGCAT GGAATGCTTC ATCTTTTCTC TTTTCCAGAA TTTTAGATAC TTAAGTCCTG GCTGCTTTGG TTACACCCAT CAGAAAACAT TCTTCAAAGA GCTGCATCTT GTATTTTGTC TGCTTCTACA GTTGTCCTTA GGAGGATGAT TGGTTTGGAC AAGCTACTCT ACAGTAGCCA GAGAGAAAGT TCTTCATTGA TTACTTTGAT TTTTAAGAAT TAAAACCAAG TTTATGGAAG TTTCATTTTT CAAAGCTATT GCACAAGCTG TTAAGTTCAC CTTAAGATCC TACTCTAAAT CCTTATAAAG GGGCCTTTTC TAACTTGTTA AATGAAATAT TTTAAACTTC ATTTATAAAT TTAATACTCA CTTGTTGTTT TAAATTCTTT AACTACTTAA CTCTTGGTTT GATCTTCTCA ATCATTTTTA TACATAATTC TAAACCTTCC TAGAATTTAT ATGTTGTCCA TTAAGAAAAT GAGTTTATCA TTCCAAACAA TTTTGGAGTT TGTCTTCTTA GTTGATTAAA GGAACATAGC AACCAGAGAT GTAAAGTCAG GAGCTTTAAA TTCAAAGAAA TGTCTCTTGT CACTGACTGC TTGGCCACCC CCCTTTTTGT AATATCTATG TCATACACTC AAATAAGAAT GGAGTGATGG TGATCATGTA GCCTGTCCCT GATCTTGAGT CATATTAATA ATATATTTTT TAAGTCAGCT CTAACTCCCA TTTATCTTTT GCTGTTTCAT GAGTTTTGAG TAATTTTCAT ACTCTCCCTA TTTACTTGTT AGATGTTTAA TTGACATCTA ATTGGAGTTT ATATATTCGG AGTTGTGTCT GCCTCCCTAA TGTAGGTTCC AAGCTTGTTA TTGTTGTTGT GATATGGCCT ATTCATTGGA AATGGAGCTG CTTATTGCAT TGAAGTTTAA AATGGACTTG TTTTAAAATT TTAAAAATAC ATTTAATTGT ATTAAATATA GCCAAACTAT TTTTACTTAA ACATGTTATC AATATAAAAT GACCAATAAG GCATTTTACA TTAAACTTTT TTTGATCTCT AAAATTTTTA ACAAATTGAA ATAATTGACA TAATAACATT AGTTTCAGGT GTACAACATA ATGACATAAT ATTTGTATAT TTTGTGAAGT GATCACCAAA ATAAACCTAC TTAATATCCA TCACACACAA AAGTCACACA TTTTTTTCTT CTTATGGTGA GGACTTTTAA GATCTCTCTT GGCTACTTTC AAATATACAA TACAGTATTA TTACCTATAG TTACTGTGCC ACACATTATA TCCCCAGGTC TTATTTATTT TATAACTGGA AGTTTGTACC AAAGCAGTTT TGTTTTAAGT GTATTGTTAA CTACTGTTTA CAGTCTCATT TACCTGGACT ATCAACTTAT TGTTGCTTTT CCCTCCACAG GAAGGCGGAA ATGCTCAAAA TGTCTTCCAA TAGTTACGAG GTTTCTATCC CAATGTCAAA AAAACTCAAC GGCATTCCAG AGACAACCTC TAAGGACCTG CAGACATTAA CTGAAGGAGC TGTGTTAAGT TTTCATAACA TCTGCTATCG AGTAAAAGTG AAGACTGGCT TTCTACTTTG TCGGAAAACA ATTGAGAAAG AAATACTAGC AAATATCAAG

PUBLICATIONS CITED

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SEQUENCE LISTINGS

1

198120DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 1acctgggaag cctccatatc 20221DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 2ctgcaggcag attctttatc g 21320DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 3gtcagaatgg agctcaatgc 20420DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 4gatgtttgtt tgaggccgga 20520DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 5taagacattg gcagcaggtg 20620DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 6ctagtgttcg ggtgcctttc 20723DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 7tgccttgatt tttcatttta tgc 23820DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 8ctgacaatcg cacagcaact 20920DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 9gcagcaacag cacagaggta 201020DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 10tggtgtgggg ttgtaggttt 201120DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 11cattaaagca gggtgggaga 201220DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 12atgctgtgat ggtttgcatt 201320DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 13tgggaccaac catttcactt 201417DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 14agccacacga aaagact 171520DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 15cccccaatta aaaagggact 201622DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 16gaggcaagtg aaaagaagac aa 221720DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 17tgcctgggga aaatacaaga 201823DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 18gggtcaccac ttacagttca ctt 231917DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 19gaaatttcag ggggatt 172020DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 20ttcatcaaga ctcggtgctg 202120DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 21catccatcac ctcagtgtgc 202220DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 22aaaggcagag ctgcagaaac 202321DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 23gatccattgg agggcaagtc t 212428DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 24aactgcagca actttaatat acgctatt 282530DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 25acgttggatg ccacgcccaa atcttttctc 302630DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 26acgttggatg ttcaagttgg gagccgaaac 302719DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 27gaagatatca gaggaggac 192830DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 28acgttggatg tctcccaccc tgctttaatg 302930DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 29acgttggatg gcctcttctg aggtcaattg 303021DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 30ctgctttaat gtatcctttt c 213130DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 31acgttggatg taaacctaca accccacacc 303230DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 32acgttggatg gcctgtttgt tcatactccc 303319DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 33accgtttggg aaaatcacc 193430DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 34acgttggatg atttcggctc tgaagtggag 303530DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 35acgttggatg taagaagtgg tgggaaccag 303618DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 36cctgtcatcc tgcagacc 183730DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 37acgttggatg gattgtgtcc tgaggaagtc 303830DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 38acgttggatg caagtcatag ctgacagctg 303920DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 39ctgaggaagt cttattaggt 204030DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 40acgttggatg aatctcaaaa ccgtcgtgcc 304130DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 41acgttggatg cggtgacaga taaggagaac 304220DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 42gagcattcct cgatacggct 204330DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 43acgttggatg gcttctcact ttgtaggatg 304430DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 44acgttggatg ttgtcaagtg cttctggacc 304521DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 45ttcgctgtaa ttcattcctt a 214631DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 46acgttggatg caagacaggt tatagattgc c 314730DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 47acgttggatg ctgaaaatgc tcattttggc 304820DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 48gttatagatt gccaacttgc 204920DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 49ctgagtccca accactggac 205023DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 50tgtatgctga atgggtatct tca 235127DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 51tgctatggat caaatactat ccaagtt 275220DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 52ccccgtcctc taaagaatgc 205320DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 53tgtgcgattc cacattgttt 205419DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 54aaagcaagca gccgctaat 195523DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 55ctctgatccc ctgagaattt tca 235629DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 56cactgttttt ccttgttcat aataaacac 295720DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 57atctgtattt actggatcat 205819DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 58ctgtatttat tggatcatt 195927DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 59aactttaaaa gggagaggaa tgttacc 276020DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 60aaacaatgtg gaatcgcaca 206119DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 61aaagcaagca gccgctaat 196218DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 62cctggatatt gcaagaca 186320DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 63taagacattg gcagcaggtg 206420DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 64tctgtccaga aaccagagca 206520DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 65gaaaggatgc tctggtccag 206621DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 66cattgaaaca ggagaccgtg t 216721DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 67tgtgactcat cctaagtggg c 216820DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 68ctggggctac aggaaagaag 206920DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 69attctgggat tttgtgtggc 207020DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 70agatcccaca tgcacctagc 207120DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 71cccggccctc caaggcatgc 207220DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 72cagtaaccct gctcggtcat 207320DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 73tctgggagat cctggttgtc 207420DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 74cacaggggac tggactcttc 207520DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 75ttgctgtctc cattttccaa 207623DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 76ccctttctga atattttcac ctc 237720DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 77gatttgcttc tgcctcttgg 207820DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 78agcatctgga gcagccttta 207920DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 79actcctgtcc tctctgtgcg 208020DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 80tggagtgttt ccacacaaaa 208120DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 81ttgtgtgcct gctatgcttc 208220DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 82tcacttagag acccctgttt 208320DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 83tttgggctgg ttaaatggat 208422DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 84tgcaacttct gcaagatgta ct 228523DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 85tgctcaatga agatgttagg aga 238620DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 86caaacgggta ttgtcccaag 208721DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 87gaagaaaacc cttctttcag c 218823DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 88gaacctttga actcatctac agc 238921DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 89gctaattaag ggcacctctg c 219021DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 90tcttccatag aggaaggaaa a 219121DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 91aaatacccag atgctgtagc c 219226DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 92aaattctcac aattaaagaa caacca 269320DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 93ttcaaattcc ggcaaaattc 209426DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 94aaattctcac aattaaagaa caacca 269523DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 95tctgaggaaa ctgatgacaa caa 239622DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 96cctctgagga aactgatgac aa 229721DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 97cgttagatcg gcggaacttc t 219823DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 98tctgatgtct gttgtgcctt aga 239922DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 99gcactgtaaa gcctaaggga ca 2210022DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 100gccattaagt gctttgttgt ga 2210120DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 101gtttttgcgc tcaagtccat 2010220DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 102cccttcctag ctgttcgttg 2010320DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 103aagcagggtg ggagacaata 2010419DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 104cgtacgtgtt cattcagca 1910520DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 105cagagtccag atgccacaga 2010620DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 106ggcccaagga agaaacgaac 2010720DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 107ggaatggtgg tggagatgga 2010820DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 108cgaggaggaa gaggaggaag 2010920DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 109cgacctcctc ttcctcctct 2011021DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 110aacaggagag cctcccttaa a 2111120DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 111ttgcatattt gccctgtcaa 2011220DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 112gtgcggtctg taagggtcag 2011320DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 113tatgggaagg gaatttggag 2011420DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 114ttggcttgtt ctgtcttcca

2011520DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 115gctgtgcact taacactggg 2011621DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 116aaaatgttgc ctttgctttc a 2111720DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 117aagtgtctgt ggcttgtgga 2011823DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 118tcaggaacca gttgtctctg taa 2311920DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 119aaactgcagg caatggtttt 2012020DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 120cctgactgca tccatgtgtt 2012121DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 121aggttggaga acaacaccaa a 2112225DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 122tcttcattta atcttttgtt ttcca 2512322DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 123tgttgaagga cctgaatttg ct 2212420DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 124atttcccctc tcttttgcag 2012520DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 125gaaaccttca tggtggctgt 2012620DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 126tgtcaaaaga atgctggaca 2012724DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 127catcatctct tcttttcttc caca 2412822DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 128ttttcccaaa gaatttggta gc 2212920DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 129gttgtttcag ccagattgcc 2013020DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 130ggcagaacaa acgaaaaagg 2013120DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 131aagaatctca atttgcccgt 2013220DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 132gatcgtgtgc atggatgagt 2013320DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 133gattggttca acacctgcaa 2013420DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 134cagtgatccc gtgttcttca 2013518DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 135ttcgagttga caaggggc 1813621DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 136cacaagatgt ttttgtccct c 2113720DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 137tgttttcccc atacatgcaa 2013820DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 138ttccgaaggc aattcctaaa 2013920DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 139atatggtggt cagggcacat 2014020DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 140tggaaaagaa tcccaaacca 2014120DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 141gctcaccaaa tttatgggga 2014220DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 142accaaccgta ctttggcttg 2014320DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 143gattcagctt gcctacctgc 2014420DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 144cctcttgatt gccaggaaaa 2014520DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 145gattcctgtg agctcaaccc 2014620DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 146cacacaccac aaaaaccctc 2014723DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 147ttcatcttgt cagatggtaa cca 2314824DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 148tgtttacagt ctcatttacc tgga 2414920DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 149atgcagattt tggcaggttt 2015021DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 150aactggcttt aaactgggtc a 2115124DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 151tttctttgta gttttcatgt gtgg 2415220DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 152catgaaacct ggcctcaatg 2015320DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 153tccatgtgga tccttccttg 2015421DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 154aagaggtaaa gcctgatttg g 2115520DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 155ttcatatggg caagtgcctt 2015625DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 156gagtgatggt attagaaaag acctg 2515720DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 157taggacctca cctgtgtgga 2015822DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 158caacaaatga tagtggcaga gg 2215922DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 159tcctgaagag gtaaatgcca tg 2216026DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 160ccaagaaatg taagtttcag atgttt 2616121DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 161acaaaggagt cacttggagc a 2116225DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 162tttaccagga