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Allergens of alder pollen and applications thereof

Μόνο εγγεγραμμένοι χρήστες μπορούν να μεταφράσουν άρθρα
Σύνδεση εγγραφή
Ο σύνδεσμος αποθηκεύεται στο πρόχειρο
Heimo Breiteneder
Rudolf Valenta
Michael Breitenbach
Dietrich Kraft
Helmut Rumpold
Otto Scheiner

Λέξεις-κλειδιά

Πληροφορίες διπλώματος ευρεσιτεχνίας

Αριθμός διπλώματος ευρεσιτεχνίας5693495
Αρχειοθετήθηκε05/31/1992
Ημερομηνία ευρεσιτεχνίας12/01/1997

Αφηρημένη

This invention provides recombinant DNA molecules which code for polypeptides that exhibit the antigenicity of an Aln g I allergen of alder, Alnus sp., of a Cor a I allergen of hazel or of a Bet v I allergen of birch and other plants of the order Fageles, and for polypeptides comprising at least one epitope thereof, as well as nucleic acids which under stringent conditions hybridize with such DNA sequences or are derivable from such sequences by degeneracy of the genetic code. In addition, methods are described for using the polypeptides coded by these DNA molecules and their use in the diagnosis or therapy of allergic diseases.

Αξιώσεις

We claim:

1. A recombinant DNA molecule encoding a Cor a I allergen, wherein said allergen has the amino acid sequence of SEQ ID NO:17.

2. A recombinant DNA molecule wherein said DNA molecule has the nucleotide sequence of SEQ ID NO:16.

3. A method for producing a Cor a I allergen, comprising the steps of: (a) culturing prokaryotic or eukaryotic host cells comprising Cor a I encoding DNA according to claim 2 under such conditions that said Cor a I allergen is expressed by said host cells and (b) recovering said allergen.

4. A replicable prokaryotic or eukaryotic expression vehicle comprising the DNA molecule according to claim 1.

5. A prokaryotic or eukaryotic host cell comprising the expression vehicle according to claim 4.

6. A host cell according to claim 5 wherein the host cell is Escherichia coli.

7. A recombinant DNA molecule wherein said DNA molecule has the nucleotide sequence of SEQ ID NO:15.

8. A method for producing a Cor a I allergen, comprising the steps of: (a) culturing prokaryotic or eukaryotic host cells comprising Cor a I encoding DNA according to claim 7 under such conditions that said Cor a I allergen is expressed by said host cells and (b) recovering said allergen.

9. A replicable prokaryotic or eukaryotic expression vehicle comprising the DNA molecule according to claim 7.

10. A prokaryotic or eukaryotic host cell comprising the expression vehicle according to claim 9.

11. A host cell according to claim 10 wherein the host cell is Escherichia coli.

12. A method for producing a Cor a I allergen, comprising the steps of: (a) culturing prokaryotic or eukaryotic host cells comprising Cor a I encoding DNA according to claim 1 under such conditions that said Cor a I allergen is expressed by said host cells and (b) recovering said allergen.

13. A replicable prokaryotic or eukaryotic expression vehicle comprising the DNA molecule according to claim 1.

14. A prokaryotic or eukaryotic host cell comprising an expression vehicle according to claim 13.

15. A host cell according to claim 14 wherein the host cell is Escherichia coli.

Περιγραφή

1. FIELD OF THE INVENTION

The invention provides recombinant DNA molecules which code for polypeptides, and the polypeptides per se, that have at least one epitope of an Aln g I pollen allergen, or a Cor a I pollen allergen or a Bet v I pollen allergen of a tree of the order Fagales, particularly alder, Alnus sp., or the entire Aln g I allergen protein, particularly hazel, Corylus sp., or the entire Cor a I allergen protein, or particularly birch, Betula sp., or the entire Bet v I allergen protein, and exhibit the same or similar anti-genicity as the Aln g I, the Cor a I or the Bet v I allergen. The invention also provides replicable microbial expression vehicles and microorganisms for use in processes for producing such allergenic polypeptides. Methods are provided for the diagnosis and therapy of allergic diseases using the synthetic polypeptides of the invention.

2.BACKGROUND OF THE INVENTION

It has long been known that a type I allergy to pollen proteins is associated with symptoms such as itchy and reddened eyes, running nose, swollen eyelids, coughing and asthmatic conditions. In this respect, the pollens of early-flowering trees of the order Fagales (e.g., birch, hazel, alder and hornbeam) hold an important position. Numerous studies have been carried out to identify and characterize the allergens of these pollens precisely (1-4). Progress with regard to the exact characterization of pollen allergens has been hindered by the heterogeneity of the pollen extracts currently in use. Some eight alIergens of alder pollen elicit an IgE response in atopics and one of them, Aln g I, a 17 kD protein, reacts with a majority of the sera of allergic patients as the major allergen (5, 6).

At least 10% of the population suffers from pollen allergies at various times and to varying extent. These allergies are mediated by IgE antibodies which react with pollen proteins. The possibility exists for a therapy for pollen allergies by hyposensitization, i.e., by the regular and slowly increasing administration of the proteins producing the allergy.

Diagnostic methods for allergic diseases, such as radio-allergosorbent test (RAST), paper radioimmunosorbent test (PRIST), enzyme-linked immunosorbent assay (ELISA), radioimmunoassays CRIA), immuno-radiometrie assays (IRMA), luminescence immunoassays (LIA), histamine release assays, and IgE immunoblots depend greatly upon the availability of pure nileteens. Protein extracts from pollen isolated from natural sources are difficult to standardize because preparations vary from batch to batch. For example, they may contain unwanted constituents, and/or certain proteins may be lost in the extraction procedure and be missing from the final preparation (7). Clearly, diagnostic tests which employ well defined allergens that can be reprodueibly prepared would be superior to tests which employ raw pollen extracts with an in. sufficiently defined mixture of allergens and other components. Recombinant DNA production of allergenic polypeptides, or altergenic fragments thereof, would allow more reproducible preparations of fliergens of defined content for standardized diagnostic and therapeutic methods.

Allergens may be purified to homogenity from pollen by known protein/chemical methods, for example, by means of affinity chromatography (8). These methods are relatively costly and require pollen as an expensive source for allergens. It would, therefor, be cheaper and more efficient to use recombinant DNA methods to produce an allergenic protein, or fragments of that protein.

Hyposensitization has proved to be an effective therapy in allergic diseases. This therapy consists of parenteraI or oral administration of allergens in increasing doses over a fairly long period of time.

3. SUMMARY OF THE INVENTION

The present invention provides recombinant DNA molecules which contain a nucleotide sequence that codes for a polypeptide which exhibits the same or similar antigenic properties as the major allergen, Aln g I, Cor a I or Bet v I of trees of the order Fagales, for example, of alder (Alnus sp.), hazel (Corylus sp.) or birch (Betula sp.) or a polypeptide which comprises at least one epitope of such allergens. The invention provides the complete cDNA sequence of an Aln g I, a Cor a I or a Bet v I allergen and hence the complete deduced amino acid sequences. Additionally, the invention includes (a) nucleotide sequences which hybridize with such a cDNA sequence under high stringency and encode a polypeptide having at least one epitope of an Aln g I, a Cor a I or a Bet v I allergen and (b) nucleotide sequences which can be derived from such allergenic polypeptides by degeneracy of the genetic code. This nucleotide sequence can be expressed as an Aln g I, a Cor a I or a Bet v I allergen, or as a polypeptide which comprises at least one epitope thereof. In a preferred embodiment, this cDNA sequence contains the whole sequence or parts of the sequence set forth in the Sequence Listing as SEQ ID NO.2 for Aln g I, as SEQ.ID NO.10, 13, 16 and 19 for Cor a I and as SEQ ID NO.22 for Bet v I.

As concerns their IgE binding: pollens of birch, alder, hazel and hornbeam possess similar major allergens which--so far as is known--exhibit a high degree of hornology on the amino acid level. The present invention therefore relates not only to an Aln g I allergen of alder, or Cor a I of hazel or Bet v I of birch, but as well to Aln g I, Cor a I or Bet v I pollen allergens of other species which are coded by DNA allergen under stringemt conditions or can be derived from such polypeptide allergens by degeneracy of the genetic code.

Hybridization of a polynucleotide with another polynucleotide under stringent conditions requires at least a 60% identity between such polynucleotides at the nucleic acid level.

