Litcius/Paper detail

Visualizing Rev1 catalyze protein-template DNA synthesis

Tyler Weaver, Luis M. Cortez, Thu H. Khoang, M. Todd Washington, