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菱形蛋白酶的结构与机制。

Structure and mechanism of rhomboid protease.

机构信息

Department of Pharmacology, Yale School of Medicine, New Haven, Connecticut 06520, USA.

出版信息

J Biol Chem. 2013 May 31;288(22):15430-6. doi: 10.1074/jbc.R112.422378. Epub 2013 Apr 12.

DOI:10.1074/jbc.R112.422378
PMID:23585569
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3668704/
Abstract

Rhomboid protease was first discovered in Drosophila. Mutation of the fly gene interfered with growth factor signaling and produced a characteristic phenotype of a pointed head skeleton. The name rhomboid has since been widely used to describe a large family of related membrane proteins that have diverse biological functions but share a common catalytic core domain composed of six membrane-spanning segments. Most rhomboid proteases cleave membrane protein substrates near the N terminus of their transmembrane domains. How these proteases function within the confines of the membrane is not completely understood. Recent progress in crystallographic analysis of the Escherichia coli rhomboid protease GlpG in complex with inhibitors has provided new insights into the catalytic mechanism of the protease and its conformational change. Improved biochemical assays have also identified a substrate sequence motif that is specifically recognized by many rhomboid proteases.

摘要

菱形蛋白酶最初在果蝇中被发现。该果蝇基因的突变干扰了生长因子信号转导,并产生了一个特征性的尖头骨骼表型。此后,菱形这个名称被广泛用于描述一大类具有不同生物学功能但共享一个由六个跨膜片段组成的共同催化核心结构域的相关膜蛋白。大多数菱形蛋白酶在其跨膜结构域的 N 端附近切割膜蛋白底物。这些蛋白酶在膜内如何发挥作用还不完全清楚。最近对与抑制剂结合的大肠杆菌菱形蛋白酶 GlpG 的晶体学分析取得了进展,为蛋白酶的催化机制及其构象变化提供了新的见解。改进的生化测定方法也鉴定出了许多菱形蛋白酶特异性识别的底物序列基序。

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