Harmonin homology domain-mediated interaction of RTEL1 helicase with RPA and DNA provides insights into its recruitment to DNA repair sites
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https://hdl.handle.net/10037/34505Date
2023-12-28Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Kumar, Niranjan; Taneja, Arushi; Ghosh, Meenakshi; Rothweiler, Ulli; Sundaresan, Nagalingam Ravi; Singh, MahavirAbstract
he regulator of telomere elongation helicase 1 (RTEL1) plays roles in telomere DNA maintenance, DNA repair, and genome stability by dismantling D-loops and unwinding G-quadruplex structures. RTEL1 comprises a helicase domain, two tandem harmonin homology domains 1&2
(HHD1 and HHD2), and a Zn2+-binding RING domain. In vitro D-loop disassembly by RTEL1 is enhanced in the presence of replication protein
A (RPA). However, the mechanism of RTEL1 recruitment at non-telomeric D-loops remains unknown. In this study, we have unravelled a direct
physical interaction between RTEL1 and RPA. Under DNA damage conditions, we showed that RTEL1 and RPA colocalise in the cell. Coimmuno precipitation showed that RTEL1 and RPA interact, and the deletion of HHDs of RTEL1 significantly reduced this interaction. NMR chemical shift
perturbations (CSPs) showed that RPA uses its 32C domain to interact with the HHD2 of RTEL1. Interestingly, HHD2 also interacted with DNA in
the in vitro experiments. HHD2 structure was determined using X-ray crystallography, and NMR CSPs mapping revealed that both RPA 32C and
DNA competitively bind to HHD2 on an overlapping surface. These results establish novel roles of accessory HHDs in RTEL1’s functions and
provide mechanistic insights into the RPA-mediated recruitment of RTEL1 to DNA repair sites.
Publisher
Oxford University PressCitation
Kumar, Taneja, Ghosh, Rothweiler, Sundaresan, Singh. Harmonin homology domain-mediated interaction of RTEL1 helicase with RPA and DNA provides insights into its recruitment to DNA repair sites. Nucleic Acids Research (NAR). 2024;52(3):1450-1470Metadata
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