Such stringent conditions entail washing of hybridized nitrocellulose filters as follows:

(a) For DNA/DNA and DNA/RNA hybridizations: A temperature of 55.degree. C., a salt concentration of 150 mM NaCl and 15 mM Na.sub.3 citrate at pH 7,0, and a SDS (Sodium Dodecyl Sulfate) detergent at a concentration of 0,1% (w/v).

(b) For oligodexynucleotide/DNA hybridizations: A temperature of 55.degree. C., a salt concentration of 1M NaCl and 10 mM Na.sub.3 citrate.times.2H.sub.2 O at pH 7,0, and a SDS (Sodium Dodecyl Sulfate) detergent at a concentration of 0,5% (w/v). In this context "oligodeoxynucleotide" refers to an oligomer of a single-stranded DNA of up to 100 nucleotides in length.

In addition, this invention provides expression plasmids that contain a nucleotide sequence as described above and host cells which harbor these expression plasmids.

This invention also provides compositions containing synthetic polypeptides which exhibit the antigenicity of parts or of the whole of an alder Aln g I allergen or of allergens of other plants which, because of a high degree (at least 50%) of amino acid homology (9), exhibit antigenie cross-reactivity to parts or to all of an alder Aln g I allergen, i.e., antibodies or cellular antigen binding sites which are actually directed to alder Aln g I allergen are likewise able to bind to these molecules. These synthetic polypeptides include fusion and nonfusion polypeptides which contain a polypeptide portion that possesses the antigenicity of a part or of all of an alder polypeptid which contain a polypeptide portion that possesses the antigenicity of a part or of all of an Aln g I or a Cor a I or a Bet v I allergen. The method for preparing such synthetic polypoptides comprises the steps of culturing of prokaryotic or eukaryotic host cells which contain an expression plasmid described above and purification of the synthetic polypeptide(s) from the culture.

The term "synthetic" here alternatively includes polypeptides which are prepared by cloning and expression of the nucleotide sequences described here or by chemical synthesis of polypeptides encoded by these nucleotide sequences.

The synthetic polypeptides which are produced according to this invention exhibit antigenicity the same as or similar to the native allergen. As shown below, a cDNA clone coding for an alder Aln g I, a hazel Cor a I or a birch Bet v I can be used to produce a nonfusion polypeptide which reacts with IgE in the sera of allergic persons. It is therefore possible to use this polypeptide as an antigen in diagnostic tests (such as RAST, PRIST, EISA, RIA, IRMA, LIA, histamine release assays and IgE immunoblots known in the art and referred to above), as a component of prophylactic or therapeutic agents in hyposensitization therapy, and as a component in any kind of in vivo diagnostic procedure such as bronchial, conjunctival, dermal, nasal and oral provocation and skin tests.

In particular, the synthetic allergens east be used as diagnostic reagents in vitro and in vivo, since their antigenicity corresponds to that of the native Aln g I pollen allergens and they are therefore able to bind IgE of sera of persons suffering from Aln g I pollen allergy. In the same way, the antigenicity corresponds to that of the native Cor a I or Bet v I pollen allergens and they are also able to bind IgE of sera of sensitive or allergic patients.

It is therefore one of the objects of the present invention to provide a method for the preparation of pollen allergens, in particular for Aln g I, Cor a I or Bet v I allergens, so as to have this family of allergens available for diagnostic tests for detection of the corresponding allergy and, alternatively, for hyposensitization therapy.

As main epitopes capable of modifying T-cell response the following amino acid sequences were found:

GlyValPheAsnTyrGlu

PheIleLeuAspGlyAspLysLeu

AlaIleSerSerValGluAsnIle

GlyAsnGlyGlyProGlyThrIleLysLysIleSerPhe

LysTyrValLysAspArgValAspGluValAsp

LeuLeuArgAlaValGluSerTyrLeuLeuAlaHisSer.

All these sequences are present in all said allergens, i.e. Aln g I, Cor a I and Bet v I.

4. BRIEF DESCRIPTION OF THE FIGURES

The following figures and description aid in understanding the field and scope of the invention.

FIG. 1 shows a cDNA (665 nucleotides, SEQ ID NO.1) encompassing the nucleotide sequence encoding an Aln g I allergen of alder. The cDNA sequence consists of a coding region of 483 nucleotides (including the initation and termination codons), a 3' noncoding region of 162 nucleotides and a poly-A tail of 20 nucleotides. The deduced amino acid sequence of alder Aln g I polypeptide is indicated in FIG. 1 under the respective condons. The complete protein has 160 (SEQ ID NO.3) amino acids (including the methionine of the initiation codon).

FIG. 2 shows the nucleotide sequence of the BP-A primer (SEQ ID NO.4) that was used for synthesis of the first cDNA strand. The recognition sequences of the restriction enzymes BglII (nucleotides 19-24) and HindIII (nucleotides 31-36) are underlined. The sequence of T7 primer (nucleotides 4-17), which was used as primer for the PCR amplification of Aln g I and is the constituent of BPA, is likewise indicated.

FIGS. 3-10 show Immunoblot analysis of isoforms of the major hazel pollen allergen Cor a I as recombinant non-fusion proteins, in particular

FIG. 3: An identical set of patients' sera was used to characterize the Cor a I isoforms (lanes 1-9). In FIG. 3, the Cor a I isoform expressed by the DNA sequence of SEQ ID NO:9 was characterized.

Lane B: buffer control without addition of patients' sera.

Lane N: a pool of non-allergic normal human sera.

IgE antibodies from the allergic patients' sera, which bound to the isoform expressed by the DNA of SEQ ID NO:9, was detected by .sup.125 I labeled rabbit-anti human IgE and showed reactivity with IgE from allergic patients' sera. All isoforms were able to bind IgE, although their individual binding pattern may differ from patient to patient.

FIG. 4: The Cor a I isoform expressed by the DNA sequence of SEQ ID NO:12 was characterized.

Lane B: buffer control without addition of patients' sera.

Lane N: a pool of non-allergic normal human sera.

IgE antibodies from the allergic patients' sera, which bound to the isoform expressed by the DNA of SEQ ID NO:12, was detected by .sup.125 I labeled rabbit-anti human IgE and showed reactivity with IgE from allergic patients' sera. All isoforms were able to bind IgE, although their individual binding pattern may differ from patient to patient.

FIG. 5: The Cor a I isoform expressed by the DNA sequence of SEQ ID NO:15 was characterized.

Lane B: buffer control without addition of patients' sera.

Lane N: a pool of non-allergic normal human sera.

IgE antibodies from the allergic patients' sera, which bound to the isoform expressed by the DNA of SEQ ID NO:15, was detected by .sup.125 I labeled rabbit-anti human IgE and showed reactivity with IgE from allergic patients' sera. All isoforms were able to bind IgE, although their individual binding pattern may differ from patient to patient.

FIG. 6: The Cor a I isoform expressed by the DNA sequence of SEQ ID NO:18 was characterized.

Lane B: buffer control without addition of patients' sera.

Lane N: a pool of non-allergic normal human sera.

IgE antibodies from the allergic patients' sera, which bound to the isoform expressed by the DNA of SEQ ID NO:18, was detected by .sup.125 I labeled rabbit-anti human IgE and showed reactivity with IgE from allergic patients' sera. All isoforms were able to bind IgE, although their individual binding pattern may differ from patient to patient.

FIG. 7: An identical set of experiments was performed using E.coli JM 105 transformed with the plasmid pKK 223.3 without any cDNA insertion. No bound IgE could be detected.

FIG. 8: Likewise the cDNA fragment whose sequence is shown in SEQ ID NO.1 was ligated into the expression plasmid pKK 223.3. The protein corresponding to the coding region (see SEQ ID NO.2 and SEQ ID NO.3) was expressed in E.coli JM 105 and tested with the identical set of patients' sera as above. rAln g I was able to bind IgE from these patients' sera in each case (lanes 1-9). In lanes B (buffer control, no patients' sera) and N (a pool of sera from non allergic individuals) no binding could be observed.

FIG. 9: This represents the quality control of the patients' sera used in the above experiments. The very same set of sera was tested on separated and blotted proteins from an aqueus extract of birch pollen. IgE from every single serum bound strongly to the major allergen of birch pollen, Bet v I (lanes 1-9). No binding could be observed for the buffer control (lane B) and the pool of sera from non allergic individuals.

FIG. 10: Furthermore the same sera were tested on rBet v I and showed exactly the same strong reactivity with the recombinant nonfusion protein.

