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beta conglycinin/sojabaun

Krækjan er vistuð á klemmuspjaldið
GreinarKlínískar rannsóknirEinkaleyfi
Bls 1 frá 76 niðurstöður
The G2 (A2B1a) glycinin subunit from soybean (Glycine max L. Merr.) was purified and renatured to the homohexameric holoprotein. This protein along with purified beta-conglycinin were subjected to limited proteolysis by trypsin. The generated polypeptide fragments were separated via SDS/PAGE and the
beta-Conglycinin (7 S globulin) and glycinin (11 S globulin) are the major reserve proteins of soybean. They were localized by the protein A immunogold method in thin sections of Glycine max (soybean) cv. Maple Arrow. In cotyledons, both globulins were simultaneously present in all protein bodies.

Quantitative Trait Loci (QTL) Mapping for Glycinin and β-Conglycinin Contents in Soybean (Glycine max L. Merr.).

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Compared to β-conglycinin, glycinin contains 3-4 times the methionine and cysteine (sulfur-containing amino acids), accounting for approximately 40 and 30%, respectively, of the total storage protein in soybean. Increasing the soybean storage protein content while improving the ratio of glycinin to

Molecular evolution of glycinin and β-conglycinin gene families in soybean (Glycine max L. Merr.).

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There are two main classes of multi-subunit seed storage proteins, glycinin (11S) and β-conglycinin (7S), which account for approximately 70% of the total protein in a typical soybean seed. The subunits of these two protein classes are encoded by a number of genes. The genomic organization of these
Soybean glycinin (11S) and beta-conglycinin (7S) were subjected to select chemical treatments at various concentrations and resulting changes in protein structures were investigated by circular dichroism (CD) and fluorescence spectrometry. Fluorescence quenching results indicated that urea >/=3 M
BACKGROUND Soybean is considered an important allergenic food, but published data on soybean allergens are controversial. OBJECTIVE We sought to identify relevant soybean allergens and correlate the IgE-binding pattern to clinical characteristics in European patients with confirmed soy
A combined proteomic approach was applied for the separation, identification, and comparison of two major storage proteins, beta-conglycinin and glycinin, in wild (Glycine soja) and cultivated (Glycine max) soybean seeds. Two-dimensional polyacrylamide gel electrophoresis (2D-PAGE) with three
Among the three subunits of [beta]-conglycinin, the 7S seed storage protein of soybean (Glycine max [L.] Merr.), expression of the [beta] subunit gene is unique. Accumulation of the [beta] subunit is enhanced in sulfate-deficient soybean plants, and its mRNA levels increase when abscisic acid (ABA)

Characterization of the Major Protease Involved in the Soybean beta-Conglycinin Storage Protein Mobilization.

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Protease C1, the protease responsible for the initial degradation of the alpha' and alpha subunits of the soybean beta-conglycinin storage protein (Glycine max [L.] Merrill), has been purified. The enzyme was found by sodium dodecyl sulfate-polyacrylamide gel electrophoresis to have a molecular
2-D analysis of plant proteomes containing thousands of proteins has limited dynamic resolution because only abundant proteins can be detected. Proteomic assessment of the non-abundant proteins within seeds is difficult when 60-80% is storage proteins. Resolution can be improved through sample

The glycosylated seed storage proteins of Glycine max and Phaseolus vulgaris. Structural homologies of genes and proteins.

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Considerable information is now available concerning the 7 S seed storage proteins of legumes and the genes that encode them. Our study compares the gene encoding a beta-type subunit of phaseolin (Pvu beta), the 7 S protein of common bean (Phaseolus vulgaris), with the gene encoding an

Purification and characterization of mRNA from soybean seeds. Identification of glycinin and beta-conglycinin precursors.

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Poly(A)-rich RNA was isolated from developing soybean seeds (Glycine max (L.) Merr.) and fractionated on linear log sucrose gradients. Two major fractions sedimenting at 18 S and 20 S were separated and then purified by further sucrose gradient fractionation. Both fractions were active as messengers
Two types of cysteine proteases, low-specificity enzymes from the papain family and Asn-specific from the legumain family are generally considered to be the major endopeptidases responsible for the degradation of seed storage proteins during early seedling growth. The action of the corresponding

Characterization of a soybean beta-conglycinin-degrading protease cleavage site.

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Protease C1, an enzyme from soybean (Glycine max [L.] Merrill cv Amsoy 71) seedling cotyledons, was previously determined to be the enzyme responsible for the initial degradation of the alpha' and alpha subunits, but not the beta subunit, of beta-conglycinin storage protein. The sizes of the

Accumulation of β-conglycinin in soybean cotyledon through the formation of disulfide bonds between α'- and α-subunits.

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β-Conglycinin, one of the major soybean (Glycine max) seed storage proteins, is folded and assembled into trimers in the endoplasmic reticulum and accumulated into protein storage vacuoles. Prior experiments have used soybean β-conglycinin extracted using a reducing buffer containing a sulfhydryl
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