氧血红蛋白间二聚体相互作用的增加是减弱还原性聚乙二醇化促进四聚体解离所必需的。

Tao Hu, Dongxia Li, Fantao Meng, Muthuchidambaram Prabhakaran, Seetharama A Acharya
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引用次数: 11

摘要

研究了Hb的Val-1(α)的位点特异性羧甲基化和丙基化倾向,以减弱还原性六聚乙二醇诱导的四聚体解离。只有Val-1(α)的还原性丙基化,增加了氧Hb的稳定性,减弱了还原性六聚乙二醇诱导的解离。通过化学或遗传方法增加Hb氧构象的稳定性是一种使用直接PEGylation平台产生具有天然四聚体稳定性的聚乙二醇化Hb的策略。这种新方法和EAF-PEGylation是仅有的两种备选PEGylation策略,可用于设计稳定的第二代血管无活性非交联PEGylation Hbs,具有天然样四聚体稳定性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Increased inter dimeric interaction of oxy hemoglobin is necessary for attenuation of reductive pegylation promoted dissociation of tetramer.

The propensity of site-specific carboxymethylation and propylation of Val-1(α) of Hb to attenuate the reductive hexaPEGylation-induced dissociation of tetramers has been investigated. Only reductive propylation of Val-1(α), which increases the stability of oxy Hb, attenuates the reductive hexaPEGylation-induced dissociation. Increasing the stability of the oxy conformation of Hb by chemical or genetic approaches is a strategy to generate PEGylated Hbs with native-like tetramer stability using direct PEGylation platforms. This new approach and EAF-PEGylation are the only two alternate PEGylation strategies available to design stable second-generation vasoinactive uncrosslinked PEGylated Hbs with native-like tetramer stability.

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