用乙醇诱导沉淀法精制热水提取丝胶。

Refining hot-water extracted silk sericin by ethanol-induced precipitation.

机构信息

Department of Biosystems & Biomaterials Science and Engineering, Seoul National University, Seoul 151-921, Republic of Korea.

出版信息

Int J Biol Macromol. 2011 Jan 1;48(1):32-7. doi: 10.1016/j.ijbiomac.2010.09.008. Epub 2010 Sep 25.

DOI:10.1016/j.ijbiomac.2010.09.008

PMID:20875446

Abstract

In order to improve some inherent disadvantages in the mechanical properties of silk sericin (SS), we prepared ethanol-precipitated sericin (EpSS) by adding ethanol into hot-water extracted sericin (HS) solution. EpSS had higher viscosity compared to HS and it was due to the differences in their molecular weight distribution (MWD). The different MWD of EpSS was due to the different solubility of sericin molecules at various concentrations of ethanol, and the amino acid composition of EpSS showed that the more hydrophobic sericin is precipitated more readily in the presence of ethanol. The secondary structure of sericin is also changed from a random coil to β-sheet structure when the amount of ethanol added is high enough. The DSC analysis also revealed that EpSSs has a more compact structure. Finally, when beads were prepared from EpSS, they had enhanced compressive strength compared to those from HS.

摘要

为了改善丝胶（SS）在机械性能方面的一些固有缺点，我们通过向热水提取的丝胶（HS）溶液中添加乙醇来制备乙醇沉淀丝胶（EpSS）。与 HS 相比，EpSS 的粘度更高，这是由于它们的分子量分布（MWD）不同。EpSS 的不同 MWD 是由于丝胶分子在不同乙醇浓度下的溶解度不同，而且 EpSS 的氨基酸组成表明，在存在乙醇的情况下，疏水性越强的丝胶越容易沉淀。当添加的乙醇量足够高时，丝胶的二级结构也从无规卷曲转变为β-折叠结构。DSC 分析还表明，EpSS 具有更紧凑的结构。最后，当从 EpSS 制备珠粒时，它们的抗压强度比从 HS 制备的珠粒增强。

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用乙醇诱导沉淀法精制热水提取丝胶。

Refining hot-water extracted silk sericin by ethanol-induced precipitation.

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