ctatcaattt ttgtg 2516321DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 163taaaccacgg ctgtttgaat t 2116422DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 164aaaggggttg tagaaaaatg ga 2216520DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 165catttggggg acattatgct 2016625DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 166ggagagattt gattaagtag ccaga 2516721DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 167gaatttgaaa caagcacagg g 2116820DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 168ttggggaaag aattttgcag 2016920DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 169ggtcagactg gtcacatcca 2017022DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 170gcaaatggtt taatctcctg gt 2217120DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 171acagaaagtc ccctcccatc 2017220DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 172ttggattaac cccctctttg 2017320DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 173attcctaccc ccaaacttgc 2017420DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 174atttgctaga cggcaccaga 2017520DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 175tatccttggc catgagctgt 2017622DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 176tttctttatc ctgctcccac tt 2217720DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 177actgggctga ggaatccttt 2017820DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 178ggcatcccat tattgttcca 2017920DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 179tacccacatg gagaaatgca 2018020DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 180tgaagactct cggtgtggtt 2018120DNAArtificial SequenceDescription of Artificial Sequence Synthetic primer 181gaattgaagg cctcgtctca 2018284480DNABos taurus 182aggagagact ccatcttgaa gcctgtcatc cgtcttaaag acaggatgtg aactgggccg 60gaaccctgct taagagtgag gaaacagttg ctagtgaaaa ccaggtctcc tggagacttc 120actccctaca gatggcaaac ggagattgta gttgtggtca ggctgcccct gttagattaa 180tcatggagac atcctccctt gatgtataat cattgttccc ccctcccggc cccacctccc 240ccgttaacct taattgtttg ttctcctagc acctacttgt aaaactcaat catatacaac 300aaaaagattg ttaacatgta accagtcacg tgtgtgtgtg tgtgtgtgtg tgtgtgtgtg 360tgtgtaaaac tgggcctctc aaaaacatca gggtccttgt tgggaactga ttccccttgg 420acctgctggc ataataaact gtactccagt cttgagtgtc ccctgaggtg tgttttgcaa 480ctcaggattc cacaacattt ccagaaggac atcagtgttg acctagacag gtgaagcaaa 540aatgtttgga gccaacagag atctaaccag tgaagtcact gaaccttgtt cacaaatcaa 600gggtagattc tttcaaggac caggtgacta ggaggcaagc gaccaaaggc aggactggtt 660acatatttcg tgacagtgtt ggtcgctcag tcgtgtccga ctctgtgcaa tcccatgggc 720tgtagccttt caggctcctc tgtccaaggg attcttcaag caagaatact ggagtgggtt 780gccataccct ccgccaggga atcttcccca cccagggact gaacctaggt ctctcgcatt 840gtaggcagat tctttaccat ctgagtcacc agctgggtcc tgtgcagctg tacaggtcgt 900acccccgtat ccggagggga aatactttca aagcaaacgc ggcaagttaa tgcagagcac 960gggaaaaagt agggcgccca ttcactgcat ctcaaggcct tccagcactg aacaagtagc 1020actgtgggtg gtgcctggcc ccaggtggtg actgaggctg ctgcctcgga ttccccaacc 1080aggtacaccc ggagcagctc gcatcctggc ttcataggca gagacgagaa tagcggtgtg 1140gggcgctctg ctcactctca ggaagggggc gagaggctgc gcccagaccc tgtaaccccc 1200gccccgcgcc cctccatccc ccgcccggag cccctgtatc cccggcccgg cgcccctccg 1260gcccctgctc cactggtcta gcggctgcgc ctcgggaggg cctggcggag ccccggacct 1320gcgccagaaa acggtccgaa cagctagctg cccttccggt cctccttttc cgctttgttt 1380cttctcggtt tccatccacc ctaagtcctt ttctcctctc ctctccccgc cccgcggtgt 1440caatctcccc ggattgacag agaacgtagc ctaaatacta aagctgagag aatcgcgcgc 1500ggaggcgctc gctggtcccg cctcctgccg gctttctttt ctctgtgcgc cccgggtggg 1560cttggcggaa ctggcctcta caccccgaca tcctccatcg actgccgggg gccgactgtt 1620tggaaagagg atggggctgg tggcggcggg gaagcgctca tctgcccggg aaaatagctg 1680gagaggagtg cgggattaga gctatgcccc tgatagtgtc cccgcaacca gcgagaccct 1740gtagttcctc ggtcctggag gtatgttctg ggcagcacaa cacagcaact gctatgtatt 1800aactgtcttt gcagataata ctgaagagat gaaaggactt gtctgaggtt tcagacaaat 1860cctcatcccc aggaactgcc ctgttcctag ctcttgctta aatggtgggc atgagtggct 1920atgtgtgtcc aaactgacac atttttgctg tttggatggc aggatcctga agagaaccat 1980tccttagcta gtcagagacc aaagtctata ctaaaggaag gatcagctct ctaactgtat 2040aatgggagga gctggttttg agagattgtg tcagctggca tggccatttc tagataatac 2100acacactttt gactttggag agaggagata cttccccaga gtgtgacagg caaatggagg 2160gaacagctgc ctctgccgtg ttgtgtgtgt gtgtgtgtgt gtgtgtgtgt gtgtgtgtgt 2220gtcctcagtc gcctctgact ctttaacacc ccatggattg tagcctacca gggttctctg 2280cccatggaat tttccaggca aggatactgg catgagttgc catttccttc tccaggggat 2340cttccagcct agggatagaa ccctcatctc ctgcgtctct tgcattggca ggtggattct 2400ttaccaccgc accacctggg aagccgcctc caccctatga gagtctcagt tccaacccat 2460ggctcgtttg ataggacttc tgcacaggcc taaactcctg caggtaacaa aatacaaaaa 2520gttactgcct aagggtgcag ctagggatta aaacacagcc ctattactgc aaatttttcc 2580acaacagaag tcaggtaagg ttaataagca cttatatatt aagaattagg tgggaaaata 2640tttcagaagg aactgagaat gctgcagttg ttcattgaaa gccaggagga ataatcggga 2700aatgtgtcag gctccctctg tccattctcc acatgctgat caccacacac tcatgtttgc 2760attctttcaa tctcacctcc cagataattt aaaacacttt agcattgcat aaaaaaaaaa 2820aaaaagccct tccttcctgg tctattccct gcctctactc ccttgtcatt ttttctaact 2880ttccttcttg aactttatcc cagcctgtgt acgttcttct ctctccctgt aacacaatcc 2940cacttctttc ccaggtaaac ttcaagttca gatgtcatgt cccatcggat gttttattct 3000gccattcctt cagtctaaat gtcccttcca tttagtcctc tgccatccaa tatttacttc 3060tattctaaca cctgttaccc tgtgtcagaa ctctttgttt ccttcccttt cttcaccctt 3120agggtgaatt gtttgagggc aggggctagg tctctttcct aaataatcct aacagcacag 3180taggcatttg gtaaagtttg gaatgcatga atgacatgct taaaatagag aagttattat 3240ctcattcctg aaccttatct tagtgcttga gtgtacaccg ttccaaaatg atgaatcatg 3300gaaagaataa aaatgcactg tgttactaag aaatgaagcc ttaaggtttc taaaattaca 3360accaaagtgg gcaggtgggc ccagcaccat tgtatgaaga tcttattcag tcagttctag 3420caagctagga tggcatggct gaggaagtac ggcagtggta cttgaagtaa gaaacaatga 3480taatgtaaga atatccaagt ctaagggttt ttgtaggtcc tgcaacgtct ttacactgtg 3540atatttccgt gatgctaaac ataggaacta aaaagcctct tgatgagggt gaaagaggag 3600agtgaaaaag ctggcttaaa actcaacatt cagaaaacta agatcaaaaa caaacaaaga 3660tcattgaatc tggttccatc acttcatggc agattgatgg ggaaaaagtg gaaacagtga 3720cagattttat tttcttgggc tccaaaatca ctgcatatga tgacagcagt catgaaatta 3780aaggcacttg ctccttggaa gaaaaacgat ggcaaatcta gacaatatat tcaaaagcag 3840agatatcact ttgatgaggg taagaggagg aaggtgtggc agaggatgag atggctggat 3900gacatcacca acttaatgga catgagtttg aacaaactcc gggagataat gaaggacagg 3960gaagcctgga gtgctgcagt taatgggtca cagagtcaga catgatttag cgactgaacg 4020acaataaaac ataatgagaa gcttgtctac tgccaaagcc taaaaccaag ttcattgaag 4080agaatccctg cctcaaggtt tcaatttgga aagtcagaga acagtagaat ttggttttct 4140aatagttaac ctcttacttt caaggtcaca cagtttatta ggtgttaatc cagaaattgt 4200tccaagctgt accccatggg gcttccccag tggctcagcg ggtaaagact cctgcaatgc 4260aggagacaca agagaggggg gttcgatccc tgagttggga agatcccctg gaggagggca 4320tggcaaccca ctccagtatt cttgcctgga gaatccgatg gacagaggat cccggcggtc 4380tacggtccat atggtcacaa aagagtcaga catgactgaa gtgactgagt gtatacccgt 4440aggtcactgt gcagtttttg aggacagggc ctaggtggtt ttactcagtc atgcacacac 4500acagtacctg ttgcagacct gccacagtgg gtactcagct tgctgaatga aggaagaaat 4560gaataaatgt gctctaccat aggggtgtag atgagaggga aaggcactgt catttctcca 4620aagatggaag gctttagaat ctgggggaaa ataaatattt actttgaaaa taaacttatc 4680aaagtaaagg caaaaaacta ttttagatgt cacaaagatc tatgttaagt tgctgaatca 4740gttgttacta ttttagagga tgatggaaac ttatcttctg aaatgttggc ttgtctgcct 4800aagaggggtc aaagcaaaat ggtccagtct ggagtttcct gaatcctgac ctccttacct 4860gaaaaactga gcagttattt ggcccagtta tttaacagat gactcagttt tgtcatttgt 4920aaaatgggga tgattatacc acatgggttg ttgagagaca ttaaatagtt aatacacaac 4980ctatgaagta atttgtatcc cattttctgc cactatttcc tatttctcta ggtgtcattt 5040tgcctttcac tgtggcataa aacatttctg ttttttctcg gtccacttct gtgctttttt 5100ccctctcact acctttctgc ttttttcttt tttactatct ctctccctaa ccaaattctt 5160cttttttttt tttttttcct ttggccatat gaggaatgtt agttccctga ccagggatgc 5220attcctctcc ctatgcagtg gaagcacagg atcttaacca ccagatggcc aggaaagtgc 5280caatttcttc ttaacgttct catagttttt cctcactcac ctaaaaaaat gactgagggc 5340tatgaacttc agtaaactta tagaataaga aagttaataa tgactattaa aacactattt 5400tcttttcccc aaactgattt ctcatctctg ccgtgcttat gcatactttt tttgtatttg 5460aaaatcagtg aatacgttca ggctaattta gctctgattt tcttcactta atataacttt 5520atactgaaag ggtcaggata tgtccttccc caatatgcca ctttggcatg aggattaatt 5580tgagctgaat gcaattaaga atcaacagat acagaaagaa gccttctcag catttccctt 5640atcttattaa aaagcagaaa cttttgagaa atgaggctgt cataaattcc ctcttcagga 5700tgggcttatt cctaggagag agataaaagt aaatataccg taaatctctc tgggagtttc 5760atggccatga agacagaaaa gaccacttgc attttcacaa acaaatatta tatcaaactt 5820tatctccagt ttattctcct aaaaatcctt ttgtctttcc tacagaaact cacttgttct 5880ttccatagaa gatttttctg catttccttt cttcccctac taagttaggt acataagctt 5940ctatctttaa ccagtgagct actagctatt

tccgtatgaa taagcccttt tttcctcctt 6000ttgtcttttg tcagcttaat tcagaggtcc ccagggagga aacctaagag ggcagagcaa 6060acatttttcc tcccatatgc catgatcagt gtagaccaca cggttgttat taatttttat 6120gactgtggtt catataccgc agtttgtcac attcctctct catggggcac attgattgat 6180tctgattttt ttactcttta aatatatcct tcctttatga cactttccct tgccttctct 6240acttcataga tatatacaaa catacacatg tgtaattatg taaatatata aaatttgctg 6300catttgttgt ctaaatcttc agtttttgag tcatcaggca gtgcttccct cttgagagtc 6360tctctttata gaggtgatca aggcaccagt cataaactat tgtacctaga tttcttaaac 6420tctaaatatt tattaacaac cataccaatg tgggaggcaa taaagagagg tggggttggt 6480tggttcagta aaaattattg cgttgatttg agtccctctt ctctcctaga gtttcttgtg 6540ctgccggttc aggacataaa aaacatgtat gaagaattta caagaaaaat ctgtcagaat 6600tactgctttt ctgctgtggt gtttggcttt aaaatttttt aaagcaccat ggaagcagat 6660ttggtgtttc aaagttctgc cacaagagtg attttaagta atgttcatag cctctgttta 6720tattatcgta tggtttataa ttatgactgt aagtctcagt taaatgatta ccatgtgaac 6780agcaccatac tgtgggacta caaaacctaa gatgtggtct ttaactctgg aggaccttat 6840aattgcaaag tgagaaacac aaactatgag ttctgaggta cttgtacata gtagtcattg 6900acagtcttaa taataaaagt atgcagcata ggatttttga ctctataaac aatactgtct 6960tgagtttgct tctaaacctt aaagaaaatt tggagcaact tttccatacc ctggaacaaa 7020ggaatagatc atcataaatt tgcatggatg gattctggag aattctgaag actccatcat 7080aaaccaacac aggttagaaa acgaaacaag ttttgcataa tatcaaaggt ccttccacca 7140ttttcaaata actgacctaa gcactgctgt ctgttacagc ctctcagagc actgaggaat 7200ggttaaagtc cagggaaaaa caagactgca aaaatatttg cctggggacc atcttcttga 7260actccccacc tcgataattt ggattagctt cctccctatt ccatgccatg gattctgatt 7320agaaaaaagt cttctctagt tgaaggactt cattgttctt tgagttagag gatgaggctg 7380gctgtttgaa acctttctca cttttcctat tccaaagtgt tcagtatcta ctcaaacaaa 7440attgggaatt aaactctatg tacatttaag ggatatacgt atttgtgaaa gataaaggag 7500gcctccaaga attagatagg atttttacta cacctcttca cctggacaca atgcttcctt 7560tataagaaat aagggatagt cagcggttct ttgcctttgt aaagaaatag ctagggattt 7620cacagaagtt cctaggaatg attagcttat tcccagttgc ttggaaaata ggtgatccag 7680gacaagataa tatgcattgt tagatagtgt gcccaatagg tgatccagga caagataata 7740tgcattgtta gatagtgtgc ccaagtcaat agaagggatt ccattcaaga agctgccttc 7800ccgtatattt tatcttattt aataacttta aaccaaagat gttcaaatct tatttcacag 7860aacccagtga gtccttaaac attttgttct gactttttgt ttgtggattg gtggatatct 7920tttattttaa aaatgcacaa atatattttt gtgacaattt gtgaattgat taatctattt 7980tatcaagttc ctactggtat actaggtaca atcctagaaa ctaaggctct gtcaatgaac 8040aaagccataa acattcatac ccccatagag cttatattct aatggaatca gaaatacaga 8100tataataagt aaggaaatta cataatatgt tagaaggtaa taagtgctag taacaaaaat 8160aagatatggc agatcaagaa tgctagtagg aggaattgca atttttagtt ggtcagggta 8220gtcctcatga gaagttacca tttgaggaaa aacttgaagg aagtgaaaga atgagctaaa 8280tagatgaata ggggaagaat tgcccagagc agctagggca ctggccagga agtgggtcag 8340tgtgtgtata tttgagctat aacggagata tgtctcgcta tattacaatt agtaaagggg 8400aacgtcagag taggggtgga agatacatat tgtaaaggtg tttggctttt actcttaaga 8460gaaataggaa aatagacgaa tacattgtga gaagtatttg aacaatagag atatgtattt 8520tcaaaacagt atctccactt cctaaaccta tacttcccag acattgctgc catttggggt 8580catatctttc taaaggcttt tctccatgat tacatgcata gatgggtaca aatagaaata 8640cacaattttg tttcgtgagg atatgtgtgt gtgtctctgt ctacatgtgt gcattttaac 8700ataaaaaaat aaggtcactc agttgtgtct gactctttgc gaccccatgg aatatacagt 8760ccatggaatt ctccaggcca gaatactgga gtgggtagcc attcccttct ccaggggatc 8820ttcccaaccc agggactgaa cccagatctc atgcattgca ggcggattct ttaccagctg 8880agccaccagg gaagcccagt gaacttatat tcactgggga ggtaggagac aggggacctc 8940tgggtgggac agtttcccag gtggtgcagt ggtaaagaac ccacctgcaa tgcaggagac 9000gcaggacacg tggattcaat ccctgggtca ggaagatccc ctggagaagg aaatggcagc 9060ccattccagt attcttgcct aggaaagccc atggaaagag gagcctggca ggctgtagtc 9120catgaggtga caaagagttg gccacaaccg agtgagcaca cacacagggc cagatatcag 9180gtgtttgtca agcagagtaa aattcaagct ttgttcttac ccagacactt caaggacaaa 9240gctagtggca aaagctgagc tctgctaaag taaagagata agatgcccgc tcctgaggtc 9300aaggaagact tccctgtcta tacatgtaca ggaaggcttc ttgggggtct aaaaagggag 9360gggtccccac cccataagtg tggacatgca tccataggcc tctgcagtgg gatctatctt 9420agaaaaatat tgtgctccgc aaggactctc ttggagaggg tcctaggacc aatcagatgt 9480gaagagagaa acaagatgat tggttaaata tatacaaaga cccggaagga ccgccctata 9540taagggattg gttaaatata tacaaagacc cggaaggacc gccctatata agggatttgc 9600agcaccttct tactgtgctc ctcttcgctc aggatgcctg ccctcctctc cgggtgtgta 9660tctctgccta gcttctgact tcctgcactc ctcatgagag aggatgcccg gaccctttct 9720ctctggatgt gtatctctgc cctgcttttg acataaatta acaattttca gtgtgctttc 9780tcatacattg tgttgtatct ctaataataa actttgcatg tgtttttaca gcttttgcct 9840tcttgaaata gtcttgcttt caaatcaggg aaaaccacag ggccattttg cttctagcct 9900ctagcccctg gcaatctaat ggctaggatt cctagttttc atccaggtta cccaggttca 9960attcttgggc agggaactaa gatctctctt caggaccact cactgctcct tcctccaaga 10020tcaatattct tgtgttaatt agcaacttgg tttttataat tgacgtgtct tggagacctt 10080tctttgtcat gatagtacac atatttctat ttcattcctt tttaactatt acataatagt 10140ctattgtaca catatgctac attttgttta accatacttt tattggtaaa tgtgtgtgtg 10200tgtgtgtgtg tttgtgtgtg tgtgtgctca gttgcttggt cgtgtctgac tctttgtgac 10260cccatggtct gtagcccacc aggctcctct gtccatggca ttttcccagc aaaaattctg 10320gaatatttaa gttctaattt gcctcgtagc ttctttcctt tccatgttga attactattg 10380tcttaatatt acatttaata acataaaatt acgtgttgca tgaaacacgg gaggaaactt 10440aaaaattaaa tttgtgttac cttctctcag aaaagcaatg tttcttaaat tagaatcatt 10500tagacttacc ttaatggaaa caatggcttc atttacttct tcatcaagga cttatgtaat 10560gtttgttgtt ctggaacaaa tggcattatg agagtttgag cccaattatt ctgagctttg 10620cctccctcgt ggctcaggtg ttaaagaatc caactacaat gcgggagacc caggttcgat 10680ccctgagtcg ggaagatccc ctggagaagg gaatggcaac ccactccagt atccttgcct 10740aggaaatccc atggacagag gagcctggca ggctacagtc catggggttg caaagagtca 10800gacacaactg agtgactaac actttgacat ttcgacttgc tatgagttca ctcagtcacc 10860ttaactgagt tgaccatggg tctttatcag tagggagtaa ggatccatta tccacgatcc 10920gcaatccatt gactgcctga cctgtgctta ggtatgcacc acagagagga aaattagcac 10980ttgattccaa agaggacttc tggcaaggtt gatttagtaa tcagcatttc agggatctct 11040taatattgtt atgtcaactc taaggaatgc attattgtta ccgcaggttt atattgagaa 11100ggcttggatt aaaaataaaa aataaaaact tgtcatggct ggtaaagaat ggagccagaa 11160gctcttagta tatgtcatat tttgtcactt gacatgcttc atgttttcag aatatgaaat 11220gcctgcttaa tacagcctta acttcctatt atacttctgg attaggaaag agaacattag 11280aaggatggtg tgttccaaat aaaacttctc tcttcaaatc cctagtgggc ttttgcaatg 11340caacctaaca ctgtctgtgc ttggtttctt tcacttcctt tctgaattag tgttatcttc 11400ctgcttgcac acttttgcta gaaagcagag cttgtaaaag gagaccacat tatgtcagag 11460gtagcagaag acaggaagtt tacacagaat aaaactgttt gctcaaattg ctttaattag 11520tccttattaa agttgccgtt agtgtcagag atgctgtcgt cgggattcta ttgcacaaaa 11580aggatatctc tgacacgtga atttttcctt ttcccatctc cttgccagga acaccagaaa 11640aagatctcag actggttaga agcattaggt tgtcagtttg aatccgagtg atggagaagg 11700aactgtggtt aataaccagc taacagtgga gaaaaaagga agtcaattag atatgagaac 11760tggacatttt cccaagacta gcttgtttgg aaagcctcag tctttctggt agttgcaggg 11820ggctgataag gttcctctct ggtactttct cttgcgcctt gaaagctggc aggaagggaa 11880gctcctggac tgttaataga tgcggctctt gcttgaagtt tctatgagaa agccgacaag 11940agtcgaaatc ttctctgtat ccccactgcc tctctacaga ggtttgggct gttttccttc 12000caacatcaca gatcataact gaggtgagtt gtctgttttt gtttttcaaa tgttcgtact 12060gagtggagag tcttgattct ttttcggtat gttctttaac gagtgtgtca ttttaaaatg 12120gtacttctca aacttgaatg tgcatatgaa cctgaagatc ttgtttaaaa gcagcagaat 12180tcagtggatc tagggtggct tgagattctg catttctgag aagtgcccag atgacctcag 12240tgctgctggc ccatgaaaca gagtaataat ggcttaagac cttctaggtt tattgctctg 12300tagggcaagc