FIG. 11: Inhibition experiment showing the capacity of rBet v I to bind IgE from tree pollen allergic patients' sera and thus to prevent the IgE from further binding to the corresponding hazel pollen allergen Cor a I. 1 ml each of a 1:10 dilution of birch pollen allergic individuals' sera (1-5), of a serum pool of non allergic individuals (6), and buffer without the addition of serum (7) was incubated over night at 4.degree. C. with the addition of 5 .mu.g of rBet v I (panel 1), 5 .mu.g of BSA (panel 2), or buffer only (panel 3). These samples were used to probe a Western blot of SDS-PAGE-separated hazel pollen proteins. In the case where rBet v I had been added no IgE binding to the 17 kD Cor a I could be observed. The addition of bovine serum albumin (BSA) or buffer without addition of a protein could not inhibit the binding of patients' IgE to the hazel Cor a I.

5. EXAMPLES

5.1. Poly A+ RNA Isolation From Pollen and Synthesis of the First cDNA Strand

Polyadenylated (polyA+) mRNA was isolated from ripe alder pollen (Allergon AB, Engelsholm,Sweden) (1). Using this, the first strand of cDNA was synthesized as follows:

2 .mu.l 10.times.buffer (480 mM Tris (hydroxymethyl) aminomethane (Tris), 60 mM MgCl.sub.2, 400 mM KCl, pH 4,8)

2 .mu.l 10 mM dithiothreitol (DTT)

1 .mu.l primer BP-A (100 ng/.mu.l, nucleotide sequence of FIG. 2) (SEQ ID NO.4)

2 .mu.l 25 mM deoxynucleoside triphosphates (dNTPs), i.e. 25 mM each of dATP, dCTP, dGTP, dTTP (Pharmacia, Uppsala, Sweden)

11 .mu.l H.sub.2 O

1 .mu.l poly A+RNA (3 .mu.g)

1 .mu.l AMV reverse transcriptase (United States Biochemical Corporation (USB), Cleveland, Ohio, USA)=32 Units.

This reaction, with a total volume of 20 .mu.l, was incubated for 2 hours at 42.degree. C., then diluted 1:1 with 1.times.TE buffer (10 mM Tris, 1 mM ethylenediamine tetraacetic acid (EDTA), pH 8,0) and stored at 4.degree. C.

5.2 Polymerase Chain Reaction (PCR)

PCR was carried out on the hybrid RNA-DNA molecules prepared in Section 5.1. A mixture of the following two oligodeoxynucleotides was used as primer for the 5'-end of the molecules:

No. 2482 (SEQ ID NO.5)

5'-GTT TIC AAT TAC GAA GCG GAA AC-3'

No. 2490 (SEQ ID NO.6)

5'-GTT TTC AAT TAC GAA GCG GAG AC-3'

The nueleotide sequences of these oligodeoxynueleotides were derived from the N-terminal amino acid sequence of alder Aln g I partially determined by Edman degradation and follwing the codon usage of birch (B. verrucosa).

T7 primer (SEQ ID NO.7) (Pharmacia), which is likewise a constituent of the BP-A primer, was used as primer for the 3' end of the molecules. The following mixture was used for the reaction:

2.5 .mu.l of the reaction mixture in Section 5.1

5.0 .mu.l 10.times.PCR buffer (400 mM KCl, 10 mM MgCl.sub.2, 10% gelatin, 100 mM Tris, pH 8.3)

2.0 .mu.l T7 primer (SEQ ID NO.7) (Pharmacia)=20 pmol

4.0 .mu.l primer mix in equal parts of No. 2482 (SEQ ID NO.5) and 2490 (SEQ ID NO.6)=100 pmol

2.5 .mu.l 2 mM dNTPs (Pharmacia)

1.5 .mu.l 100 mM MgCl.sub.2

32.5 .mu.l H.sub.2 O (to 50 .mu.l)

Addition of 1 unit Taq DNA polymerase (USB). The reaction mixture was incubated for 30 seconds at 93.degree. C., for 30 seconds at 55.degree. C. and for 1 minute at 72.degree. C. This cycle was run through 30.times.in all. Finally, the reaction mixture was kept at 72.degree. C. for another 10 minutes.

5.3 Cloning of the PCR Fragment and Sequencing

The DNA fragment synthesized in Section 5.2 was isolated from a 1,5% agarose gel by means of DEAE paper (10). This fragment was then kinased at the 5'-end.

a) Kinasing

10 .mu.l DNA (=500 ng Aln g I DNA)

2.5 .mu.l 10.times.T4 polynucleotide kinase buffer (Boehringer, Mannheim, Germany)

7.0 .mu.l .gamma.-.sup.32 P-ATP, 10 mCi/ml (Amersham, Little Chalfont, England

4.5 .mu.,l H.sub.2 O

1.0 polynucleotide kinase (Boehringer)

The reaction mixture was incubated for 20 minutes at 37.degree. C. After that another addition of 1 .mu.l polynucleotide kinase was made and the mixture was incubated for 60 minutes at 37.degree. C.

b) Klenow fill-in reaction:

To the above reaction mixture was added:

1 .mu.l 2 mM dNTPS (Pharmacia)

1 .mu.,l Klenow Fragment (=2 units)

The Kinased and filled-in DNA fragment was purified by way of a Nick.TM. Column (Pharmacia) and was then precipitated with ethanol and sodium acetate (9).

c) BglII digestion of fragment:

Several restriction enzyme sites were added at the 3'-end to the Aln g I sequence through the use of the BP-A oligodeoxynucleotide (FIG. 2; SEQ ID NO.4) in the PCR. The BglII site in this sequence was selected for cleavage with the restriction enzyme, BglII, to ligate the fragment in the corresponding BglII site of pBluescript.RTM. plasmid (Stratagene, LaJolla, Calif., USA). Due to the Klenow reaction, blut ends had already been produced at the 5'-end of the sequence. All the DNA precipitated in Section 5.3b was dissolved in 2 .mu.l 10.times.BglII buffer (Boehringer). 17 .mu.l H.sub.2 O and 1 .mu.l BglII (11 units) were added. The reaction mixture was incubated for 1.5 hours at 37.degree. C. The fragment so cut was eluted from a 1.5% agarose gel by means of DEAE paper (10).

d) Ligation of the DNA fragment in pBluescript.RTM. KS+ plasmid:

pBlueseript.RTM. KS+ plasmid (Stratagene) was selected as cloning vector and cut with the restriction enzymes EcoRV (supplies flush ends; the 5'-end of the Aln g I fragment is ligated to these) and BamHI (supplies staggered ends compatible with BglII; the 3'-end of the Aln g I fragment is ligated to these). The phosphate groups at the 5'-ends of the plasmid were removed by alkaline phosphatase (12) to prevent non-specific religation of the vector.

Ligation of Aln g I fragment in pBluescript.RTM. KS+ plasmid:

20 ng DNA from Section 5.3c dissolved in 10 .mu.l H.sub.2 O

2.0 .mu.l 10.times.ligation buffer (200 mM Tris, 50 mM MgCl.sub.2, 50 mM DTT, 500 .mu.g/ml bovine serum albumin; pH 7.6)

1.0 .mu.l 10 mM ATP

3.0 .mu.l pBluescript.RTM. KS+ cut with EcoRV and BamHI (=50 ng)

4.0 .mu.l H.sub.2 O

1.0 .mu.l T4 DNA ligase Boehringer (=3 units)

This reaction was incubated for 4 hours at room temperature.

e) Transformation of competent E.coli host cells:

Transformation was carried out in E.coli XL1-Blue cells (Stratagene) (13). The selection of positive clones was carried out on ampicillin-containing (100 .mu.g/ml) culture plates by means of the blue-white indication system (14).

f) Sequencing of Aln g I DNA:

Sequencing of Aln g I DNA was carried out by means of a T7 sequencing kit (Pharmacia), according to the manufacturer's instructions.

