通过天然存在的和工程化的分裂DnaE内含肽进行体内和体外蛋白质连接。

In vivo and in vitro protein ligation by naturally occurring and engineered split DnaE inteins.

作者信息

Aranko A Sesilja, Züger Sara, Buchinger Edith, Iwaï Hideo

机构信息

Research Program in Structural Biology and Biophysics, Institute of Biotechnology, University of Helsinki, Helsinki, Finland.

出版信息

PLoS One. 2009;4(4):e5185. doi: 10.1371/journal.pone.0005185. Epub 2009 Apr 13.

DOI:10.1371/journal.pone.0005185

PMID:19365564

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2664965/

Abstract

BACKGROUND

Protein trans-splicing by naturally occurring split DnaE inteins is used for protein ligation of foreign peptide fragments. In order to widen biotechnological applications of protein trans-splicing, it is highly desirable to have split inteins with shorter C-terminal fragments, which can be chemically synthesized.

PRINCIPAL FINDINGS

We report the identification of new functional split sites in DnaE inteins from Synechocystis sp. PCC6803 and from Nostoc punctiforme. One of the newly engineered split intein bearing C-terminal 15 residues showed more robust protein trans-splicing activity than naturally occurring split DnaE inteins in a foreign context. During the course of our experiments, we found that protein ligation by protein trans-splicing depended not only on the splicing junction sequences, but also on the foreign extein sequences. Furthermore, we could classify the protein trans-splicing reactions in foreign contexts with a simple kinetic model into three groups according to their kinetic parameters in the presence of various reducing agents.

CONCLUSION

The shorter C-intein of the newly engineered split intein could be a useful tool for biotechnological applications including protein modification, incorporation of chemical probes, and segmental isotopic labelling. Based on kinetic analysis of the protein splicing reactions, we propose a general strategy to improve ligation yields by protein trans-splicing, which could significantly enhance the applications of protein ligation by protein trans-splicing.

摘要

背景

天然存在的分裂型DnaE内含肽介导的蛋白质反式剪接可用于外源肽片段的蛋白质连接。为了拓宽蛋白质反式剪接的生物技术应用范围，非常需要具有可化学合成的较短C端片段的分裂内含肽。

主要发现

我们报告了来自集胞藻属PCC6803和点状念珠藻的DnaE内含肽中新功能分裂位点的鉴定。其中一种新设计的带有C端15个残基的分裂内含肽在异源环境中表现出比天然存在的分裂型DnaE内含肽更强的蛋白质反式剪接活性。在我们的实验过程中，我们发现蛋白质反式剪接介导的蛋白质连接不仅取决于剪接连接序列，还取决于外源外显肽序列。此外，我们可以根据在各种还原剂存在下的动力学参数，用一个简单的动力学模型将异源环境中的蛋白质反式剪接反应分为三组。

结论

新设计的分裂内含肽的较短C端内含肽可能是一种有用的生物技术工具，可用于蛋白质修饰、化学探针掺入和片段同位素标记等应用。基于对蛋白质剪接反应的动力学分析，我们提出了一种通过蛋白质反式剪接提高连接产率的通用策略，这可以显著增强蛋白质反式剪接介导的蛋白质连接的应用。

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通过天然存在的和工程化的分裂DnaE内含肽进行体内和体外蛋白质连接。

In vivo and in vitro protein ligation by naturally occurring and engineered split DnaE inteins.

作者信息

机构信息

出版信息

BACKGROUND

PRINCIPAL FINDINGS

CONCLUSION

背景

主要发现

结论

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