agttgggaga tgttggcaga atcaaggtgt ctggctgagc acatgatttg 12360tgtagagcgc ctggaaggaa aatgagacac tgttagtgtc cagattgact tgctttgatg 12420gactagctca gagtttgggg ggttgtgtta aatagttcct agatatggta agccatgtca 12480ccccaagtga gacagaatgt tggtctgctc cttagattgc atggaccact ttgagcagag 12540ccagaaatat ttttgcagtt tggggaatag tagtcatatc atgccttaac tgggataact 12600agtggtcact tgaatatttc agcttcgatt gaaaattatg catctagaaa aataactgat 12660gtcgtcctcc tcccatttgg aggttaaggt tgtgaggcat atacatctat gatatgattt 12720aaagtcaatt tgagcaagga atataattga tatgttttat catcttgtga gagtgttcct 12780ctttaaattg aatagctccc tgccctaaat ggtacgtgtt tatctgaaag ttgcttttaa 12840tccaaaagtg ccaagccaag aaggaaaaaa ataaataata ggaagtgtgc cttgctgagg 12900gtagaaaaca gtagtgggag aaaaacaggg aaagaaagga aagtgatggc cgtggaagtc 12960aagtttgcaa aatgaataaa agaaacccca gcctgaaaat aggattcttt ttccgacatg 13020catgggagtt tttctagagt ggtagcttgc gtcttcctca gctagagaaa tgtgcttaag 13080atagaatagg caaattaaaa tttgtgttgt tttaaagtac atgctgaaac tatttgtcat 13140cgagtcaagg gtagtcagtg gaatcaaagg tcagtggcat gaacagacct ggtgaggccc 13200agtatgaatc catttaaact atctcagaca gaggggaatt gcttctgttt gaaataagct 13260tcagataact ttcctttcta ttatggagta taacagagga gttacataca agtttaacaa 13320cctatatggc tactgttctg accaatcaga acagtagcta ctgtaaacag cccatataat 13380gggaaaccac ttgtaggcag taagaagtac atggggttga acatcagcct aagctaggtt 13440ttcatgaact tttattgggg ggagaaattg taaagctaca aatgagttca gagacataca 13500acctataaca tatattcaga gttcagaaac atatattcct actagcatct gtcagcacgt 13560tagccccatt ctctccagtg aggccacttc cctgtctttc caagctttca ttctggctgt 13620gtatctcctg caaccttcac taaagaaagt agggttctct taagtcattg taggtgactc 13680aaaagtccta tccattccct cagtagaggg aaaatgccta tactcttttg taaagagata 13740ctgcagaaaa tgaaatgatc actacgctat ccttccatac aaagcatggt cacatacttt 13800accttgcttg atttttcaca actatcatgg ggatatgtca tgtcaagggg atttttgttt 13860ttacctgtca tggaggaaaa tgaagttctt gttaagcgat ttgtgaggag gcacacagcc 13920ggttagtggg tgtattgaaa ttaaactcgc ttgtttgctc taagttcagg tttatcctgt 13980acttttcttc atcttcccaa gcatcccctt aagacctatg acagccctta ttgttctcta 14040ctagagttca ttggctttcc ctgtcaaaat ttgaaacctt tgtgccttaa aaagagtcct 14100ttttctactt gttttgtcaa aatttttagt gtgtttgtca caacctttat atccattaaa 14160acctttagtt cccaggggta aacattttag aggagggcct ctaaacttta ttttgactga 14220aaattacctg gggagtttgc taaaactcag atttctgggt cctaacttga gagatctgat 14280tcagtagatc taggactagg cctaagaatt cacataccta aaagctgcca ggtgatttta 14340acgctaccaa ccagagagca tgctttgaga ctacaggcat agcttcagtc agtatcttga 14400aataacacat ttctggttta gattccacgt atgtgatatc atatggtgtt tgtctttctc 14460tttctgactt atttcactta gtataataat ctctaggttc atctatgtag ctgcagatga 14520cattatttca ttctttttta tggttgagta gtagtccatg gtatatgtgt accacatctt 14580ctttatgtct tcatctggac acttaggttg tttccatgtc ttggctattg tgaatagtgc 14640tgctaggggt gcatgtttct ttttagatta tagttttgtc tgaatatatg cctaagagtg 14700tccgactctt tttgacccca tgaactgtag ctcaccagat cctctgtctg tgggatttcc 14760cagacaagaa tactggagtg ggttaccatt tccttctcca gcagatcttc ctgacccagg 14820gatcaaaccc tcacctctta catctcttgc attggcagga aggttctttc ccactagcgc 14880cacctgggaa gctccaatgg tggggggtgt aaaaaaaaat cagatgatca agaggatata 14940ttaggaaatg tcaggaagcc tccttctcca ggtatcccat caatgggtca atatacaaag 15000tagccacagc agcatagaag aaagtgtgag ctaataataa agttttcact tccctaagtg 15060gctgctgttc ttgttgttca gttgctaagt tgtgtctgac tcttggtgac cccatggact 15120gtagcccacc agggctcctc tgtccatggg attttccagg caagaatact ggagtgggta 15180gccattccct tctccaggga tcttcccaac ctagggatca aacccagttc ttccacattg 15240caggcagatt ctttcctggc tgagccacca gggaaaccca cagcattggg tacatgcctt 15300aaaccagcag ccagtaatac agagccagaa cgtgtggctg tggggaccac tgagagaaat 15360aattcctcca tccacactgg ctgcctaagg tgcttctctc acatgctaga catactcctg 15420cctccattcc ctttgcctaa atgttttcct ctggtctatt taaaattgca aaaccttcct 15480ttaccttcta gactactgct tccttcccca tgtgcctctc tccaggactt ctcacctcta 15540acatactaga ctatctagat tgagttactg tttattatct gtcttcttcc aagaccaggg 15600ttctgtttca ttcactgtcc tatcctcaat atctaacgtt gtgcctaaaa catgccttgt 15660tggtgtttag tcgctaagtc gtatccgact cttttgtgac tccgtggact atagcctgcc 15720aggctcctct gtccatggga ttttgcaggc aagaatactg gagttgacta ccaattcctt 15780ctctagggga tctttctgac cagggattga acccatgtct cctgcattgg caggcgagtt 15840cttaccactg agccaactgg gaagcctgtg cctgaaacat agtaggtaga ccaactacat 15900aaataccatt aatgttcttg gagaagagta aacaaatgtc tctagtgtct ctagagaagt 15960tcaaggtagg cggagatcag catgctggga aaatcaccta tgtgtatact gaattcactg 16020agaggtaaaa tagaagtagt gtttgttaga gacagcaata gtgtctcagt tactgataaa 16080tgggaaaaga ggtcacagag tccaaagata gcagcagcca tggaaagtag ccagtgatga 16140agtctggtga cctgaaactc aaagctgaga tttggaagaa gtgagtagat gatccactct 16200gggatgttca cattttgcag tggtttcttc tctcaaaata aacaagatca gaatgtgaaa 16260ttttccatcg taacctcaag gaaagcactt ttgcttctgt agtgactttt tatgctttaa 16320tcacaagagg gcaccagagt ctagcaaaag atcacttttt tccttcatct aaagctgcgt 16380gcgtgctctg ttgttcagtc gtgtcagaca ctttgcaacc ccatggactg tagcctgcca 16440ggctcctgtc catggggatt cttcaggcaa gaatactgga gtgggctgcc atttcctact 16500caggggatct tcctgatcca gggatagaac ctgcatctcc tgtgtctcct gcattggcaa 16560gcggattctt taccactgag ccacctggga ataccctatc taaagctttt tgtttttctg 16620ttgctaaatc cgactctgca accccatgga ctgcagtagg gcaggctcct ctaaccttca 16680ctatgttcca gagtttgctt gaattcatgt ccattgagtt ggtgatgcta actatctcaa 16740cctctcgtcg ccttctgctt ttgccttcag tctttcccag catcagggtc tttttttttt 16800ttaatgaagt tggctcttca cattaggtgg cctttaatgg agctttagtt tcagcatcag 16860tccttccaat gaatattcat tgaagaaggg gtgcaattaa taattacttg gagccatatg 16920tgtaaacagg gacttttcct atgcaaactg ggacaaaagc cctgcacaat atgagcatga 16980ccaatttaat tatggggtag ctctacacta agggctctta ttctcaaaat cactacaaat 17040gcttatgaca cactaataga ttagaaagaa aagtgaccaa acttgctttt atctcgaagc 17100aaagatcaag aaaggctttc ccctgtaccc tacttcccta attatcttta ttgcctatcc 17160tatttttctc cttagtgtga tcttagtttg attataccct caagtaagag aattgtttta 17220tccaaaatta tctcaattat ttgaaagtgg tccaaagtgt tctctaaatt ctcacagttc 17280ttttctgcat atctcttatc ttctatacta tatattaatt atttatatac ttgttttatt 17340cttttgaaca tgacttacat gctggggatg tgaaaaaata ggttttgaaa atggcttttt 17400ttttttcctt ctagttttat tgagatacaa ttgatataac ttagcactgt gtaagtttga 17460agtatacagc ataatgattt ggttgtacat catgaagtga ttatcacaat aagtttagtc 17520agtatccatc atctcactta tgcagaaaat taaaagagtc ctgttattag cataaattca 17580aagtatggtt ggaaggagat tgtggtgaat aacaaaagaa gctcctatga gtcttatcac 17640tgaataaatt acgagagttc taggggactt ccctggtggt ccagtggtta agactcgata 17700cttcgaatgc agaggacact tgtcagggaa ttaagatccc atgcaccacg cagtatagcc 17760aaaaacttaa aaaagtaaag agttttagaa gctgtgtcgg gaaccaaggg caaagaccaa 17820atatgtattt cttactgtat ttttttatgt cgctcttgaa aacatactat cagcttatac 17880tagctagcca ccagagaatt tgaggatgag ggtagttgcc tgagaaacca accatgggat 17940tacagagttg aactttcagt ctcaacctcc aggaggatag aaggctgaaa gttgggttaa 18000tcagtaactg ttgacaattg atttaatcga tcatgcctac gtaacggaac ttccctaaaa 18060ccccctaatt taagggagag ttcggagagt ttctggattg gtgtacacat caaggggctg 18120agacgtgggg gtgcagccag agactgcatg aaactctacg ctgcttcttc tgtcttggcc 18180ctatggatct cttctatttg gctgttcctg agttgtatcc tttataatac accagtaagt 18240aaaccgtttt cccaatttct gtgagttgtt ctaacaaatt atcacacttg aggagggaat 18300ggtgggaaca cctgatttgt agctggaaac ctgggacttg cagctggtga actggggcag 18360ttttgtagga ctgattcttt tttttttttt tttttaaact ttacaaattg tgttagtttt 18420gccaaatatc aaaatgaatc caccacaggt atacatgtgt tccccatcct gaaccctcct 18480ccctcctccc tctccatacc atccctctgg gtcgtcccag tgcactagcc ccaagcatcc 18540agtatcgtgc atcgaacctg gactggcaac tcgtttcata catgatatta tgcatgtttc 18600aatgccattc tcccaaatct tcccaccctc tccctctgca acagagtcca aaaaatatgg 18660aacgcttcac aaatttgcgt gtcatccttg tgcaggggcc atgctaatct tctctgtatc 18720gttccatttt tagtatatgt gctgctgaag cgagcactgt aggactgatt cttactctgt 18780gttctgttca gttcagttca gttcagttgc tcagtcgtgt ccgactcttt gcgaccccat 18840ggactgcagc acgccaggcc tccctgtcca tcaccaactc ctggagtttg ctcaaactca 18900tgtccattga gtcagtgatg ccatccaacc atcttatcct ctgttgtccc cttctcctcc 18960caccttcagt cttttccagc attagggtct tttccaatga gtcagttctt tgcatcaggt 19020ggccaaagta ttgcagtttc agctttaaca tcagtccttc caatgaatat tcaggactga 19080tctcctttag gatggactgg tttgatctcc ttgcagtcca agggactctc aggagtctcc 19140tccaacacca cagttcaaaa gcatcaattc ttcagcgctc agctttcttt atagtccaac 19200tctcacatct atacatgact actggaaaaa ccaaagcttt gactagacag acctttgttg 19260gcaaagtaat gtctctgctt tttaatatgc tgtctaggtt ggtcataact ttccttccaa 19320ggagtaagtt tcttttaatt tcatggctgc tgtcaccagc tgcagtgatt ttcaagcccc 19380tcaaaataaa gtatattgtt tcatctatct accatgaagt gatgggactg gatcatgatc 19440ttagttttct gaatgttgag ctataagcca accatttcca ctctcctctt ttactttcat 19500caagaggctt tttatttctt ctttgctttc tgctataaag gtggtgtcat ctgcatatct 19560gaggttattg atatttctcc cagcaatatt gattccagct tgtgcttcat ccagcctagt 19620attttacttg aagtactcta catataagtt aagtaagcca gggtgacaat atacagcctt 19680gacatacacc tttcccaatt tggaaccagt ctgttgttcc atgtccagtt ctgttgcttc 19740ctgacctgca tacagatttc tcaggaggca ggtgaggtgg tctagtattc ccatctcttt 19800aagaatgttc cacaatttgt tgtaatccat acagtcaaag gctttagaat agccaataaa 19860gaagaaatag atgtttttct ggaactgtct tgctttttct atgatccaac tagacagatg 19920ttggcaattt gatctctggt tcctctgcct tttctaaatc cagctcgaac atctggaagt 19980tctcggttta tgtactgttg aagcctggct tggagaattt tgagcattgc tttgctagcg 20040tgtaagatga gtgcgattgt gtggtagttt gagcattatt tggcattgcc ttttttgggg 20100attggaatga aaactgacct tttccagtcc gtgcccactg ctgagttttc caaatttgct 20160ggcatattga gtgcagcact ttcacagcat catctttcag gatttgaaat agctcaactg 20220gaatttcatc acctccacta gctttgttca tagtgatgct ttctaaggcc cacttgactt 20280cacattccaa gatgtctggc tctaggtgag tgatcacacc atcgtgatta tctgggtcgt 20340gaagatcttt tatgtatagt tcttctgtgt attcttacca cctcttctta atatcttctg 20400cttctgttag gtccatacca tttctgtcct ttattgagcc catctttgca tgaaatgttc 20460ccttggtatc tttgattttc ctgaagagat ctctagtctt tcccattcta ttgttttcct 20520cgatttcttt gcattgattg cttaggaagg ctttcttatc tctccttgct actctttgga 20580actctgcgat cagatgaata tatctttcat tttctccttt tcctttcact tctcttcttt 20640tcacagctat ttgtaaggcc ttgtcagact accattttgc ctttttgcat ttgtttttct 20700tggggatggt cttgatcact gcctcctgta caatgtccat agttctgtcc atagttcttc 20760agttctccgt gtccctctgt ctaccagatc taatcccttg aatctattca tcatctccag 20820tgtatgtaca taagggattt gatttaggtc atacctgaat ggctcagtgg ttttccctac 20880tttcttcaat ttaagtctga attttgcaat aagtaactca tgatctgagc cacagtcagc 20940tcctggtttt gtttttgctc attgtataga ggttctccat cttcagctgc aaagaatata 21000atcagtctga ttttggtatt gaccgtctgg

tgatttccat gtgtagagtc atctcttgtg 21060ttttggaaga gggtgtttac catgacaagt gcattctctt gggattattc attcaaaatt 21120gcacacaata tggcctccat ttcaggtatg cagggctggt tcaacatttg aactaaattt 21180ttgtaatctg tcacattgac aggccacagg aaaaaaaata cgtgatcata tcaaaagatg 21240ataaaaaaat tgctaaaatg cagtatggat tcatgattaa ggactcttgt caaaccagga 21300atagaggagg actccctcaa cttggtaaag aaatctacaa aaagcctaca gtcaacttca 21360tacttctggt aagaaaagag ctttctcact aagatcagga gcaaggcaag gatgatctct 21420ctcacacttt caagatcaca ctggaagtcc tagcgatgca ataagacaag aagtcatggc 21480atttagggag ggataaaaca gttttgggtt gcaaatcaca taattgtcta tgtagaaaat 21540ccaaacaaat aaacaatagc aacaacaaca acaacacaat aaaaactaga actagtaaat 21600gatatagcaa ggctgcagaa caatgttaat atacaaaagt caaccacttt cctatatact 21660agcggtgaac attaaagacg tagtaccatt tacgttagat ccccaaaagt gaaattgttg 21720ttgttttact ctcaaagtcg tgtccaactc ttggaaccct tggactttag ccctccaggc 21780tcctctgtcc atcagatttt tcagggaaga atattgaggt aggttgctat ttccttctcc 21840agggtatctt cctgacccag ggttcgaacc cacatctctt gcacctcctg tactggcagg 21900cagattcttt atcatggtac cacttgggaa tctttataga ttaccaagaa atactttgtt 21960ttggggccag aaagccctaa agcagcagct agaccaaaag aatttctgtt cctgaaaaga 22020gaatataact gaaataagat aattacatat ttccttaatc actttgcaga gcttctattt 22080ttctatcatt ttcttctctt caagtaggaa aggattgttt gtttctgaaa ggcccaacat 22140actctaccta gaaagaattc aagcaagcca gtcctctgct gcaagaataa caggtattga 22200ttatatttct cagtgtacca tttgggtaca aaggatgatt ttgctataga tggtcaggaa 22260tcagcagtgt gagcatgaag ttgttcagcc acagttgcca catgtatcat gagtctgcag 22320tagttttgtt acatcttcag taccttttag gttctggatc tgttggcctc tttggcagaa 22380caagaaagtg acattttatt gtatttgttc tgctgcctac aaattaaggg ggtgattgac 22440agtgttttga aggaatagag gactttgttt gcttttggtg aaaaactttt tattctctcc 22500ataatagaat gaataattgc atggttttag aggattagga tgctgatagg aatatttgat 22560ttcataattt taagagtagt tggtgctata tggaaataag cttgaaatcc agatcttaag 22620ctgctataaa atttgtcagt taaatacaga atatgtttgt gatttcatgg aacaggaagg 22680ccaggctggc ctaaacagtg ctactcagct tcttaagagt gctgccagtt ctttgttgtg 22740gctttgtttt cttaaaggtg cttcctcttt ggccaggggc tcttcaccct ttcctgaagc 22800acgtctacca gttgggacac attaggaaat ggcccccaaa tctgtttcct tcaacttgca 22860ctggcagaga accagacagc ctgtcccctt tcctgaaaca caatcaccaa agttgtttgt 22920gtcttgggct cttttctaca aagtcttgaa aaatcttccc gagacctcag cagattgcaa 22980tataccagtt tatcgctgtg tgcattatcc ctctagatat gagttgcttg actctctctg 23040agctttgttt ggcaaaacca agattctaat attaaaatac ataaacatta aaccttttgg 23100gcgtgcattc caattacatt ttgagttgca aatgttcttt tctctcttgg aaaagtaggg 23160gtctaaactt ttcttttcac actaccttct gatatacatg ctaattccaa ctcatttggt 23220ataaaaagaa aatatgaaaa tataaacaat gcacagatac atacttgatt ctgaaaattt 23280actcccctcc ttcactttca caaacatact cttatctttc ctttggatgt gataatctat 23340cccatcactt cttcctttac aatgcttaag aaatatgact tagtttagcc ctttattact 23400ttattttggg ctgttttcta gctactgtat tctctgccaa caatgctcac tcctttaatc 23460caacctaaac cctcctacac cttatcccta gtataatctt tattccagag ccaccaaact 23520atttcaccta tcattactgt tgaaaaacta ttcattgttc tccctgtgga aagaatcaag 23580tccaaatttt tgagcctgag aaacatggca tcacaacctg gggcttagag gctgttcccc 23640actcttcttt ttaaaaaata tttatttatt tggctgcgag aggtcttaat tgtggcatgt 23700ggctttcagt tccttgacca aggatggaac tcgagccacc tgccttggga gcatggagtc 23760ttagccactg gaccaccaga gaagtccttc cctctcttct tttttaaaga tctgggctgc 23820aatgcgagag agttaacatg catctcacta tcatctctgt tattttctta tcatctcact 23880ttcatcatct tttggcacac tcttacttct cagacctttc cccattctta catcttcaaa 23940tctaatgtat ttttcaaggc caagattttt aagacgagct gcctccgtga aagcttttct 24000gacccctgta gcttgcagcc atctcttact ttgagatctt aatgcttaat ctcacttcca 24060ttaatttggc cacttttcac ttactttctc ttgtatgtct tcagaagcac tgtctcatat 24120tatcacttca ctttgggatg cttttatctt gtcccctcaa ctaaatcatt agctccttca 24180ttcatttatt agtatttact gtgtttactg ccgtgctgtg cttagtcact cagtcatgtc 24240tgactctttg caaccccatg gactctagca gtgtcaggca tgatgctcta gtggagactc 24300ctgccacact cttcatcacc caatggggaa atctgtcaaa ggttttaaag tatattaaaa 24360ggataatttt tattaactta tcctgggtct ttaacaccat ggagttacca gctattacat 24420gaggccagtt ggactcccta cctactggtg cttttataaa agttgtattt taatatcacc 24480attagaagca gattctgtaa gtgaggtggt gtaatgtggt taactagtaa gtggtataaa 24540caaggctgga tcctaggctc ctttttaacc ggaatctaag tgacatgaaa ctgtggttga 24600tttgaacaaa tgctcttctt ccactgagac caggacaagc agcctgctat gggctgatga 24660gatatactaa atatgaacta ttttgatccc ctcaagggac ttttggggag gggggctgaa 24720agacctcttc aaaagtttac tcgagtttta gaaattaata tttggcgatc aaagttgtaa 24780attcaaacct ctagttttcc ttaagtctat aaattcaatt taccaatgct cttgctctat 24840ttataagtct agcagatttt attatttact tctaatagat ctttcaatgg tgtttgatct 24900aatttataaa cttagttaat ttaacacttc caaatacttt gtatgtagag gaaaaatatt 24960caatttctct agtgtgttgg gagaccccta gactaccgtc accttcagat tcactggaag 25020gatttataga actcaatgta taggtctact cgtagctaag atttattaca ggaacatagt 25080aaagatacac agatagtaag ggaaagacaa aggccgagtc tggaggacgc catctataag 25140ctctcttatg cgtttctgct cagaatacat gctattcccc cagcaacaga aactctgcaa 25200catgtgtgca gtatttttta aatgttaatt ttattttgga gtatagttta tttacaatgt 25260ttcatttgtt ttatgtatgt ggcaaaatga ttcagttact catgtacata taatccattc 25320attttaagat ttttttccca ggtaggttat ttcagagtat tgagtagagt tccccatgct 25380gtgcagtagg tccttgttct ggtgtgcagt attttggcct ggggaaacca ctagggaaaa 25440actagagccc aaggtttttc ttgggagctg agtatgtagg cattcatgct ctgcctagca 25500tgaaccagaa ttccatactc ccagaaggtg agcaggcatt ctgcataaac catattgctt 25560gcacaaccag tttaggcaaa gtgaaccatc cttatcagtt aactgttgca tgagaatact 25620cggtgactta acttccaaat cccaaccaag ggccaatctt gagagcaggc ctttctaagg 25680atagcagact cagacctgct gtgttacttc tattttctaa tttaacaaac taagttttcc 25740caattgctca aataatgaat atgaagcaaa taattgaaat tataaatacg ataaactgta 25800gttcttttaa atatcctatt attttctaca aacttagtag gatttcaact ttaaatcaaa 25860agcctaaatc acttatttaa ttacatactt gaaattggac agacaagatt gatcttatac 25920tctaatgggt caaattctat