碳二亚胺诱导明胶发生交联、配体添加及降解。

Carbodiimide induced cross-linking, ligand addition, and degradation in gelatin.

作者信息

Cammarata Christopher R, Hughes Mitchell E, Ofner Clyde M

机构信息

Department of Pharmaceutical Sciences, Philadelphia College of Pharmacy, University of the Sciences in Philadelphia , 600 South 43rd Street, Philadelphia, Pennsylvania 19104-4495, United States.

出版信息

Mol Pharm. 2015 Mar 2;12(3):783-93. doi: 10.1021/mp5006118. Epub 2015 Feb 6.

DOI:10.1021/mp5006118

PMID:25658665

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5585870/

Abstract

The water-soluble carbodiimide, 1-ethyl-3-(3-(dimethylaminopropyl)-carbodiimide (EDC) is widely used in protein chemistry. We used EDC-induced gelatin cross-linking as a model for amide bond formation to resolve reaction ambiguities with common variables of buffers, gelatin concentration, and pH. Percentage changes in SEC high molecular weight peak areas were used to follow the reactions. Differences in reaction rate and extent were observed with four commonly used buffers, while differences in extent were observed for commonly used concentrations and pH. We also investigated an anhydride mechanism for aqueous EDC-induced amide bond formation that has received little attention since its proposal in 1995. Gelatin carboxyl groups had a synergistic role during the addition of hydrazine to corroborate the anhydride formation between carboxyl groups. EDC-induced degradation of gelatin was investigated using percentage changes in SEC low molecular weight peak areas. The degradation occurred in excess EDC at neutral to alkaline pH and was enhanced substantially when reacting amino groups were not available. A mechanism of EDC-induced gelatin degradation is proposed and designated the extended Khorana mechanism. This EDC side reaction has the potential to occur in peptides and proteins under similar conditions.

摘要

水溶性碳二亚胺1-乙基-3-(3-(二甲氨基丙基))碳二亚胺(EDC)在蛋白质化学中被广泛应用。我们使用EDC诱导的明胶交联作为酰胺键形成的模型，以解决缓冲液、明胶浓度和pH值等常见变量对反应造成的模糊性。用尺寸排阻色谱法(SEC)高分子量峰面积的百分比变化来跟踪反应。在四种常用缓冲液中观察到反应速率和程度的差异，而在常用浓度和pH值下观察到程度的差异。我们还研究了自1995年提出以来很少受到关注的关于水溶液中EDC诱导酰胺键形成的酸酐机制。在加入肼以证实羧基之间形成酸酐的过程中，明胶羧基起到了协同作用。使用SEC低分子量峰面积的百分比变化来研究EDC诱导的明胶降解。在中性至碱性pH值下，过量的EDC会导致降解，并且当没有可用的反应性氨基时，降解会显著增强。提出了一种EDC诱导明胶降解的机制，并将其命名为扩展的霍拉纳机制。这种EDC副反应在类似条件下有可能在肽和蛋白质中发生。

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