长自转运蛋白信号序列的结构域组织

Domain organization of long autotransporter signal sequences.

作者信息

Hiss Jan A, Schneider Gisbert

机构信息

Johann Wolfgang Goethe-University, Chair for Chem- and Bioinformatics, Centre for Membrane Proteomics, Siesmayerstr. 70, D-60323 Frankfurt am Main, Germany. Email:

出版信息

Bioinform Biol Insights. 2009 Dec 14;3:189-204. doi: 10.4137/bbi.s3411.

DOI:10.4137/bbi.s3411

PMID:20072671

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2805444/

Abstract

Bacterial autotransporters represent a diverse family of proteins that autonomously translocate across the inner membrane of Gram-negative bacteria via the Sec complex and across the outer bacterial membrane. They often possess exceptionally long N-terminal signal sequences. We analyzed 90 long signal sequences of bacterial autotransporters and members of the two-partner secretion pathway in silico and describe common domain organization found in 79 of these sequences. The domains are in agreement with previously published experimental data. Our algorithmic approach allows for the systematic identification of functionally different domains in long signal sequences.

摘要

细菌自转运蛋白代表了一类多样的蛋白质家族，它们通过Sec复合体自主穿过革兰氏阴性菌的内膜，并穿过细菌外膜。它们通常拥有异常长的N端信号序列。我们通过计算机分析了90个细菌自转运蛋白和双伙伴分泌途径成员的长信号序列，并描述了其中79个序列中发现的共同结构域组织。这些结构域与先前发表的实验数据一致。我们的算法方法能够系统地识别长信号序列中功能不同的结构域。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b56/2805444/184f71e1b8e0/bbi-2009-189f1.jpg

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长自转运蛋白信号序列的结构域组织

Domain organization of long autotransporter signal sequences.

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