A structural analysis of DNA binding by hSSB1 (NABP2/OBFC2B) in solution

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Touma C, Kariawasam R, Gimenez A.X, Bernardo R.E, Ashton N.W, Adams M.N, Paquet N, Croll T.I, O'Byrne K.J, Richard D.J, Cubeddu L, Gamsjaeger R, A structural analysis of DNA binding by hSSB1 (NABP2/OBFC2B) in solution, Nucleic Acids Research, 44, 16, 2016, 7963 - 7973

Abstract

Single-stranded DNA binding proteins (SSBs) play an important role in DNA processing events such as replication, recombination and re- pair. Human single-stranded DNA binding pro- tein 1 (hSSB1 / NABP2 / OBFC2B) contains a single oligosaccharide / oligonucleotide binding (OB) do- main followed by a charged C-terminus and is struc- turally homologous to the SSB from the hyperther- mophilic crenarchaeote Sulfolobus solfataricus .Re- cent work has revealed that hSSB1 is critical to ho- mologous recombination and numerous other im- portant biological processes such as the regulation of telomeres, the maintenance of DNA replication forks and oxidative damage repair. Since the ability of hSSB1 to directly interact with single-stranded DNA (ssDNA) is paramount for all of these processes, un- derstanding the molecular details of ssDNA recogni- tion is essential. In this study, we have used solution- state nuclear magnetic resonance in combination with biophysical and functional experiments to struc- turally analyse ssDNA binding by hSSB1. We reveal that ssDNA recognition in solution is modulated by base-stacking of four key aromatic residues within the OB domain. This DNA binding mode differs signif- icantly from the recently determined crystal structure of the SOSS1 complex containing hSSB1 and ssDNA. Our findings elucidate the detailed molecular mecha- nism in solution of ssDNA binding by hSSB1, a major player in the maintenance of genomic stability.

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Author: O'BYRNE, KEN

Type of material: Journal Article