六聚体RSF1010解旋酶RepA：单个氨基酸残基的结构和功能重要性

Hexameric RSF1010 helicase RepA: the structural and functional importance of single amino acid residues.

作者信息

Ziegelin Günter, Niedenzu Timo, Lurz Rudi, Saenger Wolfram, Lanka Erich

机构信息

Max-Planck-Institut für Molekulare Genetik, Ihnestrasse 73, Dahlem, D-14195 Berlin, Germany.

出版信息

Nucleic Acids Res. 2003 Oct 15;31(20):5917-29. doi: 10.1093/nar/gkg790.

DOI:10.1093/nar/gkg790

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC219471/

Abstract

In the known monoclinic crystals the 3-dimensional structure of the hexameric, replicative helicase RepA encoded by plasmid RSF1010 shows 6-fold rotational symmetry. In contrast, in the cubic crystal form at 2.55 A resolution described here RepA has 3-fold symmetry and consists of a trimer of dimers. To study structure-function relationships, a series of repA deletion mutants and mutations yielding single amino acid exchanges were constructed and the respective gene products were analyzed in vivo and in vitro. Hexamerization of RepA occurs via the N-terminus and is required for NTP hydrolysis. The C-terminus is essential both for the interaction with the replication machinery and for the helicase activity. Functional analyses of RepA variants with single amino acid exchanges confirmed most of the predictions that were based on the published 3-dimensional structure. Of the five motifs conserved in family 4 helicases, all residues conserved in RepA and T7 gp4 helicases participate in DNA unwinding. Residues K42, E76, D77, D139 and H178, proposed to play key roles in catalyzing the hydrolysis of NTPs, are essential for RepA activity. Residue H178 of motif H3 couples nucleotide consumption to DNA strand separation.

摘要

在已知的单斜晶体中，由质粒RSF1010编码的六聚体复制解旋酶RepA的三维结构呈现出六重旋转对称性。相比之下，在此描述的分辨率为2.55 Å的立方晶体形式中，RepA具有三重对称性，由二聚体三聚体组成。为了研究结构与功能的关系，构建了一系列repA缺失突变体和产生单个氨基酸交换的突变体，并在体内和体外对相应的基因产物进行了分析。RepA的六聚化通过N端发生，是NTP水解所必需的。C端对于与复制机制的相互作用以及解旋酶活性都至关重要。对具有单个氨基酸交换的RepA变体的功能分析证实了大多数基于已发表的三维结构所做的预测。在4型解旋酶中保守的五个基序中，RepA和T7 gp4解旋酶中所有保守的残基都参与DNA解旋。残基K42、E76、D77、D139和H178被认为在催化NTP水解中起关键作用，对RepA活性至关重要。基序H3中的残基H178将核苷酸消耗与DNA链分离联系起来。

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