taaataatgt aaatatataa aatttctttt tttatgtata 25980aacaagacac aaaaattctt taatatcaaa gtattaacat agatctgatt atcttaaaca 26040tttctatgat tactcccaat ccttcctaga atgaaaaatg ctttaacact aaggaaacta 26100tatcactctt aacactaagc tagtaaggta gcctgacctg gaactggaga tttctgcaga 26160ggttgactcc ttgccctgac catgaatcgt agttgattag gtaactttaa aatgagttat 26220tatcatgtcc ctgaatttag gttatatatt agctaattct tctgattgct gactgaagtc 26280tacaatttac cctaggttaa gcattgactg gaaaaggctt tttaaaaaaa aaaattgtgg 26340gagagagaga ccttaatgta attgttattt tggtctaaat ttaaagcttt ttgaacttaa 26400aggaattctt cattctttca tattgttgct atcttttaag acaacagttt tttagaatat 26460ttattagaat actgagagtc agttcctagg caggttgata agaagtccgg gaggaggaga 26520aaagggtctg ggactctcaa ggagaaaagg gcaaatgttt ttttctatat gtcttagtca 26580atataacaat gtatcatgct caaaagacat atttctcctt aataagaacc ttctgactaa 26640tctttatctt aaaatgtgta ttatggaagt gggtctggta agatctttct attgttagtt 26700ctaatcctgt catcttaaaa tgtaaattgt gggagtgggt ctagtaagat ctttacaacc 26760ttgaaacatt cttttgattt attgaaaaag tatataactc ccttttctta gactagcaag 26820tggggcactc tccatcaccc ttttgatgtc tgtgtcagaa gctttctctg tccctttttc 26880actttaataa aactctgcta cacaatgctc ttgagtgatc aagcccggtc cctggtccca 26940aagctaaatc atctttggag atcgtgaatc cgtcatcgtt caccatgagc tatcaatact 27000ggatatgtgt tatggtttta cctatgtagt cacaactttc aaagtaattt ttcccctaat 27060tttttaatat attaaaaaaa agaaaacagt tgtaggttca cagcaaaatt gaatggaaga 27120tagacagatt ttccatatat cctctgctca ctaccccaaa cgtactctcg tccattatca 27180atagccccca ccagagtggt tcatttgttc caatcagtga acctacacgg attcatcgtc 27240tccccaagtc catcgtttac attagggttt actcttggtg gtgtacattt tatgtgtcca 27300tagactctga caaacgcagc catcactgta gggtcacaca gaaaggttgc cctgccctaa 27360aaatcctctg tgctccacat tcttccctgt ctcactgcac ctggcaacca ctgacttttt 27420actgtctgca cacttttacc tttccctgag tgtcatgtag ttggaatcat acagtatgta 27480gcctttacat agtggcttct ttgacttagt aatatgcatt gaagtttcct ccttgtcttt 27540tcatggtttg atagctcctt tctttttgac actgaataat atttcattgt ccagttgtac 27600cacagtttat ttatccgtta accaattgaa ggatatcttg gttgcttcca ggttttgaca 27660gttaataact acatctgctc taatcatctg tgttcgagtt ttggtgagga cttagctttt 27720cagctcattt gggtaaatac tgaggaatgt gattgctaga tctggtggta agggtatgtt 27780taattttata agaaactgtg acagtcttcc aaagtggctg tattgatgtg aatttccacc 27840agcaatgaat gaaagttcct gtacagcatt tgatattgtt ttagagtttg actttttttt 27900ttttttttgg ccacctgatg tgagcaggat cttagttccc tgaccaggga ttgaaaccag 27960tccctggcag tgaaagagct gagtcccaac cactggactg ctagagaatg tgctggagtt 28020tggccttttt aataggtgtg taacggtatc tcattcttgt tttaatttgc acttccataa 28080tgacatgatg tagaacatct cttcatatgc ttatttgctg cctgtgtaaa tatcctcttt 28140ggtgagatgt ttgttcaggt gtttggtcca ttttttaatg tggtttgttc tcttttttgt 28200tgttgttgtt gttttgttgt tgttttgttg ttgttgttgc taagttatct ctgactcttt 28260tgcaactcca tggactatag cccgccaggc tcctctgtcc atggggtttc ccaggcaaga 28320atactggagt gggttgctat gaccttcttc agggaatctt cctgacttag ggatcaaacc 28380tgcatctcct gcattacaag tttgttgtct tagtattgag ttttaagagt tctttagtaa 28440gatgctcttt tcctatggcc tctttcaaga ttgttttctt tgtctttgat tttctgcagt 28500ttgaatatga catgtccagg tgtagtttac ttgacattta ttctccctgg tgttctctga 28560gcttcttgtg gtttgtgatg aatggtttta aatgccaatt tctgtcctca acagtgatgg 28620caaacacatt ttttttttga tgtgtttcta tgtctgaatt ggttaccaaa tgattaattg 28680atgctcaagc agcaataatt agtacttggt agtattgggg aaggggaaat ttcttgagtt 28740ctttttactg gtctaataac tgaattgaca caagacagat taacaagaga ataaaacaat 28800ttaatttgta tgcatgaagg gtctctagaa atgggaccgc ctgaagcaac tgaagcaggc 28860tgttgatata taaagaccaa gaaataacta tttgcaaaga tttaacaaaa caattgggtt 28920tatgcatggc gtatcagatt aatgaagaaa taacaaagtt tacacagctt tcttagcctc 28980aaattcccca actctcttga caagactgct ttctattctc ctggtatagg gagggaacgt 29040tcatggggga gattcatttc ccactgaagg gagaaagagg agggtctgag gttttttaaa 29100atattttttc ccaccagctg tttttcatgg aactttaatt cagtgtaatc atcatgccat 29160tgaggcatat tctgtggtag cctgccctag atcccagtac taaactgtac tgaggtaaga 29220acaacttagt taagatgctg gcttcacttt gcaggctcag aaattggatc ttttcactgt 29280gtacttatgc taggttggaa ctcatagttg ctgattcatg acagttaaac tcaagaagct 29340gaggtgatca gcttgaatca gaatgataat taattgattc tcttaaggga cactccttcc 29400tatgacagaa gtactcaggt cacctataca gtcacttctg ggtatgagag taaagataag 29460tgtatacgct tgagagatgt tttatccaag taatggaaaa tgcttgtgtc agctatctca 29520acctatgaca gaggaaaaca tctttaggaa ctgggtgttt catgttgccc tgctctaacg 29580ttgaaaatgt agttaaatat tctcaaactc taataattgt gactagtaac gataaagaca 29640tggcttatca tttatcatca gttcagttca gtcgctcagt catgtctgac tctttgcaac 29700cccatgaatc acagcatacc aggcctccct gtccatcacc aactcccgga gttcatccaa 29760actcatgtgc atcgagtcgg tgatgccatc cagccatctc atcctctgtc gtccccttct 29820cctcctgccc ccaatccctc ccagggtctt ttccaatgag tcaactcttt gcatgaggtg 29880gccaaagtac tggagtttca gccttagcat cagtccttcc aatgaacacc caggactggt 29940ctcctttaga atggactggt tggatctcct tgcagtccaa gggactctca agagccttct 30000tcagcaccac atttcaaaag catcaattct tcgacgctca gctttcttca cagtccaact 30060ctcacatcca tacatgacca ctggaaaaac catagccttg actagatgga cctttgttgg 30120caaagtaatg tctctgcttt ttaatatgca gtctaggttg gtcataactt tccttccaag 30180gagtaagcgt cttttaattt catggctgca gtcaccattt gcagggattt tggagcccag 30240aaaaataaag tcagccactg tttcccctgt ttccccatct atttgccatg aagtgatggg 30300actggatgcc atgatcttcg ttttctgaat gttgagcttt aagccaactt tttcactctc 30360ctctttccct ttcatcaaga ggctttttag ttcctcttca ctttctgcca taagggtggt 30420gtcatctgca tatctgaggt tattggtatt tctcctggca atcatagaag gtgataaatc 30480atagaagatg tgatttatca tttatcatag aacatgattc ttctatgcca gaaaattggc 30540taaaaacttc atcctcacaa aatcttcaga gataaagatg attacacttt ggtagattag 30600gaaggttaaa tgatttattc aaactcatcc aaacaattaa taaaatccag agacagaatt 30660tgaacgtagt attctctgag ccctccatac actatcttag accagtttta gtttctattt 30720attaatagaa caaacccttg tgttaacaca ttagtttttc tgacaggtta ctctaatact 30780agttatcagt ggttcctgtt tagctttggc aagttaataa aggtgactgt gcgaagcttt 30840ccatgaaatt gtataacctg gtatgaaaat taataagtaa aacctcacta aaatgaggtt 30900tttccagtag tcatgtatgg ttgtgagagt tggaatataa agaaagctga gtgcctgaga 30960attgatggtt ttgaactgtg gtgttggagg agactcgtga gagtcttttg gactgcaagg 31020agatccaacc tgtccatcct aaaggaaatc agctgaatat tcattggaag gactgacact 31080gaagctgaaa ctccaatact ttggccacct gatgcgaaga gctgactcat cagtaaagac 31140cctgatgctg ggaaagattg aaggtcggag gagaagggga tgacagagga tgagatggtt 31200ggatggcatc actgactcaa tggacatgaa tttgagtaaa ttccaggagt tggtggtaga 31260cagggaggcc tggcgtgttg cagtccatgg ggtcacaaag agtcggacat aactgagtgg 31320ctgaactgac tgacgctaaa aatgaagctg ggaggccaga agggggagct ttcatgcagg 31380acaactccac atccattaca ggaagaaatg ccaatgatag acccaaaaga agcattaaca 31440aagactcatc atttatagtc tccaaaagga aaaagtatac atagcatctc caggaaaaga 31500tgtgtatcat gcctcctaga ggaaatccac ttcctagcaa ctcagtcagt gagaaaccat 31560catcactctg aactctcact tttctccaag ggactttgat tcaaaacaac ctcttgcaac 31620atcccctctt ttctccatgt ttctttttta aaataatgtt tctttccttt gttcattggg 31680cttgcctatg gtttctgcca tgagttgttt gtcccaaatt gtaattctct gctacaccca 31740gataaacccc tccttttttg ccaggaaagt agttgacttt tatttttaaa atcagtagta 31800gaatatttta aacaaataaa aatatagagc atattgtaat aaatgggctt ccctggtggt 31860tcagtggtaa agaatccgcc tgcaatgaag gagataagga tgcgccggtt ctatccctgg 31920gtcgggaaga tcccctggag gaaggcatgg caacccactc cggtattctc tcctggagaa 31980tcccatggac ataggagcct ggtgggctgc agtccacagg ttcacaaaga gtcggacaca 32040actgaagtga ctgagcacag cacacataaa aatatgagca tactgtaata aatagttatg 32100tacctaccat gaggatttaa tgcattgaca tctgtctatt ttctacaaag aaattcttta 32160aaaatataaa tcaaacaagt cacttttctt cttgaaacac tccactggtt ttctacattt 32220aaataaaagc tcaaagaccc agtgagccac taggccctac accatctgcc tccccatcag 32280ccgtcaccct gtctcctaac attctctttc ccattacaga tgccctagcc tgtttacctt 32340gctggtccat ggagatgcca agcacttcca atctgagggc tttgggccta ttgctccctc 32400tgtagcacca ttctgatctc agtgtgctct tttgagttta gttgtatgac tgtggtataa 32460aacagtcgtt atattgtctc attcatctta caattttatg attttctctg attatgtaga 32520tgtttgtctc tcatgttcaa aaaatccaga ggtaagcatt ccagagacag tataccaatt 32580tcctggtttc aggaactcac attccttcta tctttttact ttgctatctg tggtttctat 32640tctgagtcat ctcactgtcc atgatagtga tagctattag gaatgccagt cctgtttgaa 32700tttcagccca gaggaaagag gaagcaggaa agagcattcc aggtttctaa gaaatgctgg 32760gtaaaggaag aaatggaaac ctgagttttt tattttttaa tgttttttga agttaaaact 32820ttgatgtcag aaaaaaaaaa aaatcccaaa actttgttgt ctaagtaaaa tctcatctac 32880cttcatggga gcctcagagg acaataataa agtattcttt taaacttatt tctaatcacc 32940atactagtaa aactgtagtt aagcttgatc tttttgtgcc acctgtggcc caggagagtt 33000tagctccttt ttgtttgttt tagcaataga aacattttta aaaattaaaa atggatgcac 33060aacttcaata ttttaaaaat gtatttttaa atgttaaaat ttatatattt acttattagg 33120aagttagtat aagcagtatt tttgatgagc acagagatgt tgtgtaattt tttatagttg 33180tagaaagtct ctgaaataaa tttatttcta aatttggttg tgtagtattg agaaaaatct 33240gattcagaga ctagtagtca gaaatggctt caggttttga agttttgttc atcttacaat 33300tttatgattt tctctgatta aacagagatg aaaagggaaa atttattctg agatacatat 33360aaaaatgaca caagttaaca cataggcttc cagtgtggta gatagtacat gagaaggcac 33420aggaagtgtg tttttataca atttcttaag tgtcttaaat gaatagataa atacacatat 33480atgttttcaa actgtggtgc tagagaagac acttgagagt cccttgaact gcaaggagat 33540caaaactagt caatcctaaa ggaaataaac cctgaatatt cattggaagg actgatgctg 33600aagctgaaac tccaatactt tggccatctg atgtgaagag ctgactcatt ggaaaagatc 33660ctgatgctaa aaagattgaa ggcaggagga gaaggggcaa cagaggatga gatggttata 33720tagcatcact gacccaacgg acatgagttt gagcaaactg tgggagatag tggaggacag 33780aggcacctgg ggtgctgcag tccatggggt catagagtcg gtaacttagt gactgaacaa 33840caacatatat atatatatac acaaaaatat atataatata tatgtaatgt atataatata 33900ctatatataa taataaatat ataaaatgag catattgttg ttgttgattg gcttgaaact 33960gctctaaaac tgctttattg aaatttggat accacacatg ttaattgtac aattcaatga 34020attttcataa atttatagag ttgtgtaacc attactgatc taattttaga acttttctat 34080tacctcaaaa agctcgcaac aaacttatgc ttactggtgc cagttgtacc ctctctgctt 34140ccttcccctc tttacctgag aggagtagat ggtctgagag ctggtgtctt aatgcctgtg 34200taaaagtatc catgatctgt gttcctgtaa acagtgtctg aacataactg tagaacttgt 34260agtcaaagat aaaaattaaa agtgattttg ttgttgagag gcctgtgagc tgattcattg 34320taagtactgt gtaataatgc ataactggga ctgaattgtg ttatatgtcg aactggaatg 34380ttcatatgta tcagaggaca attcttctga tgtccagagt tttcactaca taatgctgtt 34440ttgttttttt ggctgtgctg ggtctttgtt gctgcaaggg cttttctcaa gttgtggcaa 34500gtaggagcca ctttctaatt gcagtgtgtg ggcttctcat tatggtggct tttcttgttg 34560cagagcatag gctctaggcc cgcgggcttc agtggttgtg gcacatgagc tgtagagcac 34620aggctcagta gctgtggtgc acgggctcag ttgctccgtg gcatgtggga tcttcccgga 34680ccagggatag aatccgtgtc tcctgcattg gcaggcagat tctttaccac tgagccaccc 34740gggaagccca acgctttctt gttgactggc aagttgcaga tgacattctc tgtggctttg 34800gatgcctgcc agagggaaga cttacaattc ccaacaaatt tgaaggcatg cttgctagat 34860acgatacttg acattaagta agcaggttca ctatacacag tgtgtaatca aagaactatc 34920tttcacaaac tcttatcttt gtttctgaca gaacacttgc agtttctaca aaactgctgt 34980aaaagttggc ctcagtaaaa gttgtttatc tctcagtaaa agtagtaaca ctatacagga 35040cttcccccca cctgcttttg acagattgac tccatgggat ttaaaacttc ctttttttct 35100tgagttgata aggtgacaat gctcttttga aacagataca ggtgagatat accaggtgga 35160ctaagcaggt gtgaaacagg ccctggggta gggtagctga ccttattgat aaagtagtga 35220caagggacag tcagttacat cataatgtac taaggtatgt tacagaagga aagaagtgat 35280acaaaggatg ggtttgggca aaagcctgtg agactataga gacttcttcc ttgactagca 35340aatgaggtca ccctgcaagc tgtgcgggca agacaggagt ggagctcacg tagttctctg 35400gctgaccctg ctgctgaaac agcaaccgca gagcaactaa gcccactcac cgcaactact 35460gagcctgtgc tctagagccc aggcgccaca actactgcac ctagagagta gcccctgctc 35520cttctgtagc accagtctgt gatgatcctc tgttggttgt tgtcagcttc cagtggctgg 35580tcaccatgct catcatcttc aagccctcgt ctcctttgca gatcttctta aactacctct 35640gccctgtgcg ttccttagga gttcctgggc caaatgcctt gttggtgttg caagttgtct 35700ttactgcttt acgacccatt ttgaacttga gtaagaaaat tgcttgaatt tactttttgt 35760ctaacgtctt ttccctagtc caaaataaat ataaaataaa cagcaactaa taaatcatta 35820gcaaaaaaca taaagtgaga aatgtgcatt aaaatgacat ataaccacat ttatttaaga 35880atgtattcca atttcaaaca gcaaatttca acagtgcaaa accacagtta cttttgcaac 35940aacctaagca tattaaaaag cagagacatt acttgaccaa caaaggtcca gctagtcaag 36000gctatggttt ttccagtggt catgtatgga tgcaagagtt ggactgtgaa gaaagctgag 36060cgccgaagaa ttgatgcttt tgaactgtgg

tgttggagaa gactcttgag agtcccttgg 36120actgcaagaa gatccaacca atccattctg aaggagctca gccctgggtg ttctttggaa 36180ggaatgatgc taaagctgaa actccagtac tttggccacc tcatgcaaag agttgactca 36240ttggaaaaga ctctgatgct tggagggatt gggggcagga ggagaagggg acggcagagg 36300atgagatagc tggatggtat caccgactcg atggacatga gtttgagtaa actacgggag 36360ttggtgatgg acagggaggc ctggtgtgct gccagggcaa atcatggggt tattgcgatt 36420catggggtcg caaagagtcg gacatgactg agcgactgaa ctgaactgaa ctgaatggta 36480ttgagttgta aggattcttt atatattttg aatacaaatt gttcctctac tccatacatt 36540ttttaaaagg cataggtaat atttgtgttt aatttcattt acagaatgaa accaaaatgt 36600ataaatatta tttatgatgc gggggtatca ttgaggatta acaacctcaa tcgtagaggt 36660tgttatgaga tatacagttt gcaaatattt tctcttagtc tgtgactcat atgttctttt 36720tttttttttt tttggtggcc aaagtactgg agtttcagct tcaacatcag tcctaccaat 36780gaacacccag gactgatctc cttgcagtcc aagggattct caagagtttc tccaacacca 36840cagttcaaaa gcatcaattc tttggtgctc agctttcttt atagtctctc acatccatac 36900atgaccactg gaaaaaccat agccttgact agacgaacct ttgttggcaa agtaatgtct 36960ctgcttttta atatgcagtc taggttggtc ataactttcc ttccaaggag taagcgtctt 37020ttaacttcct ggctgcaaca ccatctgcag tgattttgga gcccagaaaa ataaagtcag 37080ccactgtttc ccttgtttcc ccatctattt gccatgaagt gatgggacca gatgccatga 37140tcttcgtttt ctgaatgttg agttttaagc caactttttc agtctcctct ttcactttta 37200tcaagaagct ctttagttct tcttcacttt ctgccataag ggtggtgtca tctgaaactc 37260caatactttg gctgactcat ttgaaaagac tctgatgctg ggaaagactg agggcaggag 37320ggaaagactg agggcaggag gaaaagggga cagcagagga tgagatggtt ggatggcatc 37380accgactcaa tggacatggg tttgagtgaa ctccaggagt tggtgatgga cagggaggcc 37440tggcgtgctg cggttcatgg ggtcgcagag tcaagacacg actgagcaac tgaactgaac 37500tgaactgact gaactgaatg gcaaaaacgg tttaaaaaca atatttaaat aaaaggtttg 37560tgaagtccta aagcctgttc ttggcgttct aggattatta taccataatt tgcaacctat 37620tgctaggaag tgtttgagtg gcatttaaac tcagcaagct gagtatctca tttttagcag 37680aatcccggac tgatggagtt ggaaaggacc taaaacttaa gcagaattaa cacttctaat 37740tctgtaaata aactcctaca tgtttgaatg acttaattgc aatgctgtat gaaacatttt 37800atggagcact ggaggcacag ctggatttga ggacaaacaa aaacaccagg agtcagaagt 37860tcagttaagg caggagtaca aaaaaatcaa tgtttcctga taagactagg gatttatttg 37920ctggctcatg ataaacaaca ggttaagcat caaagaagag taaggaagaa ctctaaactc 37980tgtagaaacc aggctttaaa aatagaaatt cacctcaatg actgttgtaa atactaacaa 38040agaaaaagaa ttcatgctga taagggaatt gtattgtgtt cagtatttga gggttaactt 38100tgtacattta cctcaaacta tgccatgcct catttgcatt tgtgatttat gtatatttct 38160ttttgtttac ctctttaaac ttattcattc atttaacact gaatttattg agtacctatt 38220taaagctaga aactaacctt aaaaattaat tctcactctt ataaagaaaa tacataagta 38280gcagttataa aattatggga gtaagtactc taacatattt tataagtagg tatatttttg 38340agtataaaaa taccatgaaa aaaaagttgt tttttttgga aagatcaata aagctttaac 38400tatattgact aaggaaaaac agaaaccact taaaagcaga aatgaaagtg gggtcattac 38460tataaatttt atagaaataa aaataatata aaaggatact atgaagaatt gtttgtcaac 38520aaattgggta acctaggtaa ggtggacaca ttgctagaaa aatacaatct gccaaaacca 38580actcatgaag aaatagaaaa tctgaacaga cctataacta ggaaggagat tgaatcagta 38640attaaaaacc tcccgaacaa agaaaagcaa tggacaaaat ggcttgacag gtagattctg 38700ccaaatattt aaataactaa ctcttccaaa aaaacctgaa tcttcctaat tcatctgtga 38760gatcaacagc cccctgatac taaagccaca cagagacact ctagagaaaa ctaaatcact 38820atcccttgtg aatatagatg caaaagttct caatataata ctcacaagtt taattgagca 38880ccatattaaa tggattatat gccatgacca ggtaggattt aaccctggaa tatgaggatg 38940gttcaacata ggaaaatcaa tgtaatacac catattaaca taatgaaggg aagaaattac 39000atgatcatct taattgatgc agaaaaagca tttgacaaaa ttcagtacct tttatgatta 39060aaaaaaaaaa agaaacctca aactagaagt agaaggatac ttccttaacc taagggccat 39120atatgaaaaa cccatagcta acatcttact caatggtgaa agacaaagcc ttttccctaa 39180aattaggaat gagacaaaga tgcctgcttt tgtcacttct gttcagcaaa ggcttcccag 39240gtgactcaat gacaaagaat ccacctgcca agcgggagaa gtgggttcaa tccctgggtc 39300caatccctgg gttgggaaga tcccctggag aaggaaatgg caacccactc cagtgttctt 39360gcctggagaa tctcagggac agcagagcct ggtgggctgc cgtctatggg ggtcgcacag 39420agtcggacac gattgaagcg acttagcagc agcagcagca gcagccagtc tttttgcctg 39480ggaaatccca tgaacagatg tgaaattttt ttttcactga ttttttaaaa cttctgaatc 39540gtttgaatca cttgaaacga