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结核分枝杆菌单链DNA结合蛋白内功能相互作用的遗传分析

A genetic analysis of the functional interactions within Mycobacterium tuberculosis single-stranded DNA binding protein.

作者信息

Rex Kervin, Bharti Sanjay Kumar, Sah Shivjee, Varshney Umesh

机构信息

Department of Microbiology and Cell Biology, Indian Institute of Science, Bangalore, India.

Department of Microbiology and Cell Biology, Indian Institute of Science, Bangalore, India; Jawaharlal Nehru Centre for Advanced Scientific Research, Bangalore, India.

出版信息

PLoS One. 2014 Apr 10;9(4):e94669. doi: 10.1371/journal.pone.0094669. eCollection 2014.

DOI:10.1371/journal.pone.0094669
PMID:24722671
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3983218/
Abstract

Single-stranded DNA binding proteins (SSBs) are vital in all organisms. SSBs of Escherichia coli (EcoSSB) and Mycobacterium tuberculosis (MtuSSB) are homotetrameric. The N-terminal domains (NTD) of these SSBs (responsible for their tetramerization and DNA binding) are structurally well defined. However, their C-terminal domains (CTD) possess undefined structures. EcoSSB NTD consists of β1-β1'-β2-β3-α-β4-β451-β452-β5 secondary structure elements. MtuSSB NTD includes an additional β-strand (β6) forming a novel hook-like structure. Recently, we observed that MtuSSB complemented an E. coli Δssb strain. However, a chimeric SSB (mβ4-β5), wherein only the terminal part of NTD (β4-β5 region possessing L45 loop) of EcoSSB was substituted with that from MtuSSB, failed to function in E. coli in spite of its normal DNA binding and oligomerization properties. Here, we designed new chimeras by transplanting selected regions of MtuSSB into EcoSSB to understand the functional significance of the various secondary structure elements within SSB. All chimeric SSBs formed homotetramers and showed normal DNA binding. The mβ4-β6 construct obtained by substitution of the region downstream of β5 in mβ4-β5 SSB with the corresponding region (β6) of MtuSSB complemented the E. coli strain indicating a functional interaction between the L45 loop and the β6 strand of MtuSSB.

摘要

单链DNA结合蛋白(SSB)在所有生物体中都至关重要。大肠杆菌(EcoSSB)和结核分枝杆菌(MtuSSB)的SSB是同四聚体。这些SSB的N端结构域(NTD,负责其四聚化和DNA结合)在结构上已得到很好的定义。然而,它们的C端结构域(CTD)结构尚不明确。EcoSSB NTD由β1-β1'-β2-β3-α-β4-β451-β452-β5二级结构元件组成。MtuSSB NTD包含一个额外的β链(β6),形成一种新颖的钩状结构。最近,我们观察到MtuSSB可以互补大肠杆菌Δssb菌株。然而,一种嵌合SSB(mβ4-β5),其中仅EcoSSB的NTD末端部分(具有L45环的β4-β5区域)被MtuSSB的相应部分取代,尽管其具有正常的DNA结合和寡聚化特性,但在大肠杆菌中仍无法发挥功能。在此,我们通过将MtuSSB的选定区域移植到EcoSSB中设计了新的嵌合体,以了解SSB内各种二级结构元件的功能意义。所有嵌合SSB均形成同四聚体并表现出正常的DNA结合能力。通过用MtuSSB的相应区域(β6)替换mβ4-β5 SSB中β5下游区域获得的mβ4-β6构建体能够互补大肠杆菌菌株,这表明MtuSSB的L45环与β6链之间存在功能相互作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/599e/3983218/a08138bae926/pone.0094669.g008.jpg
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