Differences in denaturation of genetic variants of soy glycinin

Lakemond CMM; de Jongh HHJ; Gruppen H; Voragen AGJ

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Differences in denaturation of genetic variants of soy glycinin

机译：大豆大豆球蛋白遗传变异的变性差异

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In heat denaturation studies conducted in the past the genetic variants of glycinin have been considered as a homogeneous group of proteins. In this work the validity of this assumption was tested. It was found by calorimetric studies that glycinin denatures heterogeneously at pH 7.6. When the temperature of isothermal treatment is increased from 70 to 82 degreesC the proportion of glycinin remaining native progressively decreases from 95% to 5% while the denaturation temperature of the glycinin remaining native increases from 88.5 to 95 degreesC. Similar trends were found for pH 3.8. Fractionation and subsequent analysis (MALDI-TOF and CE) of isothermally treated samples demonstrated that at pH 7.6 the heterogeneous denaturation is caused by differences in thermal stability of the genetic variants of glycinin. The stability increases in the order G2/G3/G1 < A(4) < G5 < G4.

机译：在过去进行的热变性研究中，大豆球蛋白的遗传变异被认为是蛋白质的同质基团。在这项工作中，检验了这一假设的有效性。通过量热研究发现，在pH 7.6下，大豆球蛋白变性不同。当等温处理的温度从70摄氏度增加到82摄氏度时，剩余天然大豆球蛋白的比例从95％逐渐降低到5％，而剩余天然大豆球蛋白的变性温度从88.5升高到95摄氏度。对于pH 3.8，发现了类似的趋势。等温处理样品的分馏和后续分析（MALDI-TOF和CE）表明，在pH 7.6下，异源变性是由大豆球蛋白遗传变异体的热稳定性差异引起的。稳定性按G2 / G3 / G1

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来源
《Journal of Agricultural and Food Chemistry》 |2002年第15期|共7页
作者
Lakemond CMM; de Jongh HHJ; Gruppen H; Voragen AGJ;
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正文语种 eng
中图分类农业化学;营养卫生、食品卫生;农业科学;
关键词
Dimensional electrophoretic analysis; Functional-properties; Molecular-structure; Different subunits; Soybean proteins; Ionic-strength; Identification; Polypeptides; Seeds; Ph;

机译：尺寸电泳分析;功能特性;分子结构;不同亚基;大豆蛋白;离子强度;鉴定;多肽;种子;Ph;

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1. Differences in denaturation of genetic variants of soy glycinin [J] . Lakemond CMM, de Jongh HHJ, Gruppen H, Journal of Agricultural and Food Chemistry . 2002,第15期

机译：大豆大豆球蛋白遗传变异的变性差异
2. Heat denaturation of soy glycinin: influence of pH and ionic strength on molecular structure. [J] . Lakemond CM, de Jongh-HH, Hessing M, Journal of Agricultural and Food Chemistry . 2000,第6期

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5. Binding of carbon-14 heptanal to soy proteins glycinin and beta-conglycinin. [D] . Cooray, Sharma Marini. 1992

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Differences in denaturation of genetic variants of soy glycinin

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