gacgcataat tcttatatta aaaaagaatt tttaaataaa 39600tgaagttccc aaagggtcag ttagccagtt taactttcta tgttaaggat agttgtcaaa 39660aaagataccc cactagatga agatttctct tccaactctg aaaatatgct attaacatca 39720cacaaatctt ttttcagtct tgcagtggtt tcaagtgaga gcagtgcatc ccccgcccct 39780ctcagagacg atgtttagag atgtctgcta ccctttttgg tggtcatatg tctgagggtt 39840gctattggca tgtagtggtc ataggccaag gagggaaagc atactgtaaa gtaagcaagt 39900gtcatattga agaaatcatt gccaaatcta ttcttaggat gattttagct ctcaggttta 39960gttcttttat ccgtctcgtt agttttctgt ctgtggtgta aagaaagttt ccatattcat 40020tcttttgcac atagacttag ttttctcaac accgtttttt aaaattgaaa tataattggt 40080atacaatatt atttagtttt aggtgtacta tatagtgact tgacatttgc atatattatg 40140aaatgattgc catgataagt ctaataacca tctctcattc aaaattatta caatattgtt 40200aaccatatat actgtatatt acatccccat ggcttattta ttttataacc tgatatctgt 40260acctgtcagt ctcctccgtc tatttcttcc cccaccctcc attctggcaa ccaccctttg 40320ttctctgagt ctatgagtct tttttcattt ttgtgtttgt tttttagatt acacatatac 40380atgagaatat acagtatttg tctttctcca tctaatttat ttcacttagc ataacaccct 40440atagatccac tcatgttgtt gcaaatggca agtttatttt tatgactgtg tagttttcta 40500ctgaatacat ataccacatc ttctttatcc attcatcttt tgatggacac ttaggttgct 40560tccatatctt ggcaattgta aatattgctg ctgtgaacat tggagttcat gaattttttt 40620gaattaatgt ttttggtttt ctttggcggg gaggggtgag tatacccagg agtggaatta 40680ttgggtcata aagtagttct attttcagtt ttttgataaa cctttgtact gttttccaca 40740gaagctgcac caatttacat tctcaccaac agtgtgcaaa gcaaagcttc ccttttctcc 40800acattgggtg ataattttta tctgtcaata ttttaaatat atcactccac cttctcttgc 40860tctatagttt ctgctgggat agcttaatgg gggtatcttt gtaggttact atcttttgtc 40920ccctgtgtgt gtgttagtca cttggtcgta tctgactctg caaccccatg gacagtagcc 40980accaggttcc tctgtccatg gaattctcta ggcaagaata ctggagtggg ttgctgttca 41040catttccagg ggatcttcct gaccccaggg attgaatcca ggtctcctgc actgcaggca 41100gattcttcac caactgagcc accagggaat agctatcttt aaaattcttt ctttattatt 41160aaattctgtc ttggagaaga ttcttttgca tcaagataat taggtattct gttaacttgg 41220tagatttgta tgtccagttc cttccccatc tttgggacat tctcagctac tatttcttta 41280aataagcttt ctgctccatt ttctctctct tctcctggga tacccatttt ctttatgttg 41340ccttctctaa tggagttgga tagagtttct tcaatttctt aagatcttgg ttctttctcc 41400ccttctgctt aaatcacttc tagatttcta tctctgagct cactaatttt ctcttctttg 41460tgagaaaatg gaatttccca atacttctaa tgcattctcc atctcattta ttgagctctt 41520tagctcagca gtttgtttgg tcctttttta aagtttcaat ctctttggta aagtattggt 41580tcgttcctta cttttattcc taggctcact aaactgcctt ctgagctttc tcatgcccgt 41640tgagtttttc atgatggcta tttttaattc tttgtcattt ggatcacaat cttccttgac 41700ttcaagtttg gtcattttct ttttgtgata ctgtgtgact gggttttttc acagtgtttg 41760atgagttgtt tctctgctgg tgcatttaaa gtaacaagaa agaaaagaaa gaaagaaaga 41820aagtcgctca gtcgtgtctg actctttgtg accccatgga ctgtagccta ccaggctctt 41880ctgtccatgg gattttccag gcaagaatac tgaagtgggt tgccatttcc ttctccagga 41940gatcttccca acccaaggat tgaaaccccg tctcccgcat tgtaggcaga tgctttaacc 42000tctggaaagc ccctggtttg aagtagcaaa cccctttcta atttagatga agttttgttt 42060acttagattc taacaattca acagattgat aattagaggt ctttcttctg ttttttagta 42120gatggtgcta tagcacaagt tttcaacttt tcttgctgag ctgcctctga caatatttga 42180gaattggcac tttccaccct tcactgcctt tgccagaggt gtcacaggtg ccctccgtgg 42240tccctgcttg tgcctctggg ctcattggtg ccctgctgat gttggtgcca ttgctgtcac 42300tgtcattgct gccaggggaa ctgggatgat gggtgccccg ctgtgtccgg ggtcacttgg 42360ttagtctcag caggaggggt gggtgggaga agctggggtc agacaggtgc ctccaccaca 42420gctggggttg tcaggtttgt aggcaccacc atgggcaggg ggatgagggt cacgggcacc 42480accatggctt gaaggaccgg agtcatgggc cctgccacta ctgctgcctg gttctgccat 42540gaccaggaag ccatatgcac tgcctccaca gctgctgcct ggctctctgg gactgcaggc 42600ttagccattt cagaagagaa gcgggggttg taggcactgc cgccactgtt accctagttc 42660cacctcctct gtgtgttcca aaccacccac cttcaggtat acagatgtgt gggtctctgc 42720agcatcctgg tagtttgaac agaggcaagt tatgaatgtc ttactagttg gaaattgagg 42780gggagaaata aagcatctta cactgccatg atgctgatat tcagttcagt cgctcagtcg 42840tgtccgactc tttgcgaccc catgaatcgc agcacgccag gcctccctgt ccatcactaa 42900ctcccagagt tcaaccagac tcacgtccat tgagtcagtg atgccatcca gccatctcat 42960cctctgttgt ccccttctcc tcctgcctcc aatccctccc agcatcagag tcttttccaa 43020tgagtcaact cttcgcatga ggtggtcaaa gtactggagt ttcagcttta gcatcattcc 43080ttccaaagaa atcccagggc tgatctcctt cagaatggac tggttggatc tccttgcagt 43140ccaagggact ctcaagagtc ttctccaaca ccacagttca aaagcatcaa ttctttggcg 43200ctcagccttc ttcacagtcc aactctcaca tccatacatg accacaggaa aaaccatagc 43260cttgactaga cgaacctttg ttggcaaagt aatgtctctg cttttgaata tgctatctag 43320gttggtcata actttccttc caaggagtaa gtgtctttta atttcatggc tgcagtcacc 43380atctgcagtg attttggagc ccccaaaaat aaagtctgac actgtttcca ctgtttcccc 43440atctatttcc catgaagtta ctctccagca atttttgaaa tcagaaagtg tgagaactcc 43500actttgttct tcattttcaa gattactttg ggtatttggg attctttgag attcatgtga 43560attttaggat gaatttttct atttctgcaa aaacacactg gaatttagag agtaattgca 43620ttcaatctgt ggatcatttt gggtagtatt gtcattttaa caatcttaaa tctccaatcc 43680atgaatacat gatgtctttc cattcattta tgttttcttt aatttattgt attgtcttgt 43740atttaaatta ttgtattgcc ttgtagttta cagtgtacaa gtctttcact ttgttggtta 43800aatttatttt attctttttg aagctattat aaatgaaatt gttttcttaa tttccttttc 43860agattgttca ttgctagagt atagaaaatc cactgatttt tatgtattga ctttgtatgc 43920tgaagctttg atgaatttat tagctctaag tttttttgtg tgaaatcttt agcattttct 43980tcataaaaaa taatgtcacc tattaacaga aattatttta tttccttcaa gtctggtcgc 44040ctctcctttt cttgcctaat ttgctttagc tacaacttcc agtaccatgt tgaatattgt 44100tgttgaagtc gctaagtttt gtccaactct tttgcaactc tatggactat agcccatcag 44160gatcaattgg cagcccacct gccaaagcag gagacatggg tttgatccct gatctgggaa 44220gatcccacat gccacagagt aactaagcct atgcaccaca acaattgagc ctgtgctcca 44280gagcctggga gccacaacta ctgagctcag gtgcttcagt tatagaagcc cgtgtgccac 44340agagcctgtg ctctgcgaca agagaagctg tggcaatgag aagtccacgt actgcagcta 44400gagagtagcc cccacttgct acaactagag aaaaagacca ggcatcaagg aaggcccagc 44460acagccaaaa ataaataaat aaattaatta aattattttt tttaagttgg tgaaagatga 44520atatttgaga taaaatgaaa attactaaga tccacatctt cagacatgaa agaaaatatt 44580tatgaaataa aattatttgt tgtctgaaat ttgtttcaaa gtaatctgtg ggaaaggggg 44640aaaaaagagg agtatcagtg aaatgaaaat tgactaccag ttgagattag catatagtca 44700ttcatcatac tattctttct acttgtgaaa tgcttggaaa tttctgtgta tgtgtgtgtt 44760aatcattcag tcatgtccta ctctttgaga ctgtagactt ccaggctcct ctgtccatgg 44820aattctccag gcaagaatac tggagttggt agccattccc ttctgcaggg gatctttccg 44880gcccagggat tgaacctggg tctcctacat tgcaggcaga ttctttactg tctgagccac 44940tacagtggta agaaaaagtg aaaaagatga cagatacatt tgagaatttc tagtttcagc 45000aatattgcag agttaagagg ccctgaaact attcagctac ataatatcta aaaatgcttg 45060ataaaatatt aaaaccactc ttatttttta acttaaactt tttattttcc attgaggtat 45120agccaattaa caatatagtg atagcttcag gtaaacagtg aaaggactca gccatatata 45180tacatgtatc cattctcccc caaactccct tcccatccag gctgccacat aacactgagc 45240agagttccat gtgtatatag taggtcgttg ttgaaaatat tgaaaccact cttaattgat 45300tggatgattc ccactaagat cagaatggag tacagactag gcaggtaaac taaattttag 45360agccttggat actctgaggc ctacagtatt ctttattgac actctgaact gcattgcaca 45420gaagggacag aaacaaagcc tgaagtcacg tagaagggaa gcatagtacc tacatctaag 45480agaggcatac cctcacaacg ggcaaactca aggtgaacca taagaacacg tttccttact 45540ggactgggct atgaatggaa gttaaaaaaa aaaccaacaa cattttcttt gagaactttt 45600tcttctggct agatgtcaca tagtttggga ctcagtccac atattttgcc tgatcccaaa 45660acacaagcct ataatttaaa gagtagcagg ttaggtacta tccccaggtg cctgagagaa 45720gtaaaaatag acttttccag atgagcatac cctcaagcag gcctcaaaga attcctggag 45780acagtcaaca aaaagctcat agtaaaaagt ataaaacaaa aatcaagcaa gccatagata 45840gcaaacccag aaccatagag agttcaactt ttataattaa ttatcataag taaactaaaa 45900aaataagtct gcttgaaatg cttttagatt aaaaaaggac tttgaaaaca tgagcaaaaa 45960taggagacta atgattaggc caatttgaag aagaacaaaa tattactctt agaaattaaa 46020aaaaatactt actgaaatcc catccaggct gccacataac actgagcaga gttcctggat 46080tcaaatggat agacagttaa aagaaagatt aatggaaata aagagcaacc caccccagta 46140ttcttgcctg ggaaagccca tgaacagagg agcctggtgg gctatagtcc atggggtctc 46200aaagagtcgg acatgtactt agctgtactt ttttttttaa ttttgggatt aacatgattt 46260atttcattat cagtcttaca aattactgag gttgggtaag gccgggattg tagcttgaat 46320ttcacacttt ggttgaggaa cagtctgtta gtgaacagaa ggccgtggag gtgccacagt 46380tcatccagca gtgttagaga ccttctcaga agcaacaggt gagaccaggc acatcacagt 46440cagaggtcca ctccagtggc tctcagggtc cactgcctgc ccccgcccac cctgctttat 46500ggaggcacgg aggcccctag aggccccagg gagacatgat gggctgaggg gcttcaccat 46560caggtggtgt gtctctgcct cagcatttcc atccatacca cacatcactt tctcccacta 46620tctacactct tatttatttt taatactagt gtatttttaa aaatatactt ttatttggct 46680gcgacggtcc tagttgcagc acatgggatc ttcagtcttc attgaggcat gcaggatctt 46740tagtggtggc atgtgggatc tagttcccca atcagggatc aaacctggac cccctgcatt 46800ggcactgagt ttttgcacca ccagggaagt cccactccac ccttttataa gtgggcagcc 46860tcatccctgc ctgggcttca agcagagagc ctggttctgg tccccaactt tttgtcagtg 46920gagtcccctt tattgcgcca aactccttac caccattacc tgttcctgga ctcaagacct 46980tcaacccaca agcttggtaa ttctcaccac tttggatttc tttcatggag atattcatct 47040tggttttgca actgcctgga ttttcttgtt tttcttcttt tatttggatc cattgtgact 47100gagaagggtg aacaaattta ttttactttc tctctccaaa gaaatcttat agcagttttt 47160gcataatccc actatgcttc agtttcatct tcaagataaa aattttaaca gaacccacct 47220aaaggcattg ttgtaaagat caaatgagat ttagaaaaaa ctgcacaaaa cctaaaggca 47280cttagaacac tgcctggcaa gtaccaagta ctcaataaac attagccact actattggta 47340ctggggaaag attgaggcta ccttatattt tccaaatata cataatttta ttgtctttat 47400tcaaccccgt ggcataggta ttatcaccct taatttgaag taaagaaatt gaggcaccca 47460agggtcaaat agcaaaagct gtagagatga gatgaacctt gggtacatct agactggctg 47520ttgactttgt tataaaatag aataattaat gtatatttct tgctctaata tgggtgatga 47580catggagaag actaaaatct cattctggat gaagttataa gctttggctc tgttgacatc 47640atctgttata atagatggca tgacagccag aaatgaaaaa agtctaaggc attatataat 47700gaatgatgtg tcacttaatg ctcattacac tttaacttca gttgctccca cgaatgaatt 47760cttgtctcta caggcaataa aatgttatag tagtcagtaa ggtatcatag aaaaagggca 47820gtctcaataa acccttctcc acttttacaa cattcaggtc agggtggata agcccctgaa 47880ttacatgaga taaactcact tttattattc agtcaataaa tatttatcaa gtatctgttg 47940tgttcaaggc tctgagcaag gcaacattta ggaaatacac tgaggtggga gacatacttt 48000ctactttcgt aattcccttt aatggcccac aagacgttcc agcttctttg tctctcccat 48060tcaatgtttt atctgttacc aggactgtaa attcttcctt tatggtgttt ctttcctcac 48120aaattttttt ccaccataaa actctagttc agtctatttt tttcattccc agactgttca 48180ctgctttccc acatccgcca tccatcctat acgtaaacag attactcttc ctaaacacca 48240ctttgacagt gtcatccctc tacactaaac tttcaatggt ttctcactct caagataaat 48300ctgcactctt ggtttggcct tagggcctcc acatttggcc ccagaagatt ctcttacatt 48360tttgttagta tgtttctgag aatacagtga ttgagctact ttttggtgaa gagcttccat 48420gaacaaatgc tgtatacgtg ttctgcaatg atgaaaccta cttaatcagc ttgttttaat 48480ctagcatctc ctcgtctttc ttttccccat atcacgtgtt cataaagtct tttgtttaag 48540taaactttta aattgcagta taacatacat acagaaaaag caaagaaaat cttaagtaaa 48600cgatttggtg tatatttaaa aagtgaacat acctgtatat ctgccaccct aacctctttc 48660tctatctctc tgtctatata tatgtgtata tatactttta tatttgttta ttctcaatat 48720cccagaagtt tccattatgt tctaccctag ttattgtccc ttccaaagat aactactcat 48780ctcactttta tcactatata tgagttttgt ttatttggtt tttttttttt tggcttgttt 48840atttttattg aaatataatt gacatataac aaatacacat acaaatatat atgcatacat 48900ttgatctgag taacagatat acaagtgtgt ttactttgta aatatacatc aagctgttta 48960cttagatttt ctgtacattt tctatatgtg tattatactt caattaaaaa gtttaaagac 49020tttatagata tgtgaaattt agtttggtga actgtcaacg tttaaacttt cagtctattt 49080ttcaaggaca aatgttacat cttctgcccc actttctaac tctgcagatt aattatctgt 49140acctaattat atacattttc ccctctacta tgcttatttt ttagggcttg actacctctg 49200tgaactttac aaccaaatga attatttggt ctcttgtctc ctacataaag aaaattatta 49260gaatcaaggt gatcgggctt cacatctggc ctcaacacct ccaccacacc ctgctctctc 49320accactcccc tttccccccc attatgctgt ctctctgtat taatgccagc ctcttttctc 49380catacccata aaagacattg ataattggtt tttgatattt ctcttctttc caagatggtc 49440actaccttgg cagagtctgt gtttatttag atgaccaagc catcacccta gcttttgtgt 49500tctttgatct caacataacc ttcagtgtag gcagaattct aaaaatcccc atctgggaac 49560tgctctgagg aattctgaag ttgtgactga agttccaaat gaattcaccc caaaatagtg 49620aaattatcta gatggcctga tgtaatcaca caagcccttt aaaaagaggg atataaaatc 49680cgagagaagt ttgaggatgt gctttgagat gaggagtcac atgagaagga atgtgggcag 49740cctgaagaag atggttgact gtcagcaagg aaacacagac ctcagtccta aaactacaaa 49800gaaatggatt ctgccaacaa ttggtcctta gcagattctt cagatggaag tcttcggata 49860agaatccagc tgaccgactg gattgaatgc atgatagcct aagcagagcc cagcctagcc 49920cacctagatt cctgacctcc agtgaaataa taaatgagta ttgctttaag atgctaaacc 49980gatgccaagt tcttactcag cactagaaga cagatatacc tttcttccat ttccgtaatt 50040caactgtcat gttcaaatca tgagaccttg tcaagcctgg attgctaata ctatattata 50100tgctaatatt atattatatg ctaatattat tgctaataat ataatattat tatattcagt 50160gacttcaccc tctggtttca gctctttagc ctccaagtga ccctaattta ggtcccctca 50220ccacctctgt cttcctgcct tcacttttct gtgatgaatc acttaacctg ctcaaactct 50280tgctccattt ttctgttgcc ttacccacct agcaaaacca catcctcaaa tttattcagc 50340cttctaacct gctctagctt tacttctctg tgattgggaa agccatgtcc atttgtaact 50400ctgatgtcac cacatttata gaatccagtc ttaggggtct tggtgctcgg caatctctct 50460ttaggtccct tggaagaaaa actttttgtc tacaatttag gtctagtggt ggggggggat 50520gagctgaaag ttaattgaca acagattaaa ggaaaaaaga taaggtcctg gggtttatag 50580accagtttaa taggggaaag tgggatgggg agaaagggat tctatgggaa aacaaaggac 50640ttttaagaaa gacaagtagg cgtttaggga aagaagcaaa gatatttctt tcaattttct 50700ctcttttccc taattaaaac atttatctac acatcttgac tcccttccct ttggtcacaa 50760cttaaaaaat atataatatt tgcttttctt ttctaattcc tctgaattct agatccattc 50820tgttttctaa gttacctgat taaccacctt ttcctcttta tggcttgtct tcctggcatg 50880cacacctatt ctggcctaat ttaaaccaaa caagaaatat tttctcagag ccccaagata 50940ggctttagat atactgcttt ctctcacctt tcttttatag tgagactttt ggaaagtgtt 51000gtttataccc tgtttctatt tagagactaa ctgttctctc actgaattga tcgaaggccc 51060ctggtagctg ataagcagag ccatggtggg ggtcatggtg catacagcct cttgcactgg 51120tttttatttg cttcaactta agtagtagtg