5.4 Expression of Aln g I DNA and Detection of IgE Binding of the Resulting Proteins

a) The DNA insert from the pBluescript.RTM. KS+ vector, which contains the coding sequence for Aln g I, was subjected to mutagenesis according to Kunkel et al (15). To complete the Aln g I sequence at the 5'-end and provide k with the ATG codon and an additional EcoRI site, the following oligodeoxynucleotide was synthesized (SEQ ID NO.8): 5'-CTT CGT AAT TGA AAA CAC CCA TGA ATT CCG ATA CCG TCG A-3' and used for mutagenesis. This enabled the Aln g I sequence to be ligated, in the correct orientation, by means of the EcoRI site at the 5'-end and by means of the HindIII site at the 3'-end of the gene in the expression plasmid pKK 223-3 (Pharmacia). E.coli K12 JM105 cells (thi, rpsL, endA sbcB15, hsdR4, delta. (lacpro AB)/F', thraD36, proAB, lacIZ delta M15) were transformed with this plasmid. After protein, synthesis was effected, the bacteria cells were harvested and broken up with liquid nitrogen. The lysate was separated on a SDS polyacrylamide gel. Detection of recombinant Aln g I nonfusion protein was done by means of immunoblot. IgE in the sera of allergic patients was bound by the recombinant Aln g I. Detection of bound IgE was effected by .sup.125 I-labeled antihuman IgE (Pharmacia).

b) The DNA insert in pBluescript.RTM. KS+ plasmid, which contains the sequence coding for Aln g I, was ligated by means of EcoRI linkers (Boehringer) in the expression plasmids pEX A, pEX B and pEX C (16), which shift the reading frame of the insert one nucleotide each time. In this way, in one case the correct reading frame for AIn g I was obtained and the production of a recombinant Aln g I fusion protein was induced. The capability of this recombinant Aln g I fusion protein to bind IgE in sera of patients allergic to alder pollen was shown, by means of immunoblot. Detection of bound IgE was effected by .sup.125 I-labeled antihuman IgE (Pharmacia).

An analogous method was applied for the cloning and expressing of Cor a I.

5.5 Expression of Cor a I DNA and Detection of IgE Binding of the Resulting Protein

The cDNA fragments whose sequences are shown in SEQ ID NO.9, 12, 15 and 18 were ligated into the expression plasmid pKK 223.3 (Pharmacia LKB Biotechnology, Uppsala, Sweden). The proteins corresponding to the coding region (see SEQ ID NO.10, 13, 16 and 19) of these fragments were expressed in E.coli JM 105 transformed with the respective recombinant plasmids. Cultures were grown until the OD.sub.600 reached 0.4. Isopropyl-.beta.-D-galaetopyranoside was then added to a final concentration of 0.5 mM and the cultures grown at 37.degree. C. over 3.5 hours for expression of recombinant non-fusion proteins. Bacterial cells were harvested by centrifugation, taken up in 50 mM Tris-HCl buffer, pH 7.5, containing 220 mM NaCl and the cells were disrupted by a freezethaw cycle. The supenatant containing the recombinant non-fusion proteins was loaded onto a 15% SDS-PAGE. The separated proteins were transferred to a nitrocellulose filter. IgE-binding proteins were detected by the use of allergic patients' sera.

The results are shown in FIGS. 3-6.

5.6 Test of Reaction of T-cell Epitopes

Peripheral blood was collected from birch pollen allergic patients who showed igE reactivity to Bet v I exclusively, as demonstrated by Western Blot. Peripheral mononuclear cells (PBMC; the white blood cell fraction containing the lymphocytes) were isolated by density gradient centrifucation. Allergen specific T-cells were enriched by culturing PBMC in presence of Bet v I. After a cloning procedure, T-cell clones (TCC) were proved to react with the complete Bet v I molecule by a proliferation assay, showing that in presence of the specific allergen a proliferation occurs, which is at least 10-fold higher than the autoproliferative activity of the TCC, as measured by .sup.3 H-Thymidine incorporation. Two Bet v I specific TCC isolated from atopic donors reacted in the same way with the above mentioned peptides as with the whole Bet v I molecule, proving that these peptides represent or contain the relevant T-cell epitopes.

______________________________________ TCC TCC + FC TCC + FC + Bet v I TCC + FC + PEPTIDE ______________________________________ 443 960 30516 31580* cpm 160 508 21218 23309** cpm ______________________________________ FC: feeder cells cpm: counts per minute *peptide: LLRAVESYLLAHS **peptide: KYVKDRVDEVD

6. METHODS OF ADMINISTRATION

The present invention covers the use of the recombinant or synthetic polypeptide allergens to treat a mammal using such polypeptides alone or in combination with any pharmaceutically acceptable carriers or diluents, in accordance with standard pharmaceutical practice.

The method of treatment involves the administration of such a polypeptide allergen or parts thereof by any route of administration, that is bronchial, conjunctival, dermal, enternal, nasal, oral or vaginal. A range of from 1 picogram to 10 milligrams per application can be used. The diluents and carriers can be chosen by those skilled in the art according to commonly accepted galenic procedures. Like diagnostic methods, it requires pure and well defined allergens. The use of purified recombinant allergens or synthetic peptides would greatly reduce the risk of sensitizing patients to unwanted components.

7. REFERENCES

The references cited in the above specification are:

1. Breiteneder, H., Pattenburger, K., Bito, A., Valenta, R., Kraft, D., Rumpold, H., Scheiner, O., Breitenbach, M. (1989). The gene coding for the major birch pollen allergen, Bet v I, is highly homologous to a pea resistance response gene. EMBO J., 8: 1935-1938.

2. Ipsen, H. and Hansen, O. C. (1990). Physiochemical and immunological characteristics of allergens. In: Epitopes of atopic allergens Sehon, A. H., Kraft, D., Kunkel, G. (eds) UCB, Brussels, Belgium, pp 3-8.

3. Rumpold, H., Rohac, M., Bohle, B., Breitenbach, M., Scheiner, O., Kraft, D. (1990). The relationship of Bet v I epitopes recognized by patients' IgE and monoclonal anti-Bet v I antibodies. In: Epitopes of atopic allergens. Sehon, A. H., Kraft, D., Kunkel, G. (eds) UCB, Brussels, Belgium, pp 26-28.

4 Valenta, R., Breiteneder, H., Pettenburger, K., Breitenbach, M., Scheiner, O., Kraft, D. (1990). RNA- and DNA-sequence similarities of the major allergens of birch, alder, hazel and hornbeam pollens. In: Epitopes of atopic allergens. Sehon, A. H., Kraft, D., Kunkel, G. (eds) UCB Brussels, Belgium, pp 73-76.

5. Florvaag, E. and Elsayed, S. (1984). Comparative studies on tree pollen allergens. VIII. Immunological properties of the alder (Alnus incana) pollen extract. Int. Arch. Allergy Appl. Immunol. 75: 300-308.

6. Florvaag, E., Elsayed, S., Apold, J. (1982). Comparative studies on tree pollen allergens. II. Isolation of alder (Alnus incana) pollen allergens: purification and some characteristics of the major allergen pI 4.78. Int. Arch. Allergy Appl. Immunol. 67: 49-56.

7. Thomas, W. R., Chua, K. Y., Greene, W. K., and Stewart, G. A. (1990). Recombinant mite allergens. In: Epitopes of atopic allergens. Sehon, A. H., Kraft, D., and Kunkel, G. (eds). UCB Institute of Allergy, Brussels.

8. Jarolim, E., Tejkl, M., Rohac, M., Schlerka, G., Breitenbach, M., Scheiner, O., Kraft, D., and Rumpold, H. (1989). Monoclonal antibodies against birch pollen allergens; characterization by immunoblotting and use for single step affinity purification of the major allergen BetvI. Int. Arch. Allergy Appl. Immunol. 90: 54-60.

9. Needleman, S. B., Wunsch, C. D. (1970). A general method applicable to the search for similarities in the amino acid sequence of two proteins. J. Mol. Biol. 48: 443-453.

10. Ausubel, F.M. (ed) (1987). Current Protocols in Molecular Biology. Green Publishing Associates and Wiley Intescience: John Wiley and Sons, New York. Unit 2.6.

11. Ibid., Unit 2.1.

12. Ibid., Unit 3.10.

13. Ibid., Unit 1.8.

14. Ibid., Unit 1.

15. Kunkel, T. A., Roberts, J. D. Zakour, R. A. (1987). Rapid and efficient site-specific mutagenesis without phenotypic selection. In: Methods in Enzymology Vol. 154. Wu, R. and Grossman, L. (eds) Academic Press, Inc. pp 367-382.

16. Nagair K., Th.phi.gersen, H. C. (1984). Generation of .delta.-globin by sequence-specific proteolysis of a hybrid protein produced in Esherichia coli. Nature 309: 810-812.

