磷硫酰化感知抗噬菌体防御系统IscS-DndBCDE-DndI的分子基础

Molecular basis of the phosphorothioation-sensing antiphage defense system IscS-DndBCDE-DndI.

作者信息

Tang Yaqian, Wu Dan, Zhang Yueying, Liu Xuan, Chu Hui, Tan Qian, Jiang Lixu, Chen Shi, Wu Geng, Wang Lianrong

机构信息

Department of Gastroenterology, Ministry of Education Key Laboratory of Combinatorial Biosynthesis and Drug Discovery, Hubei Clinical Center and Key Laboratory of Intestinal and Colorectal Disease, TaiKang Center for Life and Medical Sciences, Zhongnan Hospital of Wuhan University, School of Pharmaceutical Sciences, Wuhan University, 169 Donghu Road, Wuchang District, Wuhan 430071, China.

Department of Respiratory Diseases, Institute of Pediatrics, Shenzhen Children's Hospital, Yitian Road 7019, Futian District, Shenzhen 518026, China.

出版信息

Nucleic Acids Res. 2024 Dec 11;52(22):13594-13604. doi: 10.1093/nar/gkae1133.

DOI:10.1093/nar/gkae1133

PMID:39611571

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11662687/

Abstract

Phosphorothioation serves as a DNA backbone modification mechanism, wherein a sulfur atom substitutes the nonbridging oxygen atom within the phosphodiester, facilitated by the gene products of dndABCDE or sspABCD. The combination of dndABCDE with dndFGH forms a bona fide defense system, where the DndFGH protein complex exhibits DNA nickase and DNA translocase activities to prevent phage invasion. In this study, we identified that dndI, co-transcribed with dndFGH, can independently couple with iscS-dndBCDE as an anti-phage defense system. Moreover, we resolved the crystal structure of DndI from Salmonella at a resolution of 3.10 Å. We discovered that its residue Y25, residing within a hydrophobic region of DndI, is involved in phosphorothioate (PT) sensing. Upon sensing PT modifications at 5'-GPSAAC-3'/5'-GPSTTC-3', the ATPase activity of DndI is stimulated, which subsequently triggers a conformational transition, facilitating the dissociation of DndI from self-DNA, thereby allowing DndI to avoid cleaving self-DNA while restricting PT-deficient phage DNA. This research broadens the knowledge of the mechanistic diversity underlying PT-based defense systems and highlights their complexity in the course of evolution.

摘要

硫代磷酸化作为一种DNA骨架修饰机制，其中一个硫原子取代了磷酸二酯中的非桥连氧原子，这一过程由dndABCDE或sspABCD的基因产物促成。dndABCDE与dndFGH组合形成一个真正的防御系统，其中DndFGH蛋白复合物表现出DNA切口酶和DNA转位酶活性以防止噬菌体入侵。在本研究中，我们鉴定出与dndFGH共转录的dndI可以作为一种抗噬菌体防御系统独立地与iscS-dndBCDE结合。此外，我们解析了来自沙门氏菌的DndI的晶体结构，分辨率为3.10 Å。我们发现其位于DndI疏水区域内的残基Y25参与硫代磷酸酯（PT）传感。在检测到5'-GPSAAC-3'/5'-GPSTTC-3'处的PT修饰后，DndI的ATP酶活性受到刺激，随后触发构象转变，促进DndI从自身DNA解离，从而使DndI在限制缺乏PT的噬菌体DNA时避免切割自身DNA。本研究拓宽了基于PT的防御系统潜在机制多样性的知识，并突出了它们在进化过程中的复杂性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/058e/11662687/fa031cccb1de/gkae1133figgra1.jpg

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磷硫酰化感知抗噬菌体防御系统IscS-DndBCDE-DndI的分子基础

Molecular basis of the phosphorothioation-sensing antiphage defense system IscS-DndBCDE-DndI.

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