aaaataaata tactggaagc caatacagat 51180attatattcc caaatgcccc cagggctata ataagccctg cctgacacct gacatctcac 51240acgctagtaa agtaatgctc aaaattctcc aagccaggct tcaacaatac gtcaactgtg 51300aacttccaga tgttcaagct agttttagaa aaggcagaga aaccagagat caaattgccc 51360aacatccatt ggatcatcga aaaagcaaga gagttccaga aaaactgctg ctgctgctgc 51420tgctgctgct aagtcgcttc agtcgtgtcc gactctgtgc gaccccatag acggcagccc 51480accaggctcc gccatccctg ggattctcca ggtgagaaca ctggagtagg ttgccatttc 51540cttctccaat gcatgaaagt gaaaagtgaa agtgaagtcg ctcagttgtg tccgactctt 51600cgcgatccca tggactgcag cctgccaggc tcctctgtcc ctgggatttt ccaggcaaga 51660atactggagt gggttgccat tgccttctct gagaagaaca tctacttctg ctttattgac 51720tatgccaaag cctttgactg tgtggatcac aataaactgt ggaaaattct gaaagagatg 51780ggaataccag accacctgac ctgcctcttg agaaatctgt atgcaggtca ggaagcaaca 51840gttagaactg gacatggaac aacagactgg ttccaaatag gaaaaggagt atgtcaagac 51900tgtatattgt caccctgctt atttaactta tatgcagagt acatcatgag aaatgctggg 51960ctggatgaag cacaagctga aatcaggatt gctgggagaa atatcaataa cctcagatat 52020gcagatgaca ccacccttat ggcagaaagt gaagaactaa agagcctctt aatgaaagtg 52080aaggaggaga gtgaaaaaga tggcttaaag ctcagcattc agaaaattaa gatcatggca 52140tccagtccca tcacttcatg gcgaatagat ggggaaacag tggaaacagc ggcagacttt 52200attttttgtg ggctccaaaa tcactgcaga tggtgactgc agccatgaaa ttaaaagatg 52260cttactcctt ggaagaaatg ttatgaccaa cctagactgt gtattaaaaa gcagagacat 52320aagcaggagg agcggcgggc aggaggctgc aggatggtga agctgacggc ggagctgatc 52380gagcaggcgg cgcagtacac taacgcggtg cgggaccgag agctggacct gcgggggtat 52440aaaattcctg tcattgaaaa tctcggtgcc accttagacc aatttgatgc cattgatttt 52500tccaacaatg aaatcaggaa actggatggt tttcctttgt tgagaagact aaaaacatta 52560ttagtgaaca acaatagaat atgccgtata ggtgaggggc ttgatcaggc tctgccttgt 52620ctgacagaac tcattctcac caataacagt cttgtggaac tgggtgatct ggaccctctg 52680gcatctctca agtcactgac ttatctgagt attctaagga accctgtaac caataagaag 52740cattacagac tctgtgattt ataaagttcc acaagtcaga gtactggatt tccagaaagt 52800gaaactaaaa gagcgtcagg aagcagagaa aatgttcaag ggcaaacagg gtgcataact 52860tgcaaaggat attgccagga gcaaaacttt caatccaggt gctggtttgc cgactgacaa 52920aaagaaaggt gggccatccc caggggacgt ggaagccatc aagaatgcta tagcaaatgc 52980gtcaactttg gctgaagtgg agcggctgaa gggcttgctg cagtccggtc agacacctgg 53040cagagaacgc agagcaggcc ccactgatga tggtgaagag gagatggaag aagacaccgt 53100tgcaaatggg tcctgagcag ggcggcctca gcacctcagg atgtgtaaca gtccacctcg 53160gacaggtcct gccttgtgtc agcaaagtag agttcatcaa cattgttgaa atgctcaaaa 53220ctgctgcttg taattttgta atacagattt tgaaatctaa aacccagttt tctaccagta 53280gtacaaataa aggacactcg ctatgctgcg ggttgtgcgt cactggggcg tgtgcagtga 53340ggtatggata tggagagttg gaaatgcagc agggcggctc tgtgggcagg cttcacagtc 53400ctcttgaaat gtttagattt ttaaattcat aataaaactt agattatctg tgtgctgcta 53460ctggttgtta gaatttgcga tatgggctgc atttttttct tcatgaaggc tcacaaacat 53520cattaaagac agccaggccc cagggctttg caagaaaaaa aaaaaaagca gagacatcac 53580tttgccaaca aagatccgtc tattttccag tagtcatgta tagatgtgag agttattttc 53640tttatagaaa gctgagtgct taagaattga tgcttttgaa ctgtggtgtt ggagaagact 53700cttgagagtc ccttggactt caaggagatc caaccagtcc atcctaaagg agatcagtcc 53760tgaatgttca ttggaaggac tgatgttgaa gctgaaactc caataccttg gctacctgat 53820gtgaagaact gacttatttg agaagaccct gatgctggga aagattgaag gtgggaggag 53880aaggggatga cagaggatga tatggttgga tggcatcact gactcaatgg atatgaattt 53940gagtaaattc caggagttgg tggtagacag ggaggcctgg tgtgttgcag tccatggggt 54000aattaagagt cggacaggac tgagcgactg aactgagctg acacctgaat ttgctaaggg 54060ggaattgtgt tcaccactta gagaacacat aaggaatggg ccaagtcctt accacttcct 54120tgcaattggt agccaggcaa gcagacagag agagctcaag ggggctggga gaggtttgga 54180ggatattaag aattctatga gaaggatgaa gagagcttct aataggtcca tataagagct 54240ttgataatag ggttgcctga ttgatggcat tataggccca ggaagcttgt tcctttaatg 54300agaagacttt gtttttgatt tttactttct tgccattctg tataataaat catacccttt 54360atactttgtc aacattaagt taatttatta actttattaa taaagtttat caacattaca 54420tttatcaaca ttaagttgat atcaactcat ctgttgctga cattccatca agcactgata 54480cccctgtgaa agccatacaa gcaaacaccc ttcactggtg tgatgattgg aaaggagtat 54540taggctccct ccctgccccc actgcaaaat cttccagtta tttttagagt tttcaaaagg 54600gtggctcaag tgattttatg aataagacca ttggcttcct tcctgaaggc attttttctg 54660aaacatctag ctatgcctat gtgcactgcc tacagaaacg catggtgaca cctaggccct 54720tctagtgctc atttaagatc gccaatgata ccactctaat ggccaaaagc aaagaggaat 54780taaagagcct cttgatgaag gtgaaagagg agagggaaaa agccggctta aaatttaaaa 54840ttcaaaaaac taagatcatg gtatccagta ccatcacttc gtggcaaata gattgggaaa 54900aaatgtaaac cgtgacagat tttattttct tgggctccaa aatcattgtg aatggtgact 54960gcagccatga aattaaaaga aatgtgctcc ttggaagaaa agctatgaca aacctagaca 55020gcatattaaa aagcagagat atcactttgt gaacaaaggt ccatatagtc aaagctatgg 55080tttttccaat agtctgatgc tgggaaagat tgagggcagg aggagaaggg ggagacagag 55140gatgagatgg ctggatggca gcaccgactg agacatgagt ttgggcaaac tccaggagat 55200agtgaaagac tgggaagcct gatgtgctgt agttgcatag ggatgcaagg agtcagatac 55260ggcttagcta ctgaacaaca atgatatgtg tatcaaaggt gtgaactcca gttgacctca 55320tagctttcag ttgggaaatc ttgactttga taagtctatg atttgactgt aaggcatgta 55380aaacatgact atgacttcaa gggcagaggc aaatgggact gagcacaaag cactcttaaa 55440ttgttgggag actgaatctg ggaccaactt tttgtgggaa atttagctat atgtattaaa 55500aacttttaaa tgagcatacc ttttgcctca gcaattccct gtctggaatt tacctgagtg 55560tgtgtgtaat gacagagctt ataaagatat tttgtgaata ataggaagat tggttaaagt 55620acataacaaa cactgaatac catgtgccca ttaaatataa agttgtagaa agattttgaa 55680tgacagggaa ccatgttgca aaatagcagt tttacaaaat attaatagta atagctacca 55740tctagtgtgt gtgcgcgctc agttgtgtct gactctccac aaagcccacc aggcttctct 55800gttcatagaa ttttctaggc aagagtactg gcatgggttg ctgtttccta ctccagggga 55860gcttgctgaa ccagggattg aaccttggtc tcttgcctct cctgcattca gttcagtcgc 55920tcagtcgtgt ccgactcttt gcaaccccat ggactgcagc actccaggcc tccctgtcca 55980tcaccaactc ccggagttta ctcaaactca tgtccattga gttggtgatg ccatccaacc 56040atcccatcct ctgtcgtccc cttctcctcc caccttcaat ctttcccagc aacagggtct 56100tttcaaacga gtcagctctt cgtattaggt ggccaaagta ttggagtttc agcttcaaca 56160tcagtccttc caatgaacac tcaggactga tttcctttag gatggactcc tgcattggcc 56220agcagattct ttatcactga gctacctagg aagccccagc atctattaag tgctatctaa 56280tgacattaca tacattatca gtgctttata cacattgtct catttaatgt aactatcctg 56340agagaccctt tcccctgatt accgataact acttaaaggc taaggaacta gttcaggtct 56400ccagggtttg agagagccag aattcagaca cagactatct gactccagag ataatgatgt 56460ccatccccgt actctgtata caagcccatt tttgtttttt aagaaaatat gtatgcagag 56520aaagagacta aaagcagatg gtatgtggct ggtgggtata gatgattttc atctatttct 56580tgatatgtca taagagagga acaaaaagct tagttacatg gaaatgaaaa agtgttagat 56640taagaacaca tctagggact tccctaattg tttagtggtt aagactccat gctcccactg 56700caggaagcat tggtttgatc cctgcccgga gctaagatct tcattggctg aaacagtggg 56760tactgtgggg tcaaagaaaa aagagaacac attcagtagt tgtcccaata accaggcact 56820ataaatactg ggcagttatt ctgttcaaag agggtgagca gagggcagtg gtctgagaaa 56880ctgagtcacc catttatcct cctaactttt gaccttgtgc aagatggcct catttggacc 56940aggtgggtca tcttaaaatt aggaaggtag tctttaggtt cctccctccc taatattcta 57000ttacctaaaa tacccaaaca ctaaatgaga aaacagggca tttgaaaata gttggttttg 57060ttcagtcact aagtcgtgtc tgactctttc tgactccatg gactatagcc agccaggctc 57120ctctgtccat gggattctcc agcaagaaga ctgagtgggt tgctatttcc ttcaccaggg 57180gctctttctg acccagggat caaacctgtg cctcctgctt gcaggtggat tctttactac 57240taagagcagc agcagcagca ggcaaattct ttaccactga gccacctgtg aagcttagcc 57300caaagtaaaa tgttaactta gaacttaaaa cgactcattt ctataatgca atgcaattat 57360gaaatgctgg cttcaatctt aaattttcga acagaatttg atggcaatga tccgcttgag 57420aaagcattag gaagaggtta tgtactcttt tcctgaatct gcacactctt acagcttttc 57480tacacgatcg gagtattgaa tagatgcatg tatcacagga ttgtgaggaa catatttaaa 57540ctattcactg aatattttca ttcaaaaagt tttgtttccc cctccgaaca cccttagatt 57600cagttcctga ttttattggc cctgggaagc agggacctta tttctcagaa gctcattcat 57660tagagaccgc ctacttgccc cgggggtgga caatgtgtgt gacaggaaaa aacctcggtg 57720ccagggtccc cgggtattta ggggcgtggg acactggcag tggccaaatc cgcccaggtc 57780agaccaggta ttgatccccc cgggtagcat tttgtggttg gtctccaggg gtactcccca 57840ctgtctattt cataccagcc cgggaagcag gatttgtagc gttgtcgccg caagcccagg 57900gatatagtca tttccctgac ctcttcccgg cggccgggtg acggtcaggt ccagtacctg 57960gctgggtcct ctaatgacac ttgcgtgctc tcagcccaga cgccgggcgc ttatcgcagc 58020caggcaggca gcgccacgcc tttcacgggc cctcgggcat cgaccctgag ggaacagggg 58080cgtgagggtg gggccgctgc cgggcgctgt cccggtcagc agtctaaagc ttgcgaagtg 58140aggctgaagt cggtgctgcc tgcgctcgct cgtcggccct cgaccgccgg ctcgccgccc 58200gctctctccg acgtgacggt aacccggggc cagtgccttc ccaggtcagc cgctgcgccg 58260gtgagtgcgg ggtgctaggg gggcgcgtgg gcgcggtggg tgggctgccg ccgggggtcg 58320tgggcgtcgg tcggggaaag tcgcccccgg ccgggctttg cctccagcgc gggctgtgtc 58380ctgaatccca cgccgttacc gggcgaatcc cgagcgagcg ggagtttccg gcggtctgat 58440agggactggg gagacgctgg aaggaggaaa ggagccagag agttttcgta aaagcttttc 58500atcatttagg aagcactgta cggatgcctg atgtcattgt taagtaggag atgcttccgt 58560agggtatatt tggaaggtcc agctgactca gcgttttata taaatgattg ttagtgctct 58620gcctctgagc acaacagctc ctgagattga agccctcggt taaaactgaa ccgctaactg 58680tgagtaaatt gtgaaaaccg tttggaatat atggcataaa aggtccgtgg ctattgtgtg 58740tgcatttggt aggcaataga aaactgtaca attgaaatga ctaggtttta attattccct 58800ctcagtttta tttgaaagtg agtatgaaac agactgaaaa tttagactcc cctaaatttg 58860gacctccacc ccgcctccag aaaacagctc cttggtgcaa ccgatttcgt gtctggtagc 58920atggggtcac acagagtcgg acacgactga agcgacttag cagcagcagc agcagtgtgt 58980tttagccggt tggtaaaact cttccctttc cccaaatgta tgatattgga tagataaaag 59040ttattgagta tggaggtagc agagaaactt gttaatattg gtacctttaa agggattaac 59100cgatatattc tatgcccatt tcttctccct gggacataaa gtttgtccac aactttggtt 59160ggtgtgctaa agcattattg agctgccttt tgtaattttt ctgtggatag ttgactcaat 59220gattaacttc aaaaaattaa ccagcttatt aaaaatactt gttaaaaatg ctactaaagt 59280tagaatacag aaaaatacat aaccaaaaaa gttagattgt aaatctagca aacagttaaa 59340aaaaataccc ataatgttgc tttgtttcat tttctcactc agtggtagaa atataaaagc 59400tcattccact ttcacgaaaa aaaaaaaaga tttatagtaa caaatgttca ttggtcatct 59460ttgttctgga ccctgaacat ttagctagag ccccctgagg tgctgttgca tcaaaatgat 59520attaaaatac acttaccaaa atcaatttct acatttagtt gtgttaagtg ttcatgagct 59580tttgaggcaa gcctaagtat tacaaatgga aagagaaatg caccaagaaa agagtcactg 59640tgggggagta catttgaatg tatgtggaca gcaaattaaa gttatatctt ggaagctaga 59700ataaaaatgg accaatcagt cacacaattc agtgaggaca aaggcaggaa atatacatga 59760gctccttaga gaagcttttc ctggcaccta cttctgagag aaatgtctaa tatcacagaa 59820ggctgcagat gagactgaag tatagcggtg gaagagtctc ctgggtgccc acccatagta 59880catgcggtcg tgcattttct aggactgctt gctgtagttg tcattctcct taccataagt 59940attatgagaa acactcgtag gatgctaagc ctctatggtt ccacatgctg tggtttgata 60000gtttgggaat aaatctggat tttatagagg ggtaggtaga cctcatgttt tcagatactg 60060tttctctcag gcatttctga cagaagtttg gtgtcagttg aaggttatat caagtgagaa 60120gttttattct atgttgctta ctggggttag aggttaaggt tgaggctctt ttagtgaaac 60180ttaaagaacc tgaatgatca tccttgatac agggtatata ggtctgtgct atgctgtgct 60240tagtcgctca gtcgtgtctg actctttgcg acctcatgga ctgtaggctg ccaggctctt 60300ctgtccttgg agattcttca ggcaagaata cctgagtggg tttccatgcc ctcctccagg 60360gggtcttccc aacccaggat caaaccaatg tctccctctt tgcagttgga ttctttaccg 60420tctgaaccac cagagaagcc caagaatacc ggagtgggta acctatccct tctctgggaa 60480ccctattccg acccaggaat caaccagggt ctcctgcatt gcaggtggat tctttaccag 60540ctgagctacc agggaagccc gtataggtct acagtaagct aaagtttatc cttttaaaaa 60600atcagttctg agttcagaat gtgaaccaat aatgatggag tatctagatg aatttggctt 60660tatagttttt ttttcccccc aacattagtt tatgagatct aattcacata tcatacagtt 60720catgcctatt taaagtgtac agtctctgca gtcttcacat tttcatcatt ctcgccccta 60780aaaaccagtt aacactcact cctccttctc accataatcc cttaatctct gtagtttttt 60840ggaaaccagt gttctgcttc acaaggagac cattagaaag tggacatcta atttttgagc 60900cacatactta gcttgtttat agaaataagt aaaatattca gagaatcgta acaatgaaag 60960ttagtggtgt tctgttgttt aaaatgaggt gggtgggtgt gggtgaagca gaagtgctgc 61020ccacatccca attccagtga agaagttttg tttttggcaa gaagggtaga atgaaatctt 61080aaaactccat tgaaaatgct gattactagc tcagtccctt tgcagctgaa aagacctgtt 61140actctttaga gcaatggttg gctgggaatt actgcttaga tggaggtagc agtaggtagt 61200tctctgtcat ttaacgggat ttaagttctt acctggaagc ataaaaagga aagtctctag 61260aaagcagcaa gccctgttag ctccctctga aaacacttga gctgagtgtc ttacaaggaa 61320aaaggaaaga ttgcctgagg ggtacccaaa cttcagatgt tttgcacagg agacctgtct 61380cttctcttct ggtcctgctg catgggcagt tctacgctga ccacaccctg acttcaccct 61440gaagtgaagt gaagtgaagt gaagtcactc agttgtgtct gactctttgt gaccccacgg 61500actgtagcct atcaggttcc tccctccatg ggattctcca ggcaagagta ctggagtggg 61560ttgccatttc cttctccagg ggatcttccc aacccaggga ttgaacccgg gtctcccgca 61620ttccaggcag acgctttaac ctctgagcca ccagggaagc cctggacttc accctagagg 61680agtgaaaaga agggatgcaa aaggtacagg gaacacagga tccttagaaa gggaaaataa 61740agtatttcat tttacaactt ttcctccacc atcccatatt attttgaaat gccatatgag 61800agttggacca taaagaagga tgagcgctga agaattgatg ctttcaaact gtggtgttgg 61860acaagactct tgagagtccc ttggactgca aggagatcaa accagtcaat cctaaaggaa 61920atcaaccctg catgttcatt ggaaggactg atgccgaagc tgaagttcca attctttggc 61980cacctgatgt gaagaaccga ctcactggaa aaaaccctga tgctgggaaa gattgaaggc 62040agcaggagaa ggggacgaca gaggattaga tggttggatg gcatcaccat ctcaatggac 62100aagagtttga gcaagctctg ggagttggtg atggacaagg aagactgatg tgctacagtc 62160cattggatca caaagagtca gacatgactg agcaactgaa cagaattgaa attaaaaaaa 62220ttttgagaag ctgaagcagt agctatattt tccatccaca tttttctcca gtactttggc 62280cacctgatgt gaagaacgaa ctcactggaa aagaccctga tgctgggaaa gattgagggc 62340aggaggagaa gggggtgaca gatgagatgg ctggatggca tcatcgattc agtgaatgtg 62400agtttgagca agttcttgga gacagtgaag gaccaggaag cctggtgggt tgcagcccat 62460ggggtcacaa agacttggac atgactgtga ctgaacagca acaacaaaga taagatgagc 62520aggtcttcag aattaataaa cggaaatggc cattaactgg tgaatgcttg ctgtctgcag 62580gtggttttta tatttattct cattttttgg tcacaccaag cctttcaggg aagtattgga 62640gtttcgtact tacagaggag gaggcagaga attgtacagg gttatttatt gctgggacaa 62700agtactttat taaagatcac caaccctttc tttttttttt tttaaacagc ctggtcattt 62760gtttcacatt ttctttccat gttcacagag cagctcagtt cattgtaaag gcatgcaggg 62820acagtgaaaa gagcctgtga gagcagggag gcccagacct acctaacttg ggtctagtca 62880ctgtgccatg aaatctcttc atctttgtgg accagtttct tcgtgggact aaagaatata 62940ggaatttgag caagagaggt ctgattttat ttaaggagtc cagaagtaga atatgagtta 63000gtagaaattg cctgaatagt agtgttaggt atgctgagaa ttcttagtat tcttacctga 63060tcctacaata aaggattctg caaaccatct actttgattt agaatctttc tgatccattt 63120ctccttttca taacataggg agactgttac atgtctttct agaatatatc atatgatact 63180aatagttacc ccaagtaaac atatgtactt gagaaaccta aagtagtagg ctaactgtag 63240taaaaaccca atagtatcat ttcagttatc tcttcaatct aatagtactg ttattatcat 63300gccagaccat tcactgcttc ctctggaatc taagctatga gtataatcca tttgacatgt 63360gcaatgttgt tttataccca gctattacta gcaacctagg gccaggtgac tcattacatt 63420gctacagtgt atgtgctgat tagctctttc ctcgagctac aagctattcc ttgtgttctg 63480atttcatact tagatatata cctgccctct cccccagtga gatatgttct atctagcctc 63540ctagaagtac tccttaccca gaagtaaatt caagtggttt aaatttttca acaaaaataa 63600aattgctatt ctctccctct ataatatgag aaactagaaa aagagctctt tggtgcatta 63660gtcttcataa aacaatgctt ttccaaatat atacagctgt ggctgggttg catcggtctt 63720gataaggaag ttttaaagaa caaagatggc agtttaagtt taatattaca ctagcattat 63780aaacattaaa aaatattggg gttatttttt tttaattttt aattttgaaa tcatttttag 63840acttacttaa atgttgtaga aaatggtaca gagagttcct ataacatctt atgtaactat 63900agtaccactg ttaaaactaa actataaact tatttggatt tcatcagctt tccactatct 63960ttttttctat tcaggatcca gcctcagagc tcacattgca tctgattttt gtatatcctt 64020aatttccttc aaactatgac agctcttcaa ccttctattg ttttccctga tcttgacact 64080tataatgaat actgttcagt tattttgtag aatgtcttgc aattaatact ggatattttc 64140tcatgattag attgaagtta tgcattttag gaagaaattg gagaaggaaa tggcaaccca 64200ctccagtatt cttgcctgga aaatcccatg gatggagaag cctggcaggc tactgtccat 64260ggggtggcaa agagtcagac aggactgagc aacttcactt tcactagaag taatcccagt 64320gcatcatatc aggggtacat gatgtcttat tactgatgta aactgatgta aactttggtt 64380aagagccgtt tgtcaggtcc ctgatggtta tcattttttc cctttgtatt taatatatat 64440catgggagag aaacttgggc cttgcaaata ccctgtttct ccttaagtcc ttattcactg 64500gttttagtcc attggtggaa ctggatgcac atggtactgt gttgttctaa cagtgattta 64560aagattgttt ctcattactt ctctttatta atgagaattt tataaggaag agctgttcct 64620tcattttttt attcaactgt atgaatatag actcatggat atttatttta ttgtataggt 64680tataattgaa tacagtcatt atttaattgc tgatcaaatg gttccaccat tggccactgg 64740gagctcttct ttcaggttgg ccactgtgcc cttttgatgt accacctccc catcctccct 64800tttgaaaaag catttccttg ctttctggta tcatgaaatg ctccaggctg atttttctat 64860tttccatgcc ccgacccttg catcaaccat ttttccaagg cactctggtt ccttgtttta 64920gaggctgtta ttatcagaaa ccaagatctg ggtactaggt gtgttactga agttgctttg 64980aactttttaa gtttcataga tttgtgacct agcaaatgca tctctatagg aggagtaatg 65040ccttaaattt caaagactct agagaccata gttgccaatt tgcattcagt ctcttatggg 65100aaagaaatac aattggaagg gctagaattt taaaagttcc cagtttttct caaatgaaga 65160cctgtaagtg tttataaaac aaatagaata aacacattaa tttttattta ctcaggctct 65220gataagaaat tagcttgtta cttactgaat gtatgtgaag gggagatatg catagatcat 65280atctttcaga aatgcaaaat gtctttaaat gaattgtgag atcctggcct ctacttcccc 65340acacaaaaaa gacttctggg taagtctttg agcctacttt ctcattctga aaagaaaggt 65400tttaggcaag attttcattt ctcttgactc ttagtgggct cagaggaccc tttaatatcc 65460agaaaatttg gacccttttt ctatatttta ggtataattt agtgtgtgtt tattggttca 65520ctggttaaaa agattcagtt taatttcata tctaatttat gttaatcatg ccagcttact 65580tttaacactg aaatttactc agttaaactt tattttaatc taagacagtc cggaccacgt 65640acagaagtct tttctaagag ttccatttcc acaaaccttc tttaactttc tttttactga 65700taggttttgt cctatgcttt tcctttctct ctctctagga taaaattact ttcttttccc 65760tcaacaaatt gtattttcat ttcttatacc ttttttcctt tcatgcaaga tgttttcctt 65820accaatttta gttgtctcaa ttacatacat taaccagaat tctaactttt taaaaacctc 65880aatttctagt gaaaactaag aagtatgcag ttataaactg tttttcaatt attattctgt 65940agattgtcaa aatcacaaat actgtttatg atttctaaaa aatgtgtggt tttttaatga 66000aaatttttca atgtgatatt tttattagta gacctaaata tcttctctgt aaaaaggcag 66060cctatgttga gtaattaatg tttcagtatc ttattttatt tgggaatgat ctagatattt 66120aaacggaaaa gaacatggca acccactcca gtattcttgc ttagagaatc ccatggacag 66180aggagcctgg tgggctgctg tccatgaggt

