阴离子交换膜被谷胱甘肽污染。

T Gotoh, K Kikuchi
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引用次数: 6

摘要

电渗析可以在温和的条件下通过离子交换膜分离电解质,是酵母提取物中分离谷胱甘肽的有力候选,因为谷胱甘肽不稳定,容易氧化形成二硫键,特别是在碱条件下。在本文中,研究了谷胱甘肽在阴离子交换膜上的吸附行为,在pH为3-6的区域,预计是最适合其电透析分离的。Selemion-AMV阴离子交换膜对谷胱甘肽的吸附随着膜接触液pH的增大而加快,吸附量与谷胱甘肽单价阴离子的摩尔分数呈良好的相关性。NaCl解吸溶液对GSH的吸附量远低于初始吸附量,且随着ph的增加,两者之间的差异越来越大。通过在膜接触溶液和解吸溶液中添加DTT,可以回收损失的GSH。用Cys也得到了类似的结果。因此,我们得出结论,阴离子交换膜会被硫醇类化合物(如GSH和Cys)污染,通过硫醇基团与膜的氧化结合,其中局部OH-浓度由于带正电荷的阴离子交换膜的吸引而增强。
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Contamination of an anion-exchange membrane by glutathione.

Electrodialysis, which can separate electrolytes under mild conditions by using ion-exchange membranes, is a strong candidate for separation of GSH from yeast extracts, because GSH is unstable and easily oxidized forming a disulfide bond especially under alkali conditions. In this paper, sorption behavior of GSH on an anion-exchange membrane, in the pH 3-6 region that is expected to be the most preferable for its electro-dialytic separation, was examined. Sorption of GSH on a Selemion-AMV anion-exchange membrane was accelerated as the pH of the membrane-contact solution increased, and there was a good correlation between the sorbed amounts and the molar fraction of monovalent anionic species of GSH. However, the amounts of GSH desorbed from the membrane by a NaCl desorbing solution were much lower than the initial sorbed amounts, and the difference between them was enlarged with increasing pH. The GSH which was lost could be recovered by the addition of DTT in the membrane-contact and desorbing solutions. Similar results were also obtained with Cys. We thus concluded that an anion-exchange membrane would be contaminated by thiol compounds, such as GSH and Cys, through oxidative binding of the thiol group with the membrane, the local OH- concentration in which was enhanced due to attraction by the positively charged anion-exchange membrane.

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