肽链延伸：蒙脱石在蛋白质前体的益生元合成中的可能作用。

Peptide chain elongation: a possible role of montmorillonite in prebiotic synthesis of protein precursors.

作者信息

Bujdák J, Faybíková K, Eder A, Yongyai Y, Rode B M

机构信息

Institute of Inorganic Chemistry, Slovak Academy of Sciences, Bratislava.

出版信息

Orig Life Evol Biosph. 1995 Oct;25(5):431-41. doi: 10.1007/BF01581994.

DOI:10.1007/BF01581994

PMID:7644185

Abstract

Several studies have proven the ability of montmorillonite to catalyse amino acid condensation under assumed prebiotic conditions, simulating wetting-drying cycles. In this work, the oligomerization of short peptides gly2, gly3, gly4 and ala2 on Ca- and Cu-montmorillonite in drying-wetting cycles at 80 degrees C was studied. The catalytic effect of montmorillonite was found to be much higher than in the case of glycine oligomerization. From gly2 after 3 weeks, 10% oligomers (up to gly6, with gly3 as main products) are formed. Gly3 and gly4 give higher oligomers even after 1 cycle. Ala2 produces both ala3 and ala4, whereas ala does not produce any oligomers under these conditions. Heteroologomerization was observed: ala-gly-gly is formed from ala and gly2. Much higher yields are obtained using Ca-montmorillonite, because copper (II) oxidizes organic molecules. The influence of the reaction mechanism on the preferential oligomerization of oligopeptides is discussed.

摘要

多项研究已证实蒙脱石在假定的前生物条件下催化氨基酸缩合的能力，该条件模拟了干湿循环。在这项工作中，研究了短肽gly2、gly3、gly4和ala2在80摄氏度的干湿循环中于钙蒙脱石和铜蒙脱石上的低聚反应。发现蒙脱石的催化效果远高于甘氨酸低聚反应的情况。从gly2开始，3周后形成了10%的低聚物（直至gly6，主要产物为gly3）。即使经过1个循环，gly3和gly4也能生成更高的低聚物。Ala2能生成ala3和ala4，而在这些条件下ala不会生成任何低聚物。观察到了异源低聚反应：ala - gly - gly由ala和gly2形成。使用钙蒙脱石可获得更高的产率，因为铜（II）会氧化有机分子。讨论了反应机理对寡肽优先低聚反应的影响。

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肽链延伸：蒙脱石在蛋白质前体的益生元合成中的可能作用。

Peptide chain elongation: a possible role of montmorillonite in prebiotic synthesis of protein precursors.

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