tgcacagagt cggacacaac tgaagcaact 66240tagcatgcat gcatgcactg gagaaggaaa tggcaaccca ctccagtgtt cttgcctgga 66300gaatcccagg gatggaggag cctggtgggc tgctgtctgt ggggtcacac agtcggacac 66360gattgaagca acttagcagc agcagcagca gatatttcat aatttccatc atttcattta 66420atttagcaaa actataaata ttaagtcatc taaaatctag agaaattatt tttaagtaga 66480caaaccgtaa gacataatta ttcttaaaga atttacctca aaattgttac tctgtttata 66540tctgttgaat tatagttatg tttagattac catgaaaact aatgagacat tacacaaaat 66600aagccatcat ttcaagattt ttttttttga aaattttata acagagacag tatgacctat 66660ttaacttttg gtaaacctag gtgcaataaa agtaagaatg gtctgtattc attaaaccaa 66720caaatttaaa ctttaaaact gattcagttc agttcaattc ggtcgctcag tcgtgtctga 66780ctctttgtga ccccatgaat cgcagcacgc caggcctccc tgtccatcac caactcccgg 66840agttcactca gactcatgtc catcgagtca gtcatgccat ccagccatct catcctctgt 66900cgtccccttc tcctcctgcc cccaatccct cccagcatca gagtcttttc cagtgagtca 66960actcttcaca tgaggtggcc aaagtactgg agtttcagct ttagcatcat tccttccaaa 67020gaaatcccag ggctgattgc cttcagaatg gactggttgg atctccttgc agtccaaggg 67080actctcaaga gtcttctcca acaccatagt tcaaaaccat caattcttcg gcactcagct 67140ttcttcacag tccaactctc acatccatac atgaccactg gaaaaactat agccttgact 67200agacggacct ttgttagcaa agtaatgtct ttgcttttca atatgctatc taggttgatc 67260ataactttgc ttccaaggag taagcatctt ttaatttcat ggctgcagtc accatctgca 67320gtgattttgg agccccaaaa aagaaagcct gacactgttt ccactgtttc cccatctatt 67380tcccatgaag tgatgggacc agatgccatg atctttgttt tctgaatgtt aagttttaag 67440tcaactattt cactctcctc tttcaccttc atcaagaggc ttttgagttc ctcttcgctt 67500tctgccataa gggtggtgtc atctgcatat ctgagattat tgatatttct cccggcaatc 67560ttgatcccag cttgtgcttc ttccagccca acatttctca tgatgtactc tgcatataag 67620ttaaataagc agggtgacaa tgtacagctt tgacgtactc ctttttctat ttgaaaccag 67680tctgttgttc catgtccagt tctaactgtt gcttcctgac ctgcatacac atttctcaag 67740aggcaaaact gattattagt ataatattga ctatttccca gatcacaaga acttgaaatt 67800tatttgggtt ggctttcttt taagtaactt aattaaaaaa cttttttttt tttccaagat 67860tttttatttt taattttttg gccaagccct gcagcatgtg ggatcttaat ttgctgacca 67920gggatcatcc taggcccctt gtcagtgagc acgtagagtc ctaaccactg gactgccagg 67980caatttgcag gctagttttt tattatattt ttaaaatatc aatttgtaag tgattacttt 68040gtcaacaaag gtccgtctag tcaaggctat ggtttttcca gtagtcgtgt atggatatga 68100aagttggact ataaagaaag ctgatcacag aggaattgat gcttttgaac tatggtgttg 68160gagaagactc ttgagagtcc cttggactgc aagagttcca accagtccat cctaaaggag 68220atcagtcctg ggtgttcatt ggaaggactg atgctaaagc tgaaacccca atactttggc 68280cacctgatgc gaagagctga cttgttggaa aagaccccct gatgctggga aagattgaag 68340gtgggaggag aagtggacga cagaggatga gatggttgga tggcatcatg gactcaatgg 68400acatgagttt ggctaaacta cggaagttgg tgatggacag ggaggcctgg catgctgcgg 68460tccatggggt tgcaaagagt cagacacgac taagcacatg aactgaactt ttacatcagt 68520taaatacagc ttttttatat gtgtaatttt gataatatta tctggagtta ggaacatatc 68580atatgtataa tgtacacata gaaatataaa aagacataac tagagacctc atagcttcat 68640ttgaaaactt agttatgtat cagttattgc attataaatt tactagttta taaataacaa 68700tttgaataag ttaaatatat ttgctcagat gactaaagct tttcactgtt tgtgaagaat 68760attttaaagt ttgtatttgt ccttgataaa tcctgaagga ggctgtgaat tagatatgat 68820gagggatgct ttctagcagt ttgagttcag aaaagcctgt ttctctctct ttctctcttt 68880cttttttttt tggtgcaggt tctacctgat tgagctaatt cataagctca gtcttaggtc 68940cttgtgggat gtacttatgt ttctgatatg tagagatttg taagacaaga cagttgcttt 69000taattcctca gagaactggt ctgtcaccta tatggtattg aaagattgat ttgcccaact 69060acattttctt tatttgcttc tttatatcag taaaaagatt tccaactaca gtgaaaatca 69120agagttatat gttctagaac tttagggttc agtttatcct gctttccaaa ctttgcacaa 69180gctattcaat aaaggccctc ttttttgagt atacaaatta aacccagagc agttcactct 69240aggggctaaa agtcttcatt atttttatta actcctgaat attagccccc agttttattt 69300catattgtgt gggctcaggt aaccctattg attttcctta gtgtgtttaa tcaatgttgc 69360ctgaggggca gatttataag ccctatctta caccaggcaa gggtgaccta agtttattcc 69420ataatataat tggcagaaga gatttaacca tcttatataa agcccattta aacataccaa 69480cttttataaa cattcatctc aattctctca gctcttatat ctgtaatttt aacctccatt 69540aagtccccat caacctgtct tggtcttaca cagagtccca gaaacgtttc tttttatctc 69600cctgaccacg ttatctatct ttatataaaa ggctttgggt ttcccagccg aggggttgag 69660ccaagggact caggcctttc attgatattt taacttgatt aattggccta actgttgccc 69720caagcaattg aattttctag cagcctttta aatatgtata tgttttgctg tgcttaattt 69780tgctcagtgt gtctgactct ttgcgacccc atggagtgta gcccaccagg ctcctctggc 69840catgggggat tctccaggcc agaatactgg agtgggttgc caggccctcc tccagggtat 69900cttcctaacc cagggatcga acccaggtct cctgcatcat aggcagattc tttactgtct 69960gagccaccag ggaagcccaa actggggtaa atagagtgga cttgtttggg gttctttaat 70020gatggagacc gatagggagt ccctttggcc atccaacctt agcattgtat caaaatgttt 70080gttttgatac atgtatttat tggtttattt atcccatttc ttaaccatct aaagattttt 70140actgttttgg aacaagtctc tttaaaattt cttccttgtt gggaagatgt ctctagactt 70200tctctgcagt tttttcttat tcctgttaat caacctaact taacaatcta atgcttttat 70260tagcatctgt aagacccgtt gaggggaaat tgaccacaaa tttagtttcc caaacttttt 70320tgttgttgct ttttgttcgt ttaaactaag ggagttatta aggttagcca ttatattttt 70380ttgtatccac tttctacttt ggtcttttca taggtgccag taatccagct gttaatagtg 70440agagttctct aaaaatttcc cagtttagaa gtttcttcaa ttttaatctc cattgtctgg 70500ccattgccag agctctcata acacagggag gaaaaaaaag tcttaagatc aggtaaaaca 70560tttatatctc aaagacacag tgggagaaat gctagttcct cctttgaaaa gttttttgtt 70620cctttaaggt cagaattccg agaagatgtt ttatcaagct ggctttttct agctgcacac 70680atgcacacaa aaattaactt tggagtgtta aaagaaccca catttggtcc tttttaaggt 70740gaggtttcct ttaattccca acaaagcagg tacttgtagg aataaattct gttcatacat 70800aataaagtct tcccagcgtc tctcaactgt ggtaatccag ttttcaactg agcaaaatct 70860ttcccttgtc agttcatctg ggataaccca ggtacctctt cttgaaatta agttcaagga 70920aaatctcctc cagcgaggat tttattcacc atcaaataaa actaaggata atcagccaat 70980agtggagatc caggacccag aagagattta cctaaattca tatggactct gaggaggtgg 71040ctaggcacaa gaggtctttg ctggtaccaa ggctccagat tcttgtagcg ttcgggtgag 71100ggagagaagt ctgctctggg tccctttgtt gctaactaaa gcggtcgact gaagaaaaac 71160gcataaccta aaagttgcaa gttaagtttt atttgaggat cttactgagg actgtggttc 71220aggagacagc ctctcagatc actctgagga actgctccaa acacaaaaga ataagggagt 71280agccagggta tttaggaaat tttgctgaaa cgaaaaacaa caacaggaaa aaccaaacca 71340tgtagtcaaa catcaaagat agtcacaaaa aatagacatt actagttaat gattttagta 71400cttttctgta tgagaagata caagactctg ggctcattgt aattattcct tagatatgca 71460tcttaactta tctagggcca gtgcccagaa cacacaatgc ttcctttttt tctctatcct 71520aatttctcct cagctgtacc tggggggttt ggggaatgcg actgcagtgg ctaatggctt 71580gatccttgtt tactggaata agaggcaaca ttctttgttt actagaatgg caggcaacat 71640tccctgtcca cgtccacgtc tgtcagtttc ctcttaaatg taaatgagtg tgaatgtaaa 71700tgtaaaatga atataaaatg taaatgagtt tccatggacc tgaagctgga ccattactat 71760acttgccctt gttttccctt aattgggcaa atttggggga ggttgagagt gagattgctt 71820tgaaatgggg caaacagtag agagtcatta taaaactccc attggctgtg accttgctgt 71880gggaataggt gccttttgct tgttggaatg ctggatcttc cttgctctac cagccccact 71940cttttgtgta taaaggctgc acaccaaggg taaccggcat cctaagatat atatctgaat 72000acactcttcc ttagaaacca gataatgttt ttacatacag tttcagagtg cttgttttgt 72060gtctggtgtt gtatttaaga ggcttccctg gtggctcaga tggtaaagaa tatgcctgta 72120gtgcaggacc tagaggacag tgtccacatc ttggctcttg aatgactaca gtagcctcta 72180tgtagtctcc ctgctctgct cctgtctcca gcacccccac ccccaccccc aagtcagagt 72240gatcttttta aacataatta gattatgtta ttcctccacc gagaagccaa gcaaagttct 72300tatagtggcc tgaggtatgg acactgccag aattgacctg aacctctgac ttcatatcct 72360atgctctccc tccctctgct tcagtcccct tggccgtgct cttcctcagg ctagcacttg 72420atcttggcat cacaactcca gagagccacc ctcaggtttc tgctcaaaga cctcattggg 72480aaggccttcc ctgacttcat ttcctccttc acttttattt ttttctcttt agcactgctg 72540actctgacgt ttttcatcaa aaggaaaaag gaataggagt tagggacata cccccatgca 72600gtcaaaaatc cattataact tttgactcct ccaaaactta acacatattt tatatgttat 72660atgcatatct acatatattt tatcattgat gacatatcta actttcttgg tttttttcaa 72720tatttcaaat tttttcaaat tgttgcaaat cttgaaaaaa aaaatctccc aatatattta 72780ttgaaaagaa atccacaata taagtggacc tgcacagttc aaatctgttt gttcaaggta 72840tggccaaacg caagttcata tgctcgacac acagtaaggc caaactgaaa cactggagtt 72900tggaacagag aaaggtttat tgcaaggacc aaggaaagag aatgggtggc tgtactcaaa 72960agatgtgaac tccctgatgg ttttcaggaa agtgttttta taggcaaaat ttggggtgag 73020ggctgcaggg tgtgtgactt ctgattggtt ggtgatgagt tagcatggtg gtgtttcaga 73080aatcttgtgc tcagcctgaa gttactgttg tccatcctgg tgggggcctt acttcctata 73140gaaaaactca aagatattgt aatgtatatc ccttgagggg gaaccaggac cctgctcctt 73200ggctgtccta tagtttcttg actgcctttc cttggtttct gcattccttc actcttctaa 73260ttagcaacca tttgaatctg ccctttgaaa ctcagggaag gtctgagaaa ctgaaatttt 73320ttccctgcaa acaagaaatg ggatacagag agacttttgt atgcaagagg gccacacagg 73380gtcctgccag gtttcaaggg tcagttatag ttgcattagg tacacttgta tctatttaaa 73440gagaggatta ggattaaatg gagggacctc cctggtggtc aagtgattaa aactctgcct 73500tctaatgtag ggggtgtgag ttcagtccct ggtcagggaa ctaagaaccc agatgtctca 73560gggtgcggcc aaaaagtaaa aaaatagtaa taataaaaaa atttttttta aagattaaat 73620taaaaaaggg acaggaaaca gatctatggt tgtcatgggc tggggtggga gagggaattt 73680ctttgggatg atagaaatgg tctttgtcct acttttcatg attacatgtc tgtatacacc 73740ttcaaagtcc aaaaactgta cttaaagagg atgtttgatg gtctacaaca ctgtttacta 73800ttgacacgtt ttgaataaac atgacaaaaa acagagatta ggctgaacca tgagtagagt 73860tggtgttatg ttggaaggaa tgttatatgt accaaaacgt tccccctctt gtttgttatc 73920tattcctttt tcctctgtgt tttgtgtgtg ttagtcactc agttgtgccc gactctttgt 73980gaccccgtgt actgtagccc accaggctcc tctgtccgtg ggattctcca gacaagacta 74040tcagagtggg ttgtcatttc ttcactaggg gattttccta acacagggat caaacccggg 74100tctttaccat ctgagccata agtcaccaat tctccgtgga tccctcactg gtcttactgc 74160gtatctcctc agtgcaggaa ggacggggat ctgtagaatg agggaggaga tggctgaggg 74220gacctgtgga gcttccaaag tcaagtctta gctccctaca gggcatacgt cactctctga 74280tgaactttgc tgcctctcca gcctaatttt cttactgccc tttccccaaa gctgaacttt 74340aatataatga acttaccaac taaaaaaagt cacaacctaa aagttgaggg ttatgctgca 74400tttggtggga atttttagga cttcaggacc gggaggcaac atttcaagta gccttgagag 74460aactgctctg aggaggcagg gtggaggagt caggttatat agaccttggc aacgaaggac 74520aggtagtctg aacatcaaaa gtatttttgt gaattaaaga aaaccagcta tctcaagtta 74580aggaatttag cacttttctg tatatggcaa gatgcaagcc tctgagctca ctgaagtctt 74640tcctttccta tgtatctcag ctatctgggg ccagtatctt gtggtttttc acatcctgag 74700ttctcctggg ctccccatag ggagtggctg cagcctgaag gctgtcagat cttgctggtg 74760ttcttctcct tcctgggtgc cctggagggc tgggatcact ggtgactgtg acctcattgt 74820ttactgatat ggcaggaagt actccatttc tcaaacagca tgcatttccc aaagcaatct 74880ctttcagttt aatgattttg ctttccttta ctaggtcaac tttcttttct cttctctcct 74940tcctatataa ctggttagtc tcctttaata ggccacttct aaccactgtg acccccaccc 75000ccacccgccc tgccccaagc catgtattcc ctgagagatg aatctggtct taatccctca 75060agtaattttg aagctctagg caaaggggta gggaaggaca ttcctggctg gaaattctgc 75120tttgaaacag gataattata ttttctctca actccacctg ggttaataca gtgagttttt 75180agggggtatt cattaagctt tgtccttacc ttccacaaag tccaggtgaa atctttggtg 75240gtatttgtgt cctttctaat ttgtacatat agtttactaa tcctggcaga atttaacttc 75300tgtagatgac ctctctaaat agggtggtta gtgacttcct cttgtttgtg ctcacaatat 75360ctttatgaag ctactttgct taatacaggg gtgtggcata ttgtaattta gtctttcatt 75420cagcgggaat aattgagaat atgatatgag tgaccccaaa ggatacaagg gcttccctgg 75480tggctcagag gttaaagcgt ctgcctggaa tgcagtagac ccgagttcga tacctgggtc 75540gggaagatcc cctggagaag gaaatggcaa cccactctag tactcttgct tggagaatcc 75600catggaggga ggagcctggt aggctacagt ccatgaggtc acaaagagtc ggacacaact 75660gaccaacttc actttactta aaggatacaa aattgatgga cattaggtcc ctgctcttac 75720aacagacatg tgggcaaatt tttagtttgc aaatgcatat atggctttct gaaatggcag 75780gtttgcaata aagtccaaag gagataactt taaaatatca tgattttact tataatttgg 75840gagatagctg aaggccaaaa gggcatgaga agaatgttcc tgcactgtga gctagggcta 75900gaaaaaacat tttaatgata atttgcttga tgagctgtga tccaaatact ggtcatacat 75960tgttagataa agctttgtga ctattattag aaagctttgg agggtggctg gaaggtctat 76020agttcattta aatttattat ttttctttca tcagcccacc ttcagtattt gaaattcgga 76080ataaagtagt ctgaaattta ccatgaaaat gctatgagat ttgttattgt tagggaacca 76140ttaattgccc actttggccg ggcatgataa taattgcttg cctgagttgt ctcacaatag 76200gaggtcctgg taaagaagga ggtactacct ccaaaaagta acaggaaaga gttcagatca 76260gatcagtcgc tcagtcgtgt ccgactcttt gtgaccccat gaattgcagc acgccaggcc 76320tccctgtcca tcaccaactc ccggagttca ctcagactca tgtccatcga atcagtgatg 76380ccatccagcc atctcatcct ctgttgtccc cttctcctct tgcccccaat ccctcccagc 76440atcagagtct tttccaatga gtcaactctt cacatgaggt ggccaaagta ctggagtttc 76500agctttagca tcattccttc caaagaaatc ctagggctga tctcctttag aacagactgg 76560ttggatcttc ttgcagtcca agggactctc aagagtcttc tccgacacca cagttcaaaa 76620gcatcagttc ttcggcgctc agccttcttc acagtccaat tctcacatcc atacatgacc 76680acaggaaaaa ccatagcctt gactagacga acctttgtta gcaaagtaat gtctctgctt 76740ttgaatatgc tatctaggtt ggtcataact ttccttccaa ggaataagca tcttttaatt 76800tcatggctgc agtcaccatc tgcagtgatt ttggagcgag cccagaaaaa taaaatctga 76860cactgtttcc actgtttccc cgtctatttc ccatgaagtg atgggaccgg atgccgtgat 76920cttcgttttc tgaatgttga gctttaagcc aactttttca ctctccactt caccttcagg 76980aaagagttca ggaggggcca aaaggagaag ggaggagtca atatatccta tcaacctccc 77040agaatccttc tcgctgaaat ccatcttggc tgagagatgt atgcaccacc agggaggacc 77100ctgagtcaga atgattggcc agagacaacc tggaaaccaa ccccattacc ataaacgcgg 77160agactctgag ccatgtggtg gagcagttct cctgggttcc cttcccctgc tgctctccgc 77220tgaggcaccc ctctctaata aagtcttttg ctttgtcagt tcgtgtgtct ccttggacca 77280ttcatttctt agagctcact cttgggccct ataagggggt ccccttcctg tactcagtag 77340taaaaaatgt tttgataaaa tgtgaattct gtttggggac cagatacttt agggattcat 77400cttgtttgtt ttacttgagg aaagtgattt aattcaattt agctattgtt caaaagacag 77460ttctaaaata atggaagcat tgcctttttt cagccattgt atatatgatc attttataga 77520tttgttattc ttaacctgaa acatatagca ctgtcctatt tttgaaataa atatatctct 77580ttctctctct ttagtcgcta agtcgtgtcc aactcttgag accccatgga ctgtagcctg 77640ccaggctcct ctgtccatgg gattctccgg gcaataacac tggagtgggt tgccatttcc 77700ttctctaggg gatcttccca acccaggaat cgaacccagg tctcctgcat tgcaggcaga 77760gtctttactg actgagctat aaatatagta tagttttatg gtattttgaa atctaagaat 77820gaatttgata atagcatata gcaagtatta tttttttttt ttttgatgca ggatgaatat 77880gggagtgctt ggggtgtcct catagtgttc aagtatatgt gtcttttatg gggttataaa 77940attgactgtt tataaagtaa cccaagaatg agaaaataca tttttaaaaa gtaagcactt 78000tagacctgtg ttgtcctata tggtaactat taaccacgtg tggctattta agtataagtg 78060agtaagttaa ataacataaa atattcacca gctatatttc aagtgctgag tagcagccat 78120atgtgtctgg tggacagcac tattttatta tccctatgcg tattaataaa gaacatggaa 78180aggagcacag gcacttttcc atctgacctc tgattatctt gaactcaaga gaatcacttc 78240ttgggcctca tttacagcct ttttacacat aagaaaccag attaccatct atgagatcag 78300tggttgtgta acttgtgaga atgaagggaa ttggtaattt tattttgtgt gtgtgtgtgg 78360gggggggggt gggggcgggg gcctgtgctg ctaagcatga aggatcttaa ttccctaacc 78420agggattgaa tccatgcctc ctgcagtgga agcacaaagt cctaaccact gtaccatcag 78480ggaattccag ggagttggta atttttatct tgtcaagtta tatatctctt agctggtgct 78540ccctaatctc cactatttta aacatatcct cagcactcag tccttgataa atccttctct 78600tagctataga ggaggggaga aaaaagtttt cattaccagg cccattcctg tgtctcactg 78660ttagcgtgtc tcactgtttt tctgcagtag cctcctaacg cccttgcttc cacacttgtc 78720tcacagtagc agctacagtg atttttaaaa aacagttaag atcatgagcc tttcctgctt 78780gaacggcctc agcggcttct cttggactat acagaccttc cgcaatggta tttcttcctg 78840tctgtctgtc tgacctcgtt ctttgtgccg ccctccccag atcactctgc tgcagcgctg 78900tgggggcctt gagtgccaga tcgtttcctt gacctgaaga catcagccct ctgactccaa 78960cgctgcagtg ccgatgtcaa cactggatgt ttgctccagg gtggaactgt tagatgagag 79020atgatgtgaa aacccattga tggatagagg actctttaaa cttcagggat ttattgtgga 79080agttacagct cagattttga gttccttttc taacaatgtt caaaactatc cagcttctat 79140ttctgtttgt tcataagttt tgtagcagtc acctgacagt gacccaagaa gcctaattcc 79200ttgtcagggt agcgaggtct gggcgtcaca gtaaatagct gaagaaggtg tgtttaccca 79260gcatgtcctc ttggctatga ggcagagtgt cacttttgct attattatcc ctaggggaaa 79320aaaaagtaag aagaaggcct gaactcttga cctgaggctg ctctggcttc taccagcagg 79380tgcaatattt ccagctatgg acagctgtct ggctgaggac tttagaactg aactctactt 79440ttattacctg tgtgcaattt ctattgactt atgtactctg tttatagtag actgtctgat 79500taagagtatg ataaagagta agatagagaa aaatggtatt tttttttttt taagcgagtc 79560ctatattatt gaattctgca atagggagca gaattatata tggttgagtg tgtgggcttc 79620aaaggcagca ggcctatttt ggcttttttt ttttcaatta actaatttat tttaattgga 79680ggataattac tttatagtat tatgatggct tttttcatat atcaacctga atcggctaca 79740ggtatatgtg tcgcccccat cctgatccct cctcccacct ccctccccac cctatccctc 79800tgggttgtcc cagagcactg gctttgggtg cctggcttca tgcgttgaac ttgcactggt 79860catctgtttt acatatggta atgtacttgc ttcaatgcta ttctcttaaa tcatcccact 79920cttgccttct cccactgagt ctaaaagtcc attcaaaagt ggtagtttta atgcaagtta 79980tcattcttat aatagatata ccagtgtcta tggaagaaga ctttccaaaa aagtaaaaat 80040gtacctcatt agttagaaaa caagaagaag agaggaaagg tgacaaaggt agacacaggt 80100agaaaagaga tagctgggaa gggggaaaga atctcgttat tcaaagccgc tcagtcatgt 80160atggaagact gttccagctg gtgaaaagat aatcaggccg gttaacaggg caggctggtt 80220caggcgagtt gtatgaagcc atttggatgc tgcttttatt tttcaagtct ttgaagtggg 80280tctcagattc agaaaacgat ttagcacatg ctctggaagc tgaactaaac tggaagcaag 80340gaagcagcaa caagggggga agttgatttt tgtcataggg aaatctagat gtggtgtata 80400tatatatatc tgtagggaaa gattaatgtt tacttagaga cagttacttt cagtgattcc 80460tctataaacc caggatactg ggataaaccc agtatctgga taaacccagt atactgtata 80520cagtataccc aggatactgt ataaactgga gacttgagta cttgaggtta atatggtgct 80580gagatgtgtg tttttaaaat tttgttatca ttcctataag ttttttgttt catcttagag 80640taatatattg tttcatattg gtgttagaaa taagtttggt ttttggtata atgtgcttca 80700gctggatggt gtacttcagt tatgcctgct catctcttga tttgtgacac atgaattact 80760aagaccctgt actaagcatc tcctattcct aagcacctcc tagcaatgtg aattactaac 80820ttaatcctat cacagtgaag acgaactcag tatgcacata cttctagaat tgtgattgta 80880tttatctgtt ctctatcttg gatggatgga tgggtatgga tgatctttct tgggtactat 80940agttccagtt ggtgcctttt attaacagaa aatctcacaa agattttgta ttaatgtttg 81000tcttgagcca atggcctatt taaatttagg tgggatgtta tttgattctc ttaatgagcc 81060ttgtggaata ggaaatgaca acccactttg gtattcttga ctggaaaatt ctatgggcag 81120aggagcctgg caggctacat tccacgggtc gcaaagagtt ggacagactg accacacaca 81180cacacacaca cacacacaca cacagagcct tgggagattg ttagaaagtg tccttacgca 81240cacacgcaca cacacacaca gccttgggag

