INRA, Laboratoire de Recherches de Technologie Laitière, 65 rue de Saint-Brieuc, 35042 Rennes Cedex, France. agarem@/labtechno.roazhon.inra.fr
Biotechnol Bioeng. 1997 May 20;54(4):291-302. doi: 10.1002/(SICI)1097-0290(19970520)54:4<291::AID-BIT1>3.0.CO;2-F.
A charged organic-inorganic nanofiltration (NF) membrane prototype was used to separate a mixture of nine amino acids (AA) on the basis of differential electrostatic interactions with the membrane because, for a given pH, some of them were positively charged, some were negative, and some were zwitterions. Effect of pH, amino acid concentration (C(r)), and added ionic strength ([NaCI]) on the process selectivity was studied. A global statistical study revealed that pH was the dominant parameter regarding fractionation. C(r) and [NaCI] had a weaker effect, but the ratio C(r)/[NaCI] demonstrated a pronounced effect on system selectivity. Two split-ups of the mixture were obtained at pH 2 and at pH 12, for a 1-g/L total AA concentration and a C(r)/[NaCI] ratio of 0.16. Under these conditions, the differences in transmissions between basic and acid AA were higher than 70%. Interpretation of the results according to the Donnan theory allows us to foresee the potentialities of charged nanofiltration membranes for the fractionation of a complex mixture, such as peptidic hydrolysate to streams containing peptides and amino acids having different isoelectric points. (c) 1997 John Wiley & Sons, Inc. Biotechnol Bioeng 54: 291-302, 1997.
charged organic-inorganic nanofiltration (NF) membrane prototype 用于根据与膜的差分静电相互作用分离九种氨基酸 (AA) 的混合物,因为在给定 pH 值下,它们中的一些带正电荷,一些带负电荷,还有一些是两性离子。研究了 pH、氨基酸浓度 (C(r)) 和添加离子强度 ([NaCI]) 对过程选择性的影响。全局统计研究表明,pH 是分馏的主要参数。C(r) 和 [NaCI] 的影响较弱,但 C(r)/[NaCI] 比值对系统选择性有明显影响。在 pH 2 和 pH 12 下,对于 1 g/L 总 AA 浓度和 C(r)/[NaCI] 比值为 0.16,获得了混合物的两个分离物。在这些条件下,碱性和酸性 AA 之间的传输差异高于 70%。根据 Donnan 理论解释结果,允许我们预见带电纳滤膜在复杂混合物(例如肽水解物)的分馏中的潜力,例如具有不同等电点的肽和氨基酸流。(c)1997 年 John Wiley & Sons,Inc.生物技术生物工程 54:291-302,1997。
