Biochemical Reconstitution of the Mimiviral Base Excision Repair Pathway

IF 4.7 2区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Molecular Biology Pub Date : 2023-09-01 DOI:10.1016/j.jmb.2023.168188
Shailesh B. Lad , Monica Upadhyay , Pracheta Thorat , Divya Nair , Gregory W. Moseley , Sanjeeva Srivastava , Pradeepkumar P.I. , Kiran Kondabagil
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Abstract

Viruses are believed to be the obligate intracellular parasites that only carry genes essential for infecting and hijacking the host cell machinery. However, a recently discovered group of viruses belonging to the phylum nucleocytovirocota, also known as the nucleo-cytoplasmic large DNA viruses (NCLDVs), possess a number of genes that code for proteins predicted to be involved in metabolism, and DNA replication, and repair. In the present study, first, using proteomics of viral particles, we show that several proteins required for the completion of the DNA base excision repair (BER) pathway are packaged within the virions of Mimivirus as well as related viruses while they are absent from the virions of Marseillevirus and Kurlavirus that are NCLDVs with smaller genomes. We have thoroughly characterized three putative base excision repair enzymes from Mimivirus, a prototype NCLDV and successfully reconstituted the BER pathway using the purified recombinant proteins. The mimiviral uracil-DNA glycosylase (mvUDG) excises uracil from both ssDNA and dsDNA, a novel finding contrary to earlier studies. The putative AP-endonuclease (mvAPE) specifically cleaves at the abasic site created by the glycosylase while also exhibiting the 3′-5′ exonuclease activity. The Mimivirus polymerase X protein (mvPolX) can bind to gapped DNA substrates and perform single nucleotide gap-filling followed by downstream strand displacement. Furthermore, we show that when reconstituted in vitro, mvUDG, mvAPE, and mvPolX function cohesively to repair a uracil-containing DNA predominantly by long patch BER and together, may participate in the BER pathway during the early phase of Mimivirus life-cycle.

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迷你病毒碱基切除修复途径的生化重构
病毒被认为是专性细胞内寄生虫,只携带感染和劫持宿主细胞机制所必需的基因。然而,最近发现的一组属于核细胞病毒门的病毒,也被称为核细胞质大DNA病毒(NCLDVs),拥有许多编码蛋白质的基因,这些蛋白质被预测参与代谢、DNA复制和修复。在本研究中,首先,利用病毒颗粒的蛋白质组学,我们发现完成DNA碱基切除修复(BER)途径所需的几种蛋白质被包装在Mimivirus和相关病毒的病毒粒子中,而它们不存在于马赛病毒和kurlavvirus的病毒粒子中,这些病毒粒子是基因组较小的NCLDVs。我们对来自Mimivirus(一种NCLDV原型)的三种假定的碱基切除修复酶进行了彻底的表征,并使用纯化的重组蛋白成功地重建了BER途径。mimiviral尿嘧啶- dna糖基化酶(mvUDG)从ssDNA和dsDNA中去除尿嘧啶,这是一个与早期研究相反的新发现。假定的ap -核酸内切酶(mvAPE)在糖基化酶产生的碱基位点特异切割,同时也表现出3 ' -5 '外切酶活性。Mimivirus聚合酶X蛋白(mvPolX)可以结合到有缺口的DNA底物上,并进行单核苷酸缺口填充,然后进行下游链位移。此外,我们发现在体外重组时,mvUDG、mvAPE和mvPolX主要通过长贴片BER修复含有尿嘧啶的DNA,并可能在Mimivirus生命周期的早期阶段共同参与BER途径。
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来源期刊
Journal of Molecular Biology
Journal of Molecular Biology 生物-生化与分子生物学
CiteScore
11.30
自引率
1.80%
发文量
412
审稿时长
28 days
期刊介绍: Journal of Molecular Biology (JMB) provides high quality, comprehensive and broad coverage in all areas of molecular biology. The journal publishes original scientific research papers that provide mechanistic and functional insights and report a significant advance to the field. The journal encourages the submission of multidisciplinary studies that use complementary experimental and computational approaches to address challenging biological questions. Research areas include but are not limited to: Biomolecular interactions, signaling networks, systems biology; Cell cycle, cell growth, cell differentiation; Cell death, autophagy; Cell signaling and regulation; Chemical biology; Computational biology, in combination with experimental studies; DNA replication, repair, and recombination; Development, regenerative biology, mechanistic and functional studies of stem cells; Epigenetics, chromatin structure and function; Gene expression; Membrane processes, cell surface proteins and cell-cell interactions; Methodological advances, both experimental and theoretical, including databases; Microbiology, virology, and interactions with the host or environment; Microbiota mechanistic and functional studies; Nuclear organization; Post-translational modifications, proteomics; Processing and function of biologically important macromolecules and complexes; Molecular basis of disease; RNA processing, structure and functions of non-coding RNAs, transcription; Sorting, spatiotemporal organization, trafficking; Structural biology; Synthetic biology; Translation, protein folding, chaperones, protein degradation and quality control.
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