agtgttagaa agtgtccttg gagcctgaac 81300atcaaatggg gaatggcaag agaagcaatt gctcgtgtca ggctagtata gtttggcttt 81360tgaagacatg ggggatggct taagaagttt acaaagtcga tatgcaaggt ctctatagtt 81420atttgcacct tgagccttct ctttcactgc tttcagagag tagggcttga gctagttatt 81480accattcatt gtgctcacag attaaaacta ggctctttta attttctggg tgccagtcta 81540taagtggttt cctacttttg cagtttccaa agtggaatat gttttaaatg tgataacaat 81600agagcagttt ccggctatag gaagaattac agattatttt gatttggggg aagttctact 81660atgatatgct caggtgtgtg tggttttctt atgcatatcc tgtcttggtg ttcctggagc 81720tccttcagtc tgtggcttga taccttcagt tttggaaaat gtttggccaa tatttcttca 81780aacactgatt ctgcttcatt tttattttct ctttttcagg tctccagtta cttgtatgcc 81840agatcttttt catcacattt catatgtttc ttagctcttt tatgtagtta aaaaaaaaaa 81900agctacttct tcattctctt cagtctgaag ttttttgttt cttttccatg ctgataattt 81960tcatacactc ttcaatctgg atgttttcca catggaagtc tgtcagttca ctaattcttt 82020cccagtctgt atctaaactg ctattaaact catctactga ttttttaaaa actattgatt 82080agttctttgg tgatagccta tcttttcatt tattttctta gacatattac tcagttattt 82140taacgcagat gtctgatgac tccaacgtgc aatacttatg ggtctacttc tattttcttg 82200ttttggaaca ttaggtctta ttttctggcg tgcttggtaa ttttttattg aaaatttgga 82260tgatgatgac tttggaatag atttaaattt cttttagcaa aatatgagtg gatcacattg 82320cttgagtaaa ggctggtctg cttctaggtt gctcatattt ccaggtcata gccctactgg 82380tacgatctca aaaacttggg gttttcaact ggtaaactca cagctccaaa ctttgtctcc 82440ctgttaatga gctgctactg ctgctaagtc acgtcagttg tgtctgactc tgcgacccca 82500tagacggcag cccaccaggc tcctccatcc ctgggattct ccaggcaaga acactggagt 82560gggctgccat ttccttctcc aatgcatgaa agtggaaagt gaaagtgaag tcgctcagtc 82620gtgtctgact cttagtgatc ccatggactg cagcctacca ggctcctcca tccatgggag 82680tttccaggca agagtactgg agtgggtggc cagtgccttc tccgcctatt aatgagatgc 82740tacttaaata tattcattca gcttttgagc agctctttct gcctggtttt tctgggtttt 82800gccccatgta tgtgtaattt gcctcaagaa tgctgggcat ggaatgcttc atcttttctc 82860ttttccagaa ttttagatac ttaagtcctg gctgctttgg ttacacccat cagaaaacat 82920tcttcaaaga gctgcatctt gtattttgtc tgcttctaca gttgtcctta ggaggatgat 82980tggtttggac aagctactct acagtagcca gagagaaagt tcttcattga ttactttgat 83040ttttaagaat taaaaccaag tttatggaag tttcattttt caaagctatt gcacaagctg 83100ttaagttcac cttaagatcc tactctaaat ccttataaag gggccttttc taacttgtta 83160aatgaaatat tttaaacttc atttataaat ttaatactca cttgttgttt taaattcttt 83220aactacttaa ctcttggttt gatcttctca atcattttta tacataattc taaaccttcc 83280tagaatttat atgttgtcca ttaagaaaat gagtttatca ttccaaacaa ttttggagtt 83340tgtcttctta gttgattaaa ggaacatagc aaccagagat gtaaagtcag gagctttaaa 83400ttcaaagaaa tgtctcttgt cactgactgc ttggccaccc ccctttttgt aatatctatg 83460tcatacactc aaataagaat ggagtgatgg tgatcatgta gcctgtccct gatcttgagt 83520catattaata atatattttt taagtcagct ctaactccca tttatctttt gctgtttcat 83580gagttttgag taattttcat actctcccta tttacttgtt agatgtttaa ttgacatcta 83640attggagttt atatattcgg agttgtgtct gcctccctaa tgtaggttcc aagcttgtta 83700ttgttgttgt gatatggcct attcattgga aatggagctg cttattgcat tgaagtttaa 83760aatggacttg ttttaaaatt ttaaaaatac atttaattgt attaaatata gccaaactat 83820ttttacttaa acatgttatc aatataaaat gaccaataag gcattttaca ttaaactttt 83880tttgatctct aaaattttta acaaattgaa ataattgaca taataacatt agtttcaggt 83940gtacaacata atgacataat atttgtatat tttgtgaagt gatcaccaaa ataaacctac 84000ttaatatcca tcacacacaa aagtcacaca tttttttctt cttatggtga ggacttttaa 84060gatctctctt ggctactttc aaatatacaa tacagtatta ttacctatag ttactgtgcc 84120acacattata tccccaggtc ttatttattt tataactgga agtttgtacc aaagcagttt 84180tgttttaagt gtattgttaa ctactgttta cagtctcatt tacctggact atcaacttat 84240tgttgctttt ccctccacag gaaggcggaa atgctcaaaa tgtcttccaa tagttacgag 84300gtttctatcc caatgtcaaa aaaactcaac ggcattccag agacaacctc taaggacctg 84360cagacattaa ctgaaggagc tgtgttaagt tttcataaca tctgctatcg agtaaaagtg 84420aagactggct ttctactttg tcggaaaaca attgagaaag aaatactagc aaatatcaag 844801831977DNABos taurus 183atgctcaaaa tgtcttccaa tagttacgag gtttctatcc caatgtcaaa aaaactcaac 60ggcattccag agacaacctc taaggacctg cagacattaa ctgaaggagc tgtgttaagt 120tttcataaca tctgctatcg agtaaaagtg aagactggct ttctactttg tcggaaaaca 180attgagaaag aaatactagc aaatatcaat ggagtcatga aacctggcct caatgccatt 240ctgggaccca caggtggagg caaatcttcg ttgttagata tcttagctgc aaggaaggat 300ccacatggat tatctggaga tgttttgatc aatggagcac ctcgacctgc caattttaaa 360tgtaactcag gttatgtggt acaagatgat gttgtgatgg gaactctgac agtgagagaa 420aacttacagt tctcagcagc ccttcggctt ccaacaacta tgacaagtta cgaaaaaaat 480gaacggatta acaaggttat tcaagagtta ggtctggata aagtggcaga ttccaaggtt 540ggaactcagt ttatccgtgg tgtgtctgga ggagaaagaa aaaggactag tattgcaatg 600gagcttatta ctgatccatc catcttgttc ctggatgagc ccacaactgg cttagattca 660agcacagcaa atgctgtcct tttgctcctg aagaggatgt ctaaacaagg acggacaatc 720atcttctcca ttcatcagcc tcgttattcc atcttcaagt tgtttgatag cctcaccttg 780ttggcctcgg gaagactcat gttccacggg cctgctcagg aggccttggg gtactttgga 840gccataggtt tccgctgtga gccctataat aaccctgcag acttcttcct ggacatcatt 900aatggagatt cttctgctgt ggtgttaaat agagaagaca taggtgatga agctaacgag 960accgaagagc cttccaaaaa agatactcca ctcatagaaa aattagctga gttttatgtc 1020aactcctcct tcttcaagga aacaaaagtt gaattagata aattctcagg ggatcagaga 1080aggaagaagc ttccatccta caaggaggtc acttatgcca cctccttctg tcatcagctc 1140aaatggattt ccaggcgttc attcaaaaat ttactgggta atccccaggc ttctatagct 1200cagctaattg tgacagtctt cctgggactg gttataggtg ccattttcta tgatctaaaa 1260aatgatcctg caggaatcca gaacagagcc ggggtgctct tcttcctgac gaccaaccag 1320tgtttcagca gtgtgtcagc cgtggagctc ctggtggtgg agaagaagct gtttatacat 1380gaatatatca gtggatacta tagagtgtca tcttacttct ttggaaaact gttatctgat 1440ttactcccca tgaggatgtt accaagtatt atatttactt gtataacata cttcttgtta 1500ggactgaagc caaaggtgga ggccttcttc atcatgatgc ttaccctgat gatggtggct 1560tattcagcta gttccatggc actggctata gcagcaggtc agagtgtggt atctatagca 1620actctgctca tgaccatctc ttttgtgttt atgatgatat tttcagggct gttggtaaat 1680ctcaaaaccg tcgtgccttg gttgtcatgg cttcaatact tgagcattcc tcgatacggc 1740tatgcggctt tgcagcataa tgaatttttg ggacaaaact tctgcccagg actcaatgta 1800acaacaaaca atacgtgtag ctatgccata tgtactggcg aagaatttct gaccaaccag 1860ggcatcgata tctcaccttg gggcctgtgg aagaatcacg tagccttggc atgcatgatt 1920gttatcttcc ttacaattgc ctacctgaaa ttgttattcc ttaaaaaatt ttcttaa 197718411DNABos taurus 184cggctmtgcg g 11185658PRTBos taurus 185Met Leu Lys Met Ser Ser Asn Ser Tyr Glu Val Ser Ile Pro Met Ser1 5 10 15Lys Lys Leu Asn Gly Ile Pro Glu Thr Thr Ser Lys Asp Leu Gln Thr 20 25 30Leu Thr Glu Gly Ala Val Leu Ser Phe His Asn Ile Cys Tyr Arg Val 35 40 45Lys Val Lys Thr Gly Phe Leu Leu Cys Arg Lys Thr Ile Glu Lys Glu 50 55 60Ile Leu Ala Asn Ile Asn Gly Val Met Lys Pro Gly Leu Asn Ala Ile65 70 75 80Leu Gly Pro Thr Gly Gly Gly Lys Ser Ser Leu Leu Asp Ile Leu Ala 85 90 95Ala Arg Lys Asp Pro His Gly Leu Ser Gly Asp Val Leu Ile Asn Gly 100 105 110Ala Pro Arg Pro Ala Asn Phe Lys Cys Asn Ser Gly Tyr Val Val Gln 115 120 125Asp Asp Val Val Met Gly Thr Leu Thr Val Arg Glu Asn Leu Gln Phe 130 135 140Ser Ala Ala Leu Arg Leu Pro Thr Thr Met Thr Ser Tyr Glu Lys Asn145 150 155 160Glu Arg Ile Asn Lys Val Ile Gln Glu Leu Gly Leu Asp Lys Val Ala 165 170 175Asp Ser Lys Val Gly Thr Gln Phe Ile Arg Gly Val Ser Gly Gly Glu 180 185 190Arg Lys Arg Thr Ser Ile Ala Met Glu Leu Ile Thr Asp Pro Ser Ile 195 200 205Leu Phe Leu Asp Glu Pro Thr Thr Gly Leu Asp Ser Ser Thr Ala Asn 210 215 220Ala Val Leu Leu Leu Leu Lys Arg Met Ser Lys Gln Gly Arg Thr Ile225 230 235 240Ile Phe Ser Ile His Gln Pro Arg Tyr Ser Ile Phe Lys Leu Phe Asp 245 250 255Ser Leu Thr Leu Leu Ala Ser Gly Arg Leu Met Phe His Gly Pro Ala 260 265 270Gln Glu Ala Leu Gly Tyr Phe Gly Ala Ile Gly Phe Arg Cys Glu Pro 275 280 285Tyr Asn Asn Pro Ala Asp Phe Phe Leu Asp Ile Ile Asn Gly Asp Ser 290 295 300Ser Ala Val Val Leu Asn Arg Glu Asp Ile Gly Asp Glu Ala Asn Glu305 310 315 320Thr Glu Glu Pro Ser Lys Lys Asp Thr Pro Leu Ile Glu Lys Leu Ala 325 330 335Glu Phe Tyr Val Asn Ser Ser Phe Phe Lys Glu Thr Lys Val Glu Leu 340 345 350Asp Lys Phe Ser Gly Asp Gln Arg Arg Lys Lys Leu Pro Ser Tyr Lys 355 360 365Glu Val Thr Tyr Ala Thr Ser Phe Cys His Gln Leu Lys Trp Ile Ser 370 375 380Arg Arg Ser Phe Lys Asn Leu Leu Gly Asn Pro Gln Ala Ser Ile Ala385 390 395 400Gln Leu Ile Val Thr Val Phe Leu Gly Leu Val Ile Gly Ala Ile Phe 405 410 415Tyr Asp Leu Lys Asn Asp Pro Ala Gly Ile Gln Asn Arg Ala Gly Val 420 425 430Leu Phe Phe Leu Thr Thr Asn Gln Cys Phe Ser Ser Val Ser Ala Val 435 440 445Glu Leu Leu Val Val Glu Lys Lys Leu Phe Ile His Glu Tyr Ile Ser 450 455 460Gly Tyr Tyr Arg Val Ser Ser Tyr Phe Phe Gly Lys Leu Leu Ser Asp465 470 475 480Leu Leu Pro Met Arg Met Leu Pro Ser Ile Ile Phe Thr Cys Ile Thr 485 490 495Tyr Phe Leu Leu Gly Leu Lys Pro Lys Val Glu Ala Phe Phe Ile Met 500 505 510Met Leu Thr Leu Met Met Val Ala Tyr Ser Ala Ser Ser Met Ala Leu 515 520 525Ala Ile Ala Ala Gly Gln Ser Val Val Ser Ile Ala Thr Leu Leu Met 530 535 540Thr Ile Ser Phe Val Phe Met Met Ile Phe Ser Gly Leu Leu Val Asn545 550 555 560Leu Lys Thr Val Val Pro Trp Leu Ser Trp Leu Gln Tyr Leu Ser Ile 565 570 575Pro Arg Tyr Gly Tyr Ala Ala Leu Gln His Asn Glu Phe Leu Gly Gln 580 585 590Asn Phe Cys Pro Gly Leu Asn Val Thr Thr Asn Asn Thr Cys Ser Tyr 595 600 605Ala Ile Cys Thr Gly Glu Glu Phe Leu Thr Asn Gln Gly Ile Asp Ile 610 615 620Ser Pro Trp Gly Leu Trp Lys Asn His Val Ala Leu Ala Cys Met Ile625 630 635 640Val Ile Phe Leu Thr Ile Ala Tyr Leu Lys Leu Leu Phe Leu Lys Lys 645 650 655Phe Ser186208DNABos taurus 186cgggtgggct tggcggaact ggcctctaca ccccgacatc ctccatcgac tgccgggggc 60cgactgtttg gaaagaggat ggggctggtg gcggcgggga agcgctcatc tgcccgggaa 120aatagctgga gaggagtgcg ggattagagc tatgcccctg atagtgtccc cgcaaccagc 180gagaccctgt agttcctcgg tcctggag 208187336DNABos taurus 187gtgatggaga aggaactgtg gttaataacc agctaacagt ggagaaaaaa ggaagtcaat 60tagatatgag aactggacat tttcccaaga ctagcttgtt tggaaagcct cagtctttct 120ggtagttgca gggggctgat aaggttcctc tctggtactt tctcttgcgc cttgaaagct 180ggcaggaagg gaagctcctg gactgttaat agatgcggct cttgcttgaa gtttctatga 240gaaagccgac aagagtcgaa atcttctctg tatccccact gcctctctac agaggtttgg 300gctgttttcc ttccaacatc acagatcata actgag 336188100DNABos taurus 188tgcgctcgct cgtcggccct cgaccgccgg ctcgccgccc gctctctccg acgtgacggt 60aacccggggc cagtgccttc ccaggtcagc cgctgcgccg 1001891552DNABos taurus 189aggagagact ccatcttgaa gcctgtcatc cgtcttaaag acaggatgtg aactgggccg 60gaaccctgct taagagtgag gaaacagttg ctagtgaaaa ccaggtctcc tggagacttc 120actccctaca gatggcaaac ggagattgta gttgtggtca ggctgcccct gttagattaa 180tcatggagac atcctccctt gatgtataat cattgttccc ccctcccggc cccacctccc 240ccgttaacct taattgtttg ttctcctagc acctacttgt aaaactcaat catatacaac 300aaaaagattg ttaacatgta accagtcacg tgtgtgtgtg tgtgtgtgtg tgtgtgtgtg 360tgtgtaaaac tgggcctctc aaaaacatca gggtccttgt tgggaactga ttccccttgg 420acctgctggc ataataaact gtactccagt cttgagtgtc ccctgaggtg tgttttgcaa 480ctcaggattc cacaacattt ccagaaggac atcagtgttg acctagacag gtgaagcaaa 540aatgtttgga gccaacagag atctaaccag tgaagtcact gaaccttgtt cacaaatcaa 600gggtagattc tttcaaggac caggtgacta ggaggcaagc gaccaaaggc aggactggtt 660acatatttcg tgacagtgtt ggtcgctcag tcgtgtccga ctctgtgcaa tcccatgggc 720tgtagccttt caggctcctc tgtccaaggg attcttcaag caagaatact ggagtgggtt 780gccataccct ccgccaggga atcttcccca cccagggact gaacctaggt ctctcgcatt 840gtaggcagat tctttaccat ctgagtcacc agctgggtcc tgtgcagctg tacaggtcgt 900acccccgtat ccggagggga aatactttca aagcaaacgc ggcaagttaa tgcagagcac 960gggaaaaagt agggcgccca ttcactgcat ctcaaggcct tccagcactg aacaagtagc 1020actgtgggtg gtgcctggcc ccaggtggtg actgaggctg ctgcctcgga ttccccaacc 1080aggtacaccc ggagcagctc gcatcctggc ttcataggca gagacgagaa tagcggtgtg 1140gggcgctctg ctcactctca ggaagggggc gagaggctgc gcccagaccc tgtaaccccc 1200gccccgcgcc cctccatccc ccgcccggag cccctgtatc cccggcccgg cgcccctccg 1260gcccctgctc cactggtcta gcggctgcgc ctcgggaggg cctggcggag ccccggacct 1320gcgccagaaa acggtccgaa cagctagctg cccttccggt cctccttttc cgctttgttt 1380cttctcggtt tccatccacc ctaagtcctt ttctcctctc ctctccccgc cccgcggtgt 1440caatctcccc ggattgacag agaacgtagc ctaaatacta aagctgagag aatcgcgcgc 1500ggaggcgctc gctggtcccg cctcctgccg gctttctttt ctctgtgcgc cc 155219074PRTBos taurus 190Asn Leu Lys Thr Val Val Pro Trp Leu Ser Trp Leu Gln Tyr Leu Ser1 5 10 15Ile Pro Arg Tyr Gly Tyr Ala Ala Leu Gln His Asn Glu Phe Leu Gly 20 25 30Gln Asn Phe Cys Pro Gly Leu Asn Val Thr Thr Asn Asn Thr Cys Ser 35 40 45Tyr Ala Ile Cys Thr Gly Glu Glu Phe Leu Thr Asn Gln Gly Ile Asp 50 55 60Ile Ser Pro Trp Gly Leu Trp Lys Asn His65 7019174PRTCanis familiaris 191Asn Phe Lys Thr Val Gly Pro Trp Leu Ser Trp Leu Gln Asn Leu Ser1 5 10 15Ile Pro Arg Tyr Gly Tyr Gly Ala Leu Gln His Asn Glu Phe Leu Gly 20 25 30Gln Asn Phe Cys Pro Gly Leu Asn Val Thr Thr Asn Lys Thr Gly Ser 35 40 45Tyr Ala Ile Cys Thr Gly Glu Glu Phe Leu Thr Asn Gln Gly Ile Asp 50 55 60Ile Ser Pro Trp Gly Leu Trp Lys Asn His65 7019274PRTSus scrofa 192Asn Leu Lys Thr Val Val Pro Trp Leu Ser Trp Leu Gln Tyr Phe Ser1 5 10 15Ile Pro Arg Tyr Gly Phe Ser Ala Leu Gln Tyr Asn Glu Phe Leu Gly 20 25 30Gln Asn Phe Cys Pro Gly Leu Asn Val Thr Thr Asn Asn Thr Cys Ser 35 40 45Phe Ala Ile Cys Thr Gly Ala Glu Tyr Leu Glu Asn Gln Gly Ile Ser 50 55 60Leu Ser Ala Trp Gly Leu Trp Gln Asn His65 7019374PRTMacaca mulatta 193Asn Leu Thr Thr Ile Ala Ser Trp Leu Ser Trp Leu Gln Tyr Phe Ser1 5 10 15Ile Pro Arg Tyr Gly Phe Thr Ala Leu Gln His Asn Glu Phe Leu Gly 20 25 30Gln Asn Phe Cys Pro Gly Leu Asn Ala Thr Val Asn Asn Thr Cys Asn 35 40 45Tyr Ala Thr Cys Thr Gly Glu Glu Tyr Leu Ala Lys Gln Gly Ile Asp 50 55 60Leu Ser Pro Trp Gly Leu Trp Lys Asn His65 7019474PRTPongo pygmaeus 194Asn Leu Thr Thr Ile Ala Ser Trp Leu Ser Trp Leu Gln Tyr Phe Ser1 5 10 15Ile Pro Arg Tyr Gly Phe Thr Ala Leu Gln His Asn Glu Phe Leu Gly 20 25 30Gln Asn Phe Cys Pro Gly Leu Asn Ala Thr Ala Asn Asn Thr Cys Asn 35 40 45Tyr Ala Thr Cys Thr Gly Glu Glu Tyr Leu Ala Arg Gln Gly Ile Asp 50 55 60Leu Ser Pro Trp Gly Leu Trp Lys Asn His65 7019574PRTHomo sapiens 195Asn Leu Thr Thr Ile Ala Ser Trp Leu Ser Trp Leu Gln Tyr Phe Ser1 5 10 15Ile Pro Arg Tyr Gly Phe Thr Ala Leu Gln His Asn Glu Phe Leu Gly 20 25 30Gln Asn Phe Cys Pro Gly Leu Asn Ala Thr Gly Asn Asn Pro Cys Asn 35 40 45Tyr Ala Thr Cys Thr Gly Glu Glu Tyr Leu Val Lys Gln Gly Ile Asp 50 55 60Leu Ser Pro Trp Gly Leu Trp Lys Asn His65 7019674PRTPan troglodytes 196Asn Leu Thr Thr Ile Ala Ser Trp Leu Ser Trp Leu Gln Tyr Phe Ser1 5 10 15Ile Pro Arg Tyr Gly Phe Thr Ala Leu Gln His Asn Glu Phe Leu Gly 20 25 30Gln Asn Phe Cys Pro Gly Leu Asn Ala Thr Gly Asn Asn Pro Cys Asn 35 40 45Tyr Ala Thr Cys Thr Gly Glu Glu Tyr Leu Val Lys Gln Gly Ile Asp 50 55 60Leu Ser Pro Trp Gly Leu Trp Lys Asn His65 7019776PRTMus musculus 197Asn Leu Arg Thr Ile Gly Pro Trp Leu Ser Trp Leu Gln Tyr Phe Ser1 5 10 15Ile Pro Arg Tyr Gly Phe Thr Ala Leu Gln His Asn Glu Phe Leu Gly 20 25 30Gln Glu Phe Cys Pro Gly Leu

Asn Val Thr Met Asn Ser Thr Cys Val 35 40 45Asn Ser Tyr Thr Ile Cys Thr Gly Asn Asp Tyr Leu Ile Asn Gln Gly 50 55 60Ile Asp Leu Ser Pro Trp Gly Leu Trp Arg Asn His65 70 7519876PRTRattus norvegicus 198Asn Leu Arg Thr Ile Gly Pro Trp Leu Ser Trp Leu Gln Tyr Phe Ser1 5 10 15Ile Pro Arg Tyr Gly Phe Thr Ala Leu Gln Tyr Asn Glu Phe Leu Gly 20 25 30Gln Glu Phe Cys Pro Gly Phe Asn Val Thr Asp Asn Ser Thr Cys Val 35 40 45Asn Ser Tyr Ala Ile Cys Thr Gly Asn Glu Tyr Leu Ile Asn Gln Gly 50 55 60Ile Glu Leu Ser Pro Trp Gly Leu Trp Lys Asn His65 70 75