重组蛋白色谱法。

J V O'Connor
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引用次数: 0

摘要

使用反相高效液相色谱(rpHPLC)或亲和层析,可以很容易地分离质量在6500 - 70000 Da之间的完整多肽/蛋白变体。在完整分子中检测到丝氨酸残基外消旋的rhlGF-I变体,在25分钟内通过rpHPLC从rhlGF-I中分离出来。通过这种方法分离的rhlGF-I的其他变体包括59位的甲硫氨酸亚砜,des Gly1, des Gly1Pro2, 20位Asp取代的Glu和错误折叠的IGF-I。对于rhDNase(约40 kDa),亲和层析能够在完整糖蛋白的第74位清楚地分辨出三种不同的氨基酸(Asn, Asp和iso-Asp)。重组人血小板生成素的Thr -37上存在或不存在o -连接糖,通过rpHPLC快速证实。虽然分离这些类型的变异是必不可少的,但生物活性的证明对于设计允许这些蛋白质进入人体的规格至关重要。一旦变体与其生物活性之间存在相关性,就可以用分析方法更好地实现对生产过程的控制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chromatography of recombinant proteins.

Variants of intact polypeptides/proteins ranging in mass from 6,500 to 70,000 Da were easily separated using reversed-phaseHPLC (rpHPLC) or affinity chromatography. A variant of rhlGF-I, where the racemization of a serine residue was detected in the intact molecule, was resolved from rhlGF-I within 25 minutes by rpHPLC. Other variants of rhlGF-I separated by this method include methionine sulphoxide at position 59, des Gly1, des Gly1Pro2, Glu for Asp substitution at position 20 and incorrectly folded IGF-I. For rhDNase (approximately 40 kDa), affinity chromatography was able to clearly resolve three different amino acids (Asn, Asp and iso-Asp) at position 74 of the intact glycoprotein. The presence or absence of O-linked sugars on Thr -37 of recombinant human thrombopoietin was rapidly demonstrated by rpHPLC. While the separation of these types of variants is essential, the demonstration of biological activity is critical for designing specifications that allow the administration of these proteins into humans. Once a correlation exists between the variant and its biological activity, control of the manufacturing process can be better achieved with analytical methodology.

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