一种从细菌中产生活性人源Src以对其调控进行生化研究的新策略。

A new strategy to produce active human Src from bacteria for biochemical study of its regulation.

作者信息

Wang Yue-Hao, Ayrapetov Marina K, Lin Xiaofeng, Sun Gongqin

机构信息

Department of Cell and Molecular Biology, University of Rhode Island, Kingston, 02881, USA.

出版信息

Biochem Biophys Res Commun. 2006 Jul 28;346(2):606-11. doi: 10.1016/j.bbrc.2006.05.180.

DOI:10.1016/j.bbrc.2006.05.180

PMID:16765913

Abstract

Enzymological studies of Src protein tyrosine kinase have been hindered by the lack of a suitable bacterial expression system. Poor expression of active Src appears to be due to toxicity associated with its kinase activity. To overcome this problem, we fused Src to a protein tyrosine phosphatase with an affinity tag and an appropriate thrombin cleavage site. Upon affinity purification of the fusion protein, Src was released by thrombin digestion and further purified by FPLC. This strategy has been used to produce several Src mutants that display catalytic and regulatory properties similar to those from eukaryotic expression systems. Characterization of the Src mutants confirmed that inactivation of Src by Csk through tail tyrosine phosphorylation required the Src SH3 domain.

摘要

Src蛋白酪氨酸激酶的酶学研究因缺乏合适的细菌表达系统而受到阻碍。活性Src表达不佳似乎是由于与其激酶活性相关的毒性。为克服这一问题，我们将Src与一种带有亲和标签和合适凝血酶切割位点的蛋白酪氨酸磷酸酶融合。对融合蛋白进行亲和纯化后，通过凝血酶消化释放出Src，并通过快速蛋白质液相色谱法（FPLC）进一步纯化。该策略已用于产生几种Src突变体，这些突变体表现出与真核表达系统中的Src突变体相似的催化和调节特性。对Src突变体的表征证实，Csk通过尾部酪氨酸磷酸化使Src失活需要Src的SH3结构域。

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一种从细菌中产生活性人源Src以对其调控进行生化研究的新策略。

A new strategy to produce active human Src from bacteria for biochemical study of its regulation.

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