__________________________________________________________________________ SEQUENCE LISTING (1) GENERAL INFORMATION: (iii) NUMBER OF SEQUENCES: 23 (2) INFORMATION FOR SEQ ID NO:1: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 665 base pairs (B) TYPE: nucleic acid (C) STRANDEDNESS: single (D) TOPOLOGY: linear (ii) MOLECULE TYPE: cDNA (iii) HYPOTHETICAL: NO (iv) ANTI-SENSE: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: Alder (Alnus sp.) (xi) SEQUENCE DESCRIPTION: SEQ ID NO:1: ATGGGTGTTTTCAATTACGAAGCGGAAACCCCCTCCGTTATCCCAGCGGCTCGGCTGTTC60 AAGGCCTTTATCCTTGATGGCGATAAGCTCCTTCCAAAGGTTGCACCTGAAGCTGTTAGC120 AGTGTTGAGAACATTGAAGGAAATGGAGGGCCTGGAACCATCAAGAAGATCACCTTTCCC180 GAAGGCAGCCCTTTTAAGTACGTAAAGGAGAGGGTTGATGAGGTTGATCGCGTAAACTTC240 AAATACAGCTTCAGCGTGATCGAGGGTGGTGCCGTGGGCGACGCACTGGAGAAGGTCTGT300 AACGAGATCAAGATAGTGGCAGCCCCTGATGGAGGATCCATCTTGAAGATCAGCAACAAG360 TTCCACACCAAAGGCGACCATGAGATAAATGCAGAGCAGATTAAGATTGAAAAAGAAAAG420 GCCGTGGGACTTCTCAAGGCCGTTGAGAGCTACCTCTTGGCACACTCTGATGCCTACAAC480 TAAATTCTGCCTAATTTTGATCAGCTTGCATGTGTTCTTGTCAAGCCATAAATACTGCTT540 AACTTCGTCTTGCTAATAAATGAAGCTGTTGTAGTCGTTTATGAGTACGTAATAATGACA600 CCAAACATATGGAGCCAATTGCTTATGAATAGAAGTTAAGTTCTTAAAAAAAAAAAAAAA660 AAAAA665 (2) INFORMATION FOR SEQ ID NO:2: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 480 base pairs (B) TYPE: nucleic acid (C) STRANDEDNESS: single (D) TOPOLOGY: linear (ii) MOLECULE TYPE: cDNA (iii) HYPOTHETICAL: NO (iv) ANTI-SENSE: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: Alder (Alnus sp.) (xi) SEQUENCE DESCRIPTION: SEQ ID NO:2: ATGGGTGTTTTCAATTACGAAGCGGAAACCCCCTCCGTTATCCCAGCGGCTCGGCTGTTC60 AAGGCCTTTATCCTTGATGGCGATAAGCTCCTTCCAAAGGTTGCACCTGAAGCTGTTAGC120 AGTGTTGAGAACATTGAAGGAAATGGAGGGCCTGGAACCATCAAGAAGATCACCTTTCCC180 GAAGGCAGCCCTTTTAAGTACGTAAAGGAGAGGGTTGATGAGGTTGATCGCGTAAACTTC240 AAATACAGCTTCAGCGTGATCGAGGGTGGTGCCGTGGGCGACGCACTGGAGAAGGTCTGT300 AACGAGATCAAGATAGTGGCAGCCCCTGATGGAGGATCCATCTTGAAGATCAGCAACAAG360 TTCCACACCAAAGGCGACCATGAGATAAATGCAGAGCAGATTAAGATTGAAAAAGAAAAG420 GCCGTGGGACTTCTCAAGGCCGTTGAGAGCTACCTCTTGGCACACTCTGATGCCTACAAC480 (2) INFORMATION FOR SEQ ID NO:3: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 160 amino acids (B) TYPE: amino acid (D) TOPOLOGY: linear (ii) MOLECULE TYPE: peptide (iii) HYPOTHETICAL: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: Alder (Alnus sp.) (xi) SEQUENCE DESCRIPTION: SEQ ID NO:3: MetGlyValPheAsnTyrGluAlaGluThrProSerValIleProAla 151015 AlaArgLeuPheLysAlaPheIleLeuAspGlyAspLysLeuLeuPro 202530 LysValAlaProGluAlaValSerSerValGluAsnIleGluGlyAsn 354045 GlyGlyProGlyThrIleLysLysIleThrPheProGluGlySerPro 505560 PheLysTyrValLysGluArgValAspGluValAspArgValAsnPhe 65707580 LysTyrSerPheSerValIleGluGlyGlyAlaValGlyAspAlaLeu 859095 GluLysValCysAsnGluIleLysIleValAlaAlaProAspGlyGly 100105110 SerIleLeuLysIleSerAsnLysPheHisThrLysGlyAspHisGlu 115120125 IleAsnAlaGluGlnIleLysIleGluLysGluLysAlaValGlyLeu 130135140 LeuLysAlaValGluSerTyrLeuLeuAlaHisSerAspAlaTyrAsn 145150155160 (2) INFORMATION FOR SEQ ID NO:4: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 50 base pairs (B) TYPE: nucleic acid (C) STRANDEDNESS: single (D) TOPOLOGY: linear (ii) MOLECULE TYPE: Other nucleic acid (iii) HYPOTHETICAL: YES (ix) FEATURE: (D) OTHER INFORMATION: Primer for reverse transcription (xi) SEQUENCE DESCRIPTION: SEQ ID NO:4: TTTAATACGACTCACTATAGATCTCCCGGGAAGCTTTTTTTTTTTTTTTT50 (2) INFORMATION FOR SEQ ID NO:5: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 23 base pairs (B) TYPE: nucleic acid (C) STRANDEDNESS: single (D) TOPOLOGY: linear (ii) MOLECULE TYPE: Other nucleic acid (iii) HYPOTHETICAL: YES (vi) ORIGINAL SOURCE: (C) INDIVIDUAL ISOLATE: 2482 (ix) FEATURE: (D) OTHER INFORMATION: Primer for polymerase chain reaction (PCR) utilized at the 5'end of Aln g I mRNA (xi) SEQUENCE DESCRIPTION: SEQ ID NO:5: GTTTTCAATTACGAAGCGGAAAC23 (2) INFORMATION FOR SEQ ID NO:6: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 23 base pairs (B) TYPE: nucleic acid (C) STRANDEDNESS: single (D) TOPOLOGY: linear (ii) MOLECULE TYPE: Other nucleic acid (iii) HYPOTHETICAL: YES (vi) ORIGINAL SOURCE: (C) INDIVIDUAL ISOLATE: 2490 (ix) FEATURE: (D) OTHER INFORMATION: Primer for polymerase chain reaction (PCR) utilized at the 5'end of Aln g I mRNA (xi) SEQUENCE DESCRIPTION: SEQ ID NO:6: GTTTTCAATTACGAAGCGGAGAC23 (2) INFORMATION FOR SEQ ID NO:7: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 14 base pairs (B) TYPE: nucleic acid (C) STRANDEDNESS: single (D) TOPOLOGY: linear (ii) MOLECULE TYPE: Other nucleic acid (iii) HYPOTHETICAL: YES (ix) FEATURE: (D) OTHER INFORMATION: Primer for polymerase chain reaction (PCR) utilized at the 3'end of Aln g I mRNA (xi) SEQUENCE DESCRIPTION: SEQ ID NO:7: AATACGACTCACTA14 (2) INFORMATION FOR SEQ ID NO:8: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 40 base pairs (B) TYPE: nucleic acid (C) STRANDEDNESS: single (D) TOPOLOGY: linear (ii) MOLECULE TYPE: Other nucleic acid (iii) HYPOTHETICAL: YES (xi) SEQUENCE DESCRIPTION: SEQ ID NO:8: CTTCGTAATTGAAAACACCCATGAATTCCGATACCGTCGA40 (2) INFORMATION FOR SEQ ID NO:9: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 619 base pairs (B) TYPE: nucleic acid (C) STRANDEDNESS: single (D) TOPOLOGY: linear (ii) MOLECULE TYPE: cDNA (iii) HYPOTHETICAL: NO (iv) ANTI-SENSE: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: hazel (Corylus sp.) (vii) IMMEDIATE SOURCE: (A) LIBRARY: POLLEN FROM ALLERGON AB, ENGELHOLM, SWEDEN (xi) SEQUENCE DESCRIPTION: SEQ ID NO:9: ATGGGTGTTTTCAATTACGAGGTTGAGACTCCCTCCGTTATCCCTGCGGCAAGGCTGTTC60 AAGTCCTATGTCCTTGATGGCGATAAGCTCATCCCAAAGGTTGCACCTCAAGCTATTACC120 AGCGTTGAAAACGTTGAAGGAAATGGAGGGCCTGGAACCATCAAGAATATCACCTTTGGC180 GAAGGCAGCCGTTACAAGTACGTGAAGGAGAGGGTTGATGAGGTTGACAACACAAACTTC240 ACATACAGCTACACCGTGATCGAGGGTGATGTCCTGGGTGACAAGCTGGAGAAGGTCTGC300 CACGAGCTGAAGATAGTGGCAGCCCCTGGTGGAGGATCCATCTTGAAGATCAGCAGCAAG360 TTCCACGCCAAAGGCGACCATGAGATTAATGCAGAGGAGATGAAGGGTGCCAAAGAAATG420 GCAGAGAAACTTTTAAGGGCGGTTGAGACCTACCTATTGGCACACTCTGCTGAATACAAC480 TAAATATCGTCTTGTGTCTTCGCCCAATAATAACTTGTACGTGGCTTTCATGTTTTTTTT540 AAAAAACTTTGTTTACTTGCTAATAAAGGAGCTTGCGGTTGTGTTCATCTGCTTGCTGAA600 AAAAAAAAAAAAAAAAAAA619 (2) INFORMATION FOR SEQ ID NO:10: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 480 base pairs (B) TYPE: nucleic acid (C) STRANDEDNESS: single (D) TOPOLOGY: linear (ii) MOLECULE TYPE: cDNA (iii) HYPOTHETICAL: NO (iv) ANTI-SENSE: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: hazel (Corylus sp.) (vii) IMMEDIATE SOURCE: (A) LIBRARY: POLLEN FROM ALLERGON AB, ENGELHOLM, SWEDEN (xi) SEQUENCE DESCRIPTION: SEQ ID NO:10: ATGGGTGTTTTCAATTACGAGGTTGAGACTCCCTCCGTTATCCCTGCGGCAAGGCTGTTC60 AAGTCCTATGTCCTTGATGGCGATAAGCTCATCCCAAAGGTTGCACCTCAAGCTATTACC120 AGCGTTGAAAACGTTGAAGGAAATGGAGGGCCTGGAACCATCAAGAATATCACCTTTGGC180 GAAGGCAGCCGTTACAAGTACGTGAAGGAGAGGGTTGATGAGGTTGACAACACAAACTTC240 ACATACAGCTACACCGTGATCGAGGGTGATGTCCTGGGTGACAAGCTGGAGAAGGTCTGC300 CACGAGCTGAAGATAGTGGCAGCCCCTGGTGGAGGATCCATCTTGAAGATCAGCAGCAAG360 TTCCACGCCAAAGGCGACCATGAGATTAATGCAGAGGAGATGAAGGGTGCCAAAGAAATG420 GCAGAGAAACTTTTAAGGGCGGTTGAGACCTACCTATTGGCACACTCTGCTGAATACAAC480 (2) INFORMATION FOR SEQ ID NO:11: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 160 amino acids (B) TYPE: amino acid (D) TOPOLOGY: linear (ii) MOLECULE TYPE: peptide (iii) HYPOTHETICAL: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: hazel (Corylus sp.) (vii) IMMEDIATE SOURCE: (A) LIBRARY: POLLEN FROM ALLERGON AB, ENGELHOLM, SWEDEN (xi) SEQUENCE DESCRIPTION: SEQ ID NO:11: MetGlyValPheAsnTyrGluValGluThrProSerValIleProAla 151015 AlaArgLeuPheLysSerTyrValLeuAspGlyAspLysLeuIlePro 202530 LysValAlaProGlnAlaIleThrSerValGluAsnValGluGlyAsn 354045 GlyGlyProGlyThrIleLysAsnIleThrPheGlyGluGlySerArg 505560 TyrLysTyrValLysGluArgValAspGluValAspAsnThrAsnPhe 65707580 ThrTyrSerTyrThrValIleGluGlyAspValLeuGlyAspLysLeu 859095 GluLysValCysHisGluLeuLysIleValAlaAlaProGlyGlyGly 100105110 SerIleLeuLysIleSerSerLysPheHisAlaLysGlyAspHisGlu 115120125 IleAsnAlaGluGluMetLysGlyAlaLysGluMetAlaGluLysLeu 130135140 LeuArgAlaValGluThrTyrLeuLeuAlaHisSerAlaGluTyrAsn 145150155160 (2) INFORMATION FOR SEQ ID NO:12: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 742 base pairs (B) TYPE: nucleic acid (C) STRANDEDNESS: single (D) TOPOLOGY: linear (ii) MOLECULE TYPE: cDNA (iii) HYPOTHETICAL: NO (iv) ANTI-SENSE: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: hazel (Corylus sp.) (vii) IMMEDIATE SOURCE: (A) LIBRARY: POLLEN FROM ALLERGON AB, ENGELHOLM, SWEDEN (xi) SEQUENCE DESCRIPTION: SEQ ID NO:12: ATGGGTGTTTTCAATTACGAGGTTGAGACTCCCTCCGTTATCCCAGCGGCAAGGCTGTTC60 AAGTCCTATGTCCTTGATGGCGATAAGCTCATCCCAAAGGTTGCACCTCAAGCTATTACC120 AGCGTTGAAAACGTTGAAGGAAATGGAGGGCCTGGAACCATCAAGAATATCACCTTTGGC180 GAAGGCAGCCGTTACAAGTACGTGAAGGAGAGGGTTGATGAGGTTGACAACACAAACTTC240 AAATATAGCTACACCGTGATCGAGGGTGATGTCCTGGGTGACAAGCTGGAGAAGGTCTGC300 AGCGAGCTGAAGATAGTGGCAGCCCCTGGTGGAGGATCCATCTTGAAGATCAGCAGCAAG360 TTCCACGCCAAAGGCGACCATGAGATTAATGCAGAGGAGATGAAGGGTGCCAAAGAAATG420 GCCGAGAAACTTTTAAGGGCGGTTGAGACCTACCTATTGGCACACTCTGCTGAATACAAC480 TAAATATCGTCTTGTGTCTTCGCCCAATAATAACTTGTACGTGGCTTTCATGTTTTTTTT540 TTAAAACTTTGATTACTTGCTAATAAAGGAGCTTGCGGTTGTGTTCATCTGCTTGCTGAA600 ATCGATGTTGTAACTCGGAAGAATGCAAACTGAATGTTGTATTACTTTTTGCATATATAC660 AAATAATGGAAAGGATAACATCATTGAAGTTCAAAAAAAAAAAAAAAAAAAAAAAAAAAA720

