Litcius/Paper detail

Watson-Crick Base-Pairing Requirements for ssDNA Recognition and Processing in Replication-Initiating HUH Endonucleases

Adam T. Smiley, Kassidy J. Tompkins, Matthew R. Pawlak, August J. Krueger, Robert L. Evans, Ke Shi, Hideki Aihara, Wendy R. Gordon

2022mBio21 citationsDOIOpen Access PDF

Abstract

Circular Rep-encoding single-stranded DNA (CRESS-DNA) viruses are a ubiquitous group of viruses that infect organisms across all domains of life. These viruses negatively impact both agriculture and human health. All members of this viral family employ a multifunctional nuclease (Rep) to initiate replication. Reps are structurally similar throughout this family, making them targets of interest for viral inhibition strategies. Here, we investigate the functional dependencies of the Rep protein from Muscovy duck circovirus for ssDNA interaction. We demonstrate that this Rep requires an intramolecular Watson-Crick base pairing for origin of replication (Ori) recognition and interaction. We show that noncognate base pair swaps are well tolerated, highlighting a local structural specificity over sequence specificity. Bioinformatic analysis found that the vast majority of CRESS-DNA Oris form base pairs in conserved positions, suggesting this pairing is a universal requirement for replication initiation in the CRESS-DNA virus family.

Topics & Concepts

DNABase pairPairingEndonucleaseCleaveDNA replicationBiologyRestriction enzymeGenomeOrigin of replicationGeneticsChemistryComputational biologyGenePhysicsQuantum mechanicsSuperconductivityPlant Virus Research StudiesCRISPR and Genetic EngineeringAnimal Virus Infections Studies