来自大豆球蛋白和大豆分离蛋白的微米级纤维状蛋白质聚集体。

Micrometer-sized fibrillar protein aggregates from soy glycinin and soy protein isolate.

作者信息

Akkermans C, Van der Goot A J, Venema P, Gruppen H, Vereijken J M, Van der Linden E, Boom R M

机构信息

Food and Bioprocess Engineering Group, Wageningen UR, The Netherlands.

出版信息

J Agric Food Chem. 2007 Nov 28;55(24):9877-82. doi: 10.1021/jf0718897. Epub 2007 Oct 30.

DOI:10.1021/jf0718897

PMID:17966983

Abstract

Long, fibrillar semiflexible aggregates were formed from soy glycinin and soy protein isolate (SPI) when heated at 85 degrees C and pH 2. Transmission electron microscopy analysis showed that the contour length of the fibrils was approximately 1 microm, the persistence length 2.3 microm, and the thickness a few nanometers. Fibrils formed from SPI were more branched than the fibrils of soy glycinin. Binding of the fluorescent dye Thioflavin T to the fibrils showed that beta-sheets were present in the fibrils. The presence of the fibrils resulted in an increase in viscosity and shear thinning behavior. Flow-induced birefringence measurements showed that the behavior of the fibrils under flow can be described by scaling relations derived for rodlike macromolecules. The fibril formation could be influenced by the protein concentration and heating time. Most properties of soy glycinin fibrils are comparable to beta-lactoglobulin fibrils.

摘要

大豆球蛋白和大豆分离蛋白（SPI）在85℃和pH 2条件下加热时会形成长的、纤维状的半柔性聚集体。透射电子显微镜分析表明，纤维的轮廓长度约为1微米，持续长度为2.3微米，厚度为几纳米。由SPI形成的纤维比大豆球蛋白的纤维分支更多。荧光染料硫黄素T与纤维的结合表明纤维中存在β-折叠。纤维的存在导致粘度增加和剪切变稀行为。流动诱导双折射测量表明，纤维在流动下的行为可以用为棒状大分子推导的标度关系来描述。纤维的形成会受到蛋白质浓度和加热时间的影响。大豆球蛋白纤维的大多数性质与β-乳球蛋白纤维相当。

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来自大豆球蛋白和大豆分离蛋白的微米级纤维状蛋白质聚集体。

Micrometer-sized fibrillar protein aggregates from soy glycinin and soy protein isolate.

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