甘氨酸支架：一种与鸟嘌呤和磷酸盐结合环的铰链区相关的Rab、Rho和Ran GTP酶的组成部分。

The glycine brace: a component of Rab, Rho, and Ran GTPases associated with hinge regions of guanine- and phosphate-binding loops.

作者信息

Neuwald Andrew F

机构信息

Institute for Genome Sciences and Department of Biochemistry & Molecular Biology, University of Maryland School of Medicine, 801 West Baltimore St,, BioPark II, Baltimore, MD 21201, USA.

出版信息

BMC Struct Biol. 2009 Mar 5;9:11. doi: 10.1186/1472-6807-9-11.

DOI:10.1186/1472-6807-9-11

PMID:19265520

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2656535/

Abstract

BACKGROUND

Ras-like GTPases function as on-off switches in intracellular signalling pathways and include the Rab, Rho/Rac, Ran, Ras, Arf, Sar and G alpha families. How these families have evolutionarily diverged from each other at the sequence level provides clues to underlying mechanisms associated with their functional specialization.

RESULTS

Bayesian analysis of divergent patterns within a multiple alignment of Ras-like GTPase sequences identifies a structural component, termed here the glycine brace, as the feature that most distinguishes Rab, Rho/Rac, Ran and (to some degree) Ras family GTPases from other Ras-like GTPases. The glycine brace consists of four residues: An aromatic residue that forms a stabilizing CH-pi interaction with a conserved glycine at the start of the guanine-binding loop; a second aromatic residue, which is nearly always a tryptophan, that likewise forms stabilizing CH-pi and NH-pi interactions with a glycine at the start of the phosphate-binding P-loop; and two other residues (typically an aspartate and a serine or threonine) that, together with a conserved buried water molecule, form a network of interactions connecting the two aromatic residues.

CONCLUSION

It is proposed that the two glycine residues function as hinges and that the glycine brace influences guanine nucleotide binding and release by interacting with these hinges.

摘要

背景

类Ras GTP酶在细胞内信号通路中起开关作用，包括Rab、Rho/Rac、Ran、Ras、Arf、Sar和Gα家族。这些家族在序列水平上如何从进化上彼此分化，为与其功能特化相关的潜在机制提供了线索。

结果

对类Ras GTP酶序列的多序列比对中的分歧模式进行贝叶斯分析，确定了一个结构成分，在此称为甘氨酸支架，作为将Rab、Rho/Rac、Ran和（在某种程度上）Ras家族GTP酶与其他类Ras GTP酶区分开来的最显著特征。甘氨酸支架由四个残基组成：一个芳香族残基，它与鸟嘌呤结合环起始处的保守甘氨酸形成稳定的CH-π相互作用；第二个芳香族残基，几乎总是色氨酸，它同样与磷酸结合P环起始处的甘氨酸形成稳定的CH-π和NH-π相互作用；以及另外两个残基（通常是一个天冬氨酸和一个丝氨酸或苏氨酸），它们与一个保守的埋藏水分子一起，形成连接两个芳香族残基的相互作用网络。

结论

有人提出，这两个甘氨酸残基起铰链作用，甘氨酸支架通过与这些铰链相互作用影响鸟嘌呤核苷酸的结合和释放。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cb4c/2656535/2c99e08104dc/1472-6807-9-11-1.jpg

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甘氨酸支架：一种与鸟嘌呤和磷酸盐结合环的铰链区相关的Rab、Rho和Ran GTP酶的组成部分。

The glycine brace: a component of Rab, Rho, and Ran GTPases associated with hinge regions of guanine- and phosphate-binding loops.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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