SspE 介导的 DNA 硫代磷酸酯感应抗噬菌体防御的尼克机制。

Nicking mechanism underlying the DNA phosphorothioate-sensing antiphage defense by SspE.

机构信息

Department of Gastroenterology, TaiKang Center for Life and Medical Sciences, Zhongnan Hospital of Wuhan University, School of Pharmaceutical Sciences, Wuhan University, Wuhan, 430071, China.

State Key Laboratory of Microbial Metabolism, School of Life Sciences & Biotechnology, The Joint International Research Laboratory of Metabolic & Developmental Sciences, Shanghai Jiao Tong University, Shanghai, 200240, China.

出版信息

Nat Commun. 2022 Nov 9;13(1):6773. doi: 10.1038/s41467-022-34505-0.

DOI:10.1038/s41467-022-34505-0

PMID:36351933

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9646914/

Abstract

DNA phosphorothioate (PT) modification, with a nonbridging phosphate oxygen substituted by sulfur, represents a widespread epigenetic marker in prokaryotes and provides protection against genetic parasites. In the PT-based defense system Ssp, SspABCD confers a single-stranded PT modification of host DNA in the 5'-CCA-3' motif and SspE impedes phage propagation. SspE relies on PT modification in host DNA to exert antiphage activity. Here, structural and biochemical analyses reveal that SspE is preferentially recruited to PT sites mediated by the joint action of its N-terminal domain (NTD) hydrophobic cavity and C-terminal domain (CTD) DNA binding region. PT recognition enlarges the GTP-binding pocket, thereby increasing GTP hydrolysis activity, which subsequently triggers a conformational switch of SspE from a closed to an open state. The closed-to-open transition promotes the dissociation of SspE from self PT-DNA and turns on the DNA nicking nuclease activity of CTD, enabling SspE to accomplish self-nonself discrimination and limit phage predation, even when only a small fraction of modifiable consensus sequences is PT-protected in a bacterial genome.

摘要

DNA 硫代磷酸酯（PT）修饰，其中一个非桥接的磷酸氧被硫取代，是原核生物中广泛存在的表观遗传标记，提供了对遗传寄生虫的保护。在基于 PT 的防御系统 Ssp 中，SspABCD 在 5'-CCA-3' 基序中对宿主 DNA 进行单链 PT 修饰，而 SspE 则阻碍噬菌体的繁殖。SspE 依赖于宿主 DNA 中的 PT 修饰来发挥抗噬菌体活性。在这里，结构和生化分析表明，SspE 优先被其 N 端结构域（NTD）疏水性腔和 C 端结构域（CTD）DNA 结合区域的联合作用介导的 PT 位点招募。PT 识别扩大了 GTP 结合口袋，从而增加了 GTP 水解活性，随后引发 SspE 从闭合到开放状态的构象转换。从闭合到开放的转变促进了 SspE 从自身 PT-DNA 的解离，并开启了 CTD 的 DNA 切口核酸酶活性，使 SspE 能够完成自我-非我区分，并限制噬菌体捕食，即使在细菌基因组中只有一小部分可修饰的共识序列被 PT 保护。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cf4a/9646914/1b6c72954d41/41467_2022_34505_Fig1_HTML.jpg

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SspE 介导的 DNA 硫代磷酸酯感应抗噬菌体防御的尼克机制。

Nicking mechanism underlying the DNA phosphorothioate-sensing antiphage defense by SspE.

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