AAAAAAAAAAAAAAAAAAAAAA742 (2) INFORMATION FOR SEQ ID NO:13: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 480 base pairs (B) TYPE: nucleic acid (C) STRANDEDNESS: single (D) TOPOLOGY: linear (ii) MOLECULE TYPE: cDNA (iii) HYPOTHETICAL: NO (iv) ANTI-SENSE: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: hazel (Corylus sp.) (vii) IMMEDIATE SOURCE: (A) LIBRARY: POLLEN FROM ALLERGON AB, ENGELHOLM, SWEDEN (xi) SEQUENCE DESCRIPTION: SEQ ID NO:13: ATGGGTGTTTTCAATTACGAGGTTGAGACTCCCTCCGTTATCCCAGCGGCAAGGCTGTTC60 AAGTCCTATGTCCTTGATGGCGATAAGCTCATCCCAAAGGTTGCACCTCAAGCTATTACC120 AGCGTTGAAAACGTTGAAGGAAATGGAGGGCCTGGAACCATCAAGAATATCACCTTTGGC180 GAAGGCAGCCGTTACAAGTACGTGAAGGAGAGGGTTGATGAGGTTGACAACACAAACTTC240 AAATATAGCTACACCGTGATCGAGGGTGATGTCCTGGGTGACAAGCTGGAGAAGGTCTGC300 AGCGAGCTGAAGATAGTGGCAGCCCCTGGTGGAGGATCCATCTTGAAGATCAGCAGCAAG360 TTCCACGCCAAAGGCGACCATGAGATTAATGCAGAGGAGATGAAGGGTGCCAAAGAAATG420 GCCGAGAAACTTTTAAGGGCGGTTGAGACCTACCTATTGGCACACTCTGCTGAATACAAC480 (2) INFORMATION FOR SEQ ID NO:14: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 160 amino acids (B) TYPE: amino acid (D) TOPOLOGY: linear (ii) MOLECULE TYPE: peptide (iii) HYPOTHETICAL: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: hazel (Corylus sp.) (vii) IMMEDIATE SOURCE: (A) LIBRARY: POLLEN FROM ALLERGON AB, ENGELHOLM, SWEDEN (xi) SEQUENCE DESCRIPTION: SEQ ID NO:14: MetGlyValPheAsnTyrGluValGluThrProSerValIleProAla 151015 AlaArgLeuPheLysSerTyrValLeuAspGlyAspLysLeuIlePro 202530 LysValAlaProGlnAlaIleThrSerValGluAsnValGluGlyAsn 354045 GlyGlyProGlyThrIleLysAsnIleThrPheGlyGluGlySerArg 505560 TyrLysTyrValLysGluArgValAspGluValAspAsnThrAsnPhe 65707580 LysTyrSerTyrThrValIleGluGlyAspValLeuGlyAspLysLeu 859095 GluLysValCysSerGluLeuLysIleValAlaAlaProGlyGlyGly 100105110 SerIleLeuLysIleSerSerLysPheHisAlaLysGlyAspHisGlu 115120125 IleAsnAlaGluGluMetLysGlyAlaLysGluMetAlaGluLysLeu 130135140 LeuArgAlaValGluThrTyrLeuLeuAlaHisSerAlaGluTyrAsn 145150155160 (2) INFORMATION FOR SEQ ID NO:15: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 655 base pairs (B) TYPE: nucleic acid (C) STRANDEDNESS: single (D) TOPOLOGY: linear (ii) MOLECULE TYPE: cDNA (iii) HYPOTHETICAL: NO (iv) ANTI-SENSE: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: hazel (Corylus sp.) (vii) IMMEDIATE SOURCE: (A) LIBRARY: POLLEN FROM ALLERGON AB, ENGELHOLM, SWEDEN (xi) SEQUENCE DESCRIPTION: SEQ ID NO:15: ATGGGTGTTTTCAATTACGAGGCTGAGACCACCTCCGTTATCCCTGCGGCAAGGCTGTTC60 AAGTCCTATGTCCTTGATGGCGATAAGCTCATCCCAAAGGTTGCACCTCAAGCTATTACC120 AGCGTTGAAAACGTTGAAGGAAATGGAGGGCCTGGAACCATCAAGAATATCACCTTTGGC180 GAAGGCAGCCGTTACAAGTACGTGAAGGAGAGGGTTGATGAGGTTGACAACACAAACTTC240 ACATACAGCTACACCGTGATCGAGGGTGATGTCCTGGGTGACAAGCTGGAGAAGGTCTGC300 CACGAGCTGAAGATAGTGGCAGCCCCTGGTGGAGGATCCATCTTGAAGATCAGCAGCAAG360 TTCCACGCCAAAGGTGACCATGAGATTAATGCAGAGGAGATGAAGGGTGCCAAAGAAATG420 GCCGAGAAACTTTTAAGGGCGGTTGAGACCTACCTATTGGCACACTCTGCTGAATACAAC480 TAAACCTCGTCTTGTGTCTTCGCCCAATAATAGCTTGTACGTGGCTTTCATGTTTTTTTT540 TTAAACTTTGTTTTCTTGCTAATAAAGGAGCTTGCGGTTGTGTTCATCTGCTTGCTGAAG600 ATCGATGTTGTAACTCGGAAGAATGCAAATTTAATGTTGTATTAAAAAAAAAAAA655 (2) INFORMATION FOR SEQ ID NO:16: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 480 base pairs (B) TYPE: nucleic acid (C) STRANDEDNESS: single (D) TOPOLOGY: linear (ii) MOLECULE TYPE: cDNA (iii) HYPOTHETICAL: NO (iv) ANTI-SENSE: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: hazel (Corylus sp.) (vii) IMMEDIATE SOURCE: (A) LIBRARY: POLLEN FROM ALLERGON AB, ENGELHOLM, SWEDEN (xi) SEQUENCE DESCRIPTION: SEQ ID NO:16: ATGGGTGTTTTCAATTACGAGGCTGAGACCACCTCCGTTATCCCTGCGGCAAGGCTGTTC60 AAGTCCTATGTCCTTGATGGCGATAAGCTCATCCCAAAGGTTGCACCTCAAGCTATTACC120 AGCGTTGAAAACGTTGAAGGAAATGGAGGGCCTGGAACCATCAAGAATATCACCTTTGGC180 GAAGGCAGCCGTTACAAGTACGTGAAGGAGAGGGTTGATGAGGTTGACAACACAAACTTC240 ACATACAGCTACACCGTGATCGAGGGTGATGTCCTGGGTGACAAGCTGGAGAAGGTCTGC300 CACGAGCTGAAGATAGTGGCAGCCCCTGGTGGAGGATCCATCTTGAAGATCAGCAGCAAG360 TTCCACGCCAAAGGTGACCATGAGATTAATGCAGAGGAGATGAAGGGTGCCAAAGAAATG420 GCCGAGAAACTTTTAAGGGCGGTTGAGACCTACCTATTGGCACACTCTGCTGAATACAAC480 (2) INFORMATION FOR SEQ ID NO:17: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 160 amino acids (B) TYPE: amino acid (D) TOPOLOGY: linear (ii) MOLECULE TYPE: peptide (iii) HYPOTHETICAL: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: hazel (Corylus sp.) (vii) IMMEDIATE SOURCE: (A) LIBRARY: POLLEN FROM ALLERGON AB, ENGELHOLM, SWEDEN (xi) SEQUENCE DESCRIPTION: SEQ ID NO:17: MetGlyValPheAsnTyrGluAlaGluThrThrSerValIleProAla 151015 AlaArgLeuPheLysSerTyrValLeuAspGlyAspLysLeuIlePro 202530 LysValAlaProGlnAlaIleThrSerValGluAsnValGluGlyAsn 354045 GlyGlyProGlyThrIleLysAsnIleThrPheGlyGluGlySerArg 505560 TyrLysTyrValLysGluArgValAspGluValAspAsnThrAsnPhe 65707580 ThrTyrSerTyrThrValIleGluGlyAspValLeuGlyAspLysLeu 859095 GluLysValCysHisGluLeuLysIleValAlaAlaProGlyGlyGly 100105110 