信号序列以底物特异性方式控制蛋白质转运通道的门控。

Signal sequences control gating of the protein translocation channel in a substrate-specific manner.

作者信息

Kim Soo Jung, Mitra Devarati, Salerno Jeffrey R, Hegde Ramanujan S

机构信息

Laboratory of Cellular Oncology, National Cancer Institute, Bethesda, MD 20892, USA.

出版信息

Dev Cell. 2002 Feb;2(2):207-17. doi: 10.1016/s1534-5807(01)00120-4.

DOI:10.1016/s1534-5807(01)00120-4

PMID:11832246

Abstract

N-terminal signal sequences mediate targeting of nascent chains to the endoplasmic reticulum and facilitate opening of the protein translocation channel to the passage of substrate. We have assessed each of these steps for a diverse set of mammalian signals. While minimal differences were seen in their targeting function, signal sequences displayed a remarkable degree of variation in initiating nascent chain access to the lumenal environment. Such substrate-specific properties of signals were evolutionarily conserved, functionally matched to their respective mature domains, and important for the proper biogenesis of some proteins. Thus, the sequence variations of signals do not simply represent functional degeneracy, but instead encode critical differences in translocon gating that are coordinated with their respective passengers to facilitate efficient translocation.

摘要

N 端信号序列介导新生肽链靶向内质网，并促进蛋白质转运通道对底物通过的开放。我们已经评估了一系列不同的哺乳动物信号的每一个步骤。虽然在它们的靶向功能上观察到最小差异，但信号序列在启动新生肽链进入腔内环境方面表现出显著程度的变异。信号的这种底物特异性特性在进化上是保守的，在功能上与其各自的成熟结构域相匹配，并且对某些蛋白质的正确生物合成很重要。因此，信号的序列变异不仅仅代表功能退化，而是编码转位子门控的关键差异，这些差异与其各自的乘客相协调以促进有效转运。

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信号序列以底物特异性方式控制蛋白质转运通道的门控。

Signal sequences control gating of the protein translocation channel in a substrate-specific manner.

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