Shreelakshmi Subramanya scite author profile

Germline mutations in many of the genes that are involved in homologous recombination (HR)-mediated DNA double-strand break repair (DSBR) are associated with various human genetic disorders and cancer. RAD51 and RAD51 paralogs are important for HR and in the maintenance of genome stability. Despite the identification of five RAD51 paralogs over a decade ago, the molecular mechanism(s) by which RAD51 paralogs regulate HR and genome maintenance remains obscure. In addition to the known roles of RAD51C in early and late stages of HR, it also contributes to activation of the checkpoint kinase CHK2. One recent study identifies biallelic mutation in RAD51C leading to Fanconi anemia-like disorder. Whereas a second study reports monoallelic mutation in RAD51C associated with increased risk of breast and ovarian cancer. These reports show RAD51C is a cancer susceptibility gene. In this review, we focus on describing the functions of RAD51C in HR, DNA damage signaling and as a tumor suppressor with an emphasis on the new roles of RAD51C unveiled by these reports.

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Mycobacterium tuberculosis DinG Is a Structure-specific Helicase That Unwinds G4 DNA

Thakur

Desingu

Basavaraju

et al. 2014

Journal of Biological Chemistry

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Background: The G4 helicase in M. tuberculosis is so far unidentified. Results: M. tuberculosis DinG is a 5Ј 3 3Ј helicase/translocase that unwinds G4 structures. Conclusion: M. tuberculosis DinG is a structure-specific helicase that unwinds G4 structures and replication/recombination/ repair intermediates. Significance: G4-forming sequences exist in M. tuberculosis, and DinG is a G4 helicase. We implicate G4 structures and DinG as targets for potential therapy.

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Evidence for the role of Mycobacterium tuberculosis RecG helicase in DNA repair and recombination

et al. 2013

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In order to survive and replicate in a variety of stressful conditions during its life cycle, Mycobacterium tuberculosis must possess mechanisms to safeguard the integrity of the genome. Although DNA repair and recombination related genes are thought to play key roles in the repair of damaged DNA in all organisms, so far only a few of them have been functionally characterized in the tubercle bacillus. In this study, we show that M. tuberculosis RecG (MtRecG) expression was induced in response to different genotoxic agents. Strikingly, expression of MtRecG in Escherichia coli ΔrecG mutant strain provided protection against mitomycin C, methyl methane sulfonate and UV induced cell death. Purified MtRecG exhibited higher binding affinity for the Holliday junction (HJ) compared with a number of canonical recombinational DNA repair intermediates. Notably, although MtRecG binds at the core of the mobile and immobile HJs, and with higher binding affinity for the immobile HJ, branch migration was evident only in the case of the mobile HJ. Furthermore, immobile HJs stimulate MtRecG ATPase activity less efficiently than mobile HJs. In addition to HJ substrates, MtRecG exhibited binding affinity for a variety of branched DNA structures including three-way junctions, replication forks, flap structures, forked duplex and a D-loop structure, but demonstrated strong unwinding activity on replication fork and flap DNA structures. Together, these results support that MtRecG plays an important role in processes related to DNA metabolism under normal as well as stress conditions.

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Distinct Roles of FANCO/RAD51C Protein in DNA Damage Signaling and Repair

Somyajit

Subramanya

Nagaraju

2012

Journal of Biological Chemistry

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Background: RAD51C plays a key role in recombinational repair and genome stability. Results: RAD51C deficiency leads to repair as well as a signaling defect in response to interstrand cross-links and double strand breaks. Conclusion: RAD51C is critical for Fanconi anemia pathway of ICL repair and intra-S-phase checkpoint. Significance: This study identifies distinct roles of RAD51C in repair and signaling and as a tumor suppressor.

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Correction: Distinct roles of FANCO/RAD51C protein in DNA damage signaling and repair: Implications for Fanconi anemia and breast cancer susceptibility.

Somyajit¹,

Subramanya²,

Nagaraju³

2019

Journal of Biological Chemistry

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