周质还原系统可保护单个半胱氨酸残基不被氧化。

A periplasmic reducing system protects single cysteine residues from oxidation.

作者信息

Depuydt Matthieu, Leonard Stephen E, Vertommen Didier, Denoncin Katleen, Morsomme Pierre, Wahni Khadija, Messens Joris, Carroll Kate S, Collet Jean-François

机构信息

de Duve Institute, Université catholique de Louvain, B-1200 Brussels, Belgium.

出版信息

Science. 2009 Nov 20;326(5956):1109-11. doi: 10.1126/science.1179557.

DOI:10.1126/science.1179557

PMID:19965429

Abstract

The thiol group of the amino acid cysteine can be modified to regulate protein activity. The Escherichia coli periplasm is an oxidizing environment in which most cysteine residues are involved in disulfide bonds. However, many periplasmic proteins contain single cysteine residues, which are vulnerable to oxidation to sulfenic acids and then irreversibly modified to sulfinic and sulfonic acids. We discovered that DsbG and DsbC, two thioredoxin-related proteins, control the global sulfenic acid content of the periplasm and protect single cysteine residues from oxidation. DsbG interacts with the YbiS protein and, along with DsbC, regulates oxidation of its catalytic cysteine residue. Thus, a potentially widespread mechanism controls sulfenic acid modification in the cellular environment.

摘要

氨基酸半胱氨酸的巯基可被修饰以调节蛋白质活性。大肠杆菌周质是一个氧化环境，其中大多数半胱氨酸残基参与二硫键的形成。然而，许多周质蛋白含有单个半胱氨酸残基，这些残基易被氧化成亚磺酸，然后不可逆地修饰为亚磺酸盐和磺酸盐。我们发现，两种硫氧还蛋白相关蛋白DsbG和DsbC控制着周质中整体亚磺酸的含量，并保护单个半胱氨酸残基不被氧化。DsbG与YbiS蛋白相互作用，并与DsbC一起调节其催化性半胱氨酸残基的氧化。因此，一种潜在广泛存在的机制控制着细胞环境中的亚磺酸修饰。

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周质还原系统可保护单个半胱氨酸残基不被氧化。

A periplasmic reducing system protects single cysteine residues from oxidation.

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