预测促旋酶A的C末端结构域具有β-螺旋桨结构。

C-terminal domain of gyrase A is predicted to have a beta-propeller structure.

作者信息

Qi Yuan, Pei Jimin, Grishin Nick V

机构信息

Department of Biochemistry, University of Texas Southwestern Medical Center, Texas 75390-9050, USA.

出版信息

Proteins. 2002 May 15;47(3):258-64. doi: 10.1002/prot.10090.

DOI:10.1002/prot.10090

PMID:11948780

Abstract

Two different type II topoisomerases are known in bacteria. DNA gyrase (Gyr) introduces negative supercoils into DNA. Topoisomerase IV (Par) relaxes DNA supercoils. GyrA and ParC subunits of bacterial type II topoisomerases are involved in breakage and reunion of DNA. The spatial structure of the C-terminal fragment in GyrA/ParC is not available. We infer homology between the C-terminal domain of GyrA/ParC and a regulator of chromosome condensation (RCC1), a eukaryotic protein that functions as a guanine-nucleotide-exchange factor for the nuclear G protein Ran. This homology, complemented by detection of 6 sequence repeats with 4 predicted beta-strands each in GyrA/ParC sequences, allows us to predict that the GyrA/ParC C-terminal domain folds into a 6-bladed beta-propeller. The prediction rationalizes available experimental data and sheds light on the spatial properties of the largest topoisomerase domain that lacks structural information.

摘要

细菌中已知有两种不同的II型拓扑异构酶。DNA促旋酶（Gyr）将负超螺旋引入DNA。拓扑异构酶IV（Par）则使DNA超螺旋松弛。细菌II型拓扑异构酶的GyrA和ParC亚基参与DNA的断裂和重新连接。GyrA/ParC中C端片段的空间结构尚不清楚。我们推断GyrA/ParC的C端结构域与染色体凝聚调节因子（RCC1）存在同源性，RCC1是一种真核蛋白，作为核G蛋白Ran的鸟嘌呤核苷酸交换因子发挥作用。这种同源性，再加上在GyrA/ParC序列中检测到6个序列重复，每个重复有4个预测的β链，使我们能够预测GyrA/ParC的C端结构域折叠成一个6叶β螺旋桨。这一预测使现有的实验数据合理化，并揭示了缺乏结构信息的最大拓扑异构酶结构域的空间特性。

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预测促旋酶A的C末端结构域具有β-螺旋桨结构。

C-terminal domain of gyrase A is predicted to have a beta-propeller structure.

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