SerIleLeuLysIleSerSerLysPheHisAlaLysGlyAspHisGlu 115120125 IleAsnAlaGluGluMetLysGlyAlaLysGluMetAlaGluLysLeu 130135140 LeuArgAlaValGluThrTyrLeuLeuAlaHisSerAlaGluTyrAsn 145150155160 (2) INFORMATION FOR SEQ ID NO:18: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 860 base pairs (B) TYPE: nucleic acid (C) STRANDEDNESS: single (D) TOPOLOGY: linear (ii) MOLECULE TYPE: cDNA (iii) HYPOTHETICAL: NO (iv) ANTI-SENSE: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: hazel (Corylus sp.) (vii) IMMEDIATE SOURCE: (A) LIBRARY: POLLEN FROM ALLERGON AB, ENGELHOLM, SWEDEN (xi) SEQUENCE DESCRIPTION: SEQ ID NO:18: ATGGGTGTTTTCAATTACGAGGTTGAGACCCCCTCCGTTATCTCAGCGGCAAGGCTGTTC60 AAGTCCTATGTCCTTGATGGCGATAAGCTCATCCCAAAGGTTGCACCTCAAGCTATTACC120 AGCGTTGAAAACGTTGGAGGAAATGGAGGGCCTGGAACCATCAAGAATATCACCTTTGGC180 GAAGGCAGCCGTTACAAGTACGTGAAGGAGAGGGTTGATGAGGTTGACAACACAAACTTC240 AAATATAGCTACACCGTGATCGAGGGTGATGTCCTGGGTGACAAGCTGGAGAAAGTCTGC300 AGCGAGCTGAAGATAGTGGCAGCCCCTGGTGGGGGATCCACCTTGAAGATCAGCAGCAAG360 TTCCACGCCAAAGGTGACCATGAGATTAATGCAGAGGAGATGAAGGGTGCCAAAGAAATG420 GCCGAGAAACTTTTAAGGGCGGTTGAGACCTACCTATTGGCACACTCTGCTGAATACAAC480 TAAATATCGTCTTGTGTCTTCGCCAATAATAACTTGTACGTGGCTTTCATGTTTTTTTTT540 AAAAAACTTTGTTTACTTGCTAATAAAGGAGCTTGCGGTTGTGTTCATCTGCTTGCTGAA600 ATCGATGTTGTAACTCGGAAGAATGCAAACTGAATGTTGTATTACTTTTTGCATATATAC660 AAATAATGGAAAGGATAACATCATTGAAGTTCAAAAAAAAGAAAAAAAAAAGCTTTTTTT720 TTTTTTTTTTTTTTTTTTTTTTTTTTGTCAATTTTAACCCGATACTGATACTCAAAAATG780 CAAGAGAGTTTCCGCATAAGCACAATTTGTTTATGTTGACTTAATACATTATAAGCAAAA840 AAAAAAAAAAAAAAAAAAAA860 (2) INFORMATION FOR SEQ ID NO:19: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 480 base pairs (B) TYPE: nucleic acid (C) STRANDEDNESS: single (D) TOPOLOGY: linear (ii) MOLECULE TYPE: cDNA (iii) HYPOTHETICAL: NO (iv) ANTI-SENSE: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: hazel (Corylus sp.) (vii) IMMEDIATE SOURCE: (A) LIBRARY: POLLEN FROM ALLERGON AB, ENGELHOLM, SWEDEN (xi) SEQUENCE DESCRIPTION: SEQ ID NO:19: ATGGGTGTTTTCAATTACGAGGTTGAGACCCCCTCCGTTATCTCAGCGGCAAGGCTGTTC60 AAGTCCTATGTCCTTGATGGCGATAAGCTCATCCCAAAGGTTGCACCTCAAGCTATTACC120 AGCGTTGAAAACGTTGGAGGAAATGGAGGGCCTGGAACCATCAAGAATATCACCTTTGGC180 GAAGGCAGCCGTTACAAGTACGTGAAGGAGAGGGTTGATGAGGTTGACAACACAAACTTC240 AAATATAGCTACACCGTGATCGAGGGTGATGTCCTGGGTGACAAGCTGGAGAAAGTCTGC300 AGCGAGCTGAAGATAGTGGCAGCCCCTGGTGGGGGATCCACCTTGAAGATCAGCAGCAAG360 TTCCACGCCAAAGGTGACCATGAGATTAATGCAGAGGAGATGAAGGGTGCCAAAGAAATG420 GCCGAGAAACTTTTAAGGGCGGTTGAGACCTACCTATTGGCACACTCTGCTGAATACAAC480 (2) INFORMATION FOR SEQ ID NO:20: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 160 amino acids (B) TYPE: amino acid (D) TOPOLOGY: linear (ii) MOLECULE TYPE: peptide (iii) HYPOTHETICAL: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: hazel (Corylus sp.) (vii) IMMEDIATE SOURCE: (A) LIBRARY: POLLEN FROM ALLERGON AB, ENGELHOLM, SWEDEN (xi) SEQUENCE DESCRIPTION: SEQ ID NO:20: MetGlyValPheAsnTyrGluValGluThrProSerValIleSerAla 151015 AlaArgLeuPheLysSerTyrValLeuAspGlyAspLysLeuIlePro 202530 LysValAlaProGlnAlaIleThrSerValGluAsnValGlyGlyAsn 354045 GlyGlyProGlyThrIleLysAsnIleThrPheGlyGluGlySerArg 505560 TyrLysTyrValLysGluArgValAspGluValAspAsnThrAsnPhe 65707580 LysTyrSerTyrThrValIleGluGlyAspValLeuGlyAspLysLeu 859095 GluLysValCysSerGluLeuLysIleValAlaAlaProGlyGlyGly 100105110 SerThrLeuLysIleSerSerLysPheHisAlaLysGlyAspHisGlu 115120125 IleAsnAlaGluGluMetLysGlyAlaLysGluMetAlaGluLysLeu 130135140 LeuArgAlaValGluThrTyrLeuLeuAlaHisSerAlaGluTyrAsn 145150155160 (2) INFORMATION FOR SEQ ID NO:21: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 672 base pairs (B) TYPE: nucleic acid (C) STRANDEDNESS: single (D) TOPOLOGY: linear (ii) MOLECULE TYPE: cDNA (iii) HYPOTHETICAL: NO (iv) ANTI-SENSE: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: birch (Betula sp.) (vii) IMMEDIATE SOURCE: (A) LIBRARY: POLLEN FROM ALLERGON AB, ENGELHOLM, SWEDEN (xi) SEQUENCE DESCRIPTION: SEQ ID NO:21: ATGGGTGTTTTCAATTACGAAACTGAGACCACCTCTGTTATCCCAGCAGCTCGACTGTTC60 AAGGCCTTTATCCTTGATGGCGATAATCTCTTTCCAAAGGTTGCACCCCAAGCCATTAGC120 AGTGTTGAAAACATTGAAGGAAATGGAGGGCCTGGAACCATTAAGAAGATCAGCTTTCCC180 GAAGGCTTCCCTTTCAAGTACGTGAAGGACAGAGTTGATGAGGTGGACCACACAAACTTC240 AAATACAATTACAGCGTGATCGAGGGCGGTCCCATAGGCGACACATTGGAGAAGATCTCC300 AACGAGATAAAGATAGTGGCAACCCCTGATGGAGGATCCATCTTGAAGATCAGCAACAAG360 TACCACACCAAAGGTGACCATGAGGTGAAGGCAGAGCAGGTTAAGGCAAGTAAAGAAATG420 GGCGAGACACTTTTGAGGGCCGTTGAGAGCTACCTCTTGGCACACTCCGATGCCTACAAC480 TAATTAATTAACTTGTGTCGTCTCGAACATGTCCCTGATCAATAATGGGTTGCAGTGTTC540 ATGGTGTTTTTTGGGTCTAATAAAGGAGCTTGCAGTTGTGATCATCTGCTTGCTAGCTGA600 AGATGTTGTAATTTATTGGGAGAATGATAATAAATGTTCTATTAAAAAAAAAAAAAAAAA660 AAAAAAAAAAAA672 (2) INFORMATION FOR SEQ ID NO:22: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 480 base pairs (B) TYPE: nucleic acid (C) STRANDEDNESS: single (D) TOPOLOGY: linear (ii) MOLECULE TYPE: cDNA (iii) HYPOTHETICAL: NO

(iv) ANTI-SENSE: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: birch (Betula sp.) (vii) IMMEDIATE SOURCE: (A) LIBRARY: POLLEN FROM ALLERGON AB, ENGELHOLM, SWEDEN (xi) SEQUENCE DESCRIPTION: SEQ ID NO:22: ATGGGTGTTTTCAATTACGAAACTGAGACCACCTCTGTTATCCCAGCAGCTCGACTGTTC60 AAGGCCTTTATCCTTGATGGCGATAATCTCTTTCCAAAGGTTGCACCCCAAGCCATTAGC120 AGTGTTGAAAACATTGAAGGAAATGGAGGGCCTGGAACCATTAAGAAGATCAGCTTTCCC180 GAAGGCTTCCCTTTCAAGTACGTGAAGGACAGAGTTGATGAGGTGGACCACACAAACTTC240 AAATACAATTACAGCGTGATCGAGGGCGGTCCCATAGGCGACACATTGGAGAAGATCTCC300 AACGAGATAAAGATAGTGGCAACCCCTGATGGAGGATCCATCTTGAAGATCAGCAACAAG360 TACCACACCAAAGGTGACCATGAGGTGAAGGCAGAGCAGGTTAAGGCAAGTAAAGAAATG420 GGCGAGACACTTTTGAGGGCCGTTGAGAGCTACCTCTTGGCACACTCCGATGCCTACAAC480 (2) INFORMATION FOR SEQ ID NO:23: (i) SEQUENCE CHARACTERISTICS: (A) LENGTH: 160 amino acids (B) TYPE: amino acid (D) TOPOLOGY: linear (ii) MOLECULE TYPE: peptide (iii) HYPOTHETICAL: NO (vi) ORIGINAL SOURCE: (A) ORGANISM: birch (Betula sp.) (vii) IMMEDIATE SOURCE: (A) LIBRARY: POLLEN FROM ALLERGON AB, ENGELHOLM, SWEDEN (xi) SEQUENCE DESCRIPTION: SEQ ID NO:23: MetGlyValPheAsnTyrGluThrGluThrThrSerValIleProAla 151015 AlaArgLeuPheLysAlaPheIleLeuAspGlyAspAsnLeuPhePro 202530 LysValAlaProGlnAlaIleSerSerValGluAsnIleGluGlyAsn 354045 GlyGlyProGlyThrIleLysLysIleSerPheProGluGlyPhePro 505560 PheLysTyrValLysAspArgValAspGluValAspHisThrAsnPhe 65707580 LysTyrAsnTyrSerValIleGluGlyGlyProIleGlyAspThrLeu 859095 GluLysIleSerAsnGluIleLysIleValAlaThrProAspGlyGly 100105110 SerIleLeuLysIleSerAsnLysTyrHisThrLysGlyAspHisGlu 115120125 ValLysAlaGluGlnValLysAlaSerLysGluMetGlyGluThrLeu 130135140 LeuArgAlaValGluSerTyrLeuLeuAlaHisSerAspAlaTyrAsn 145150155160 __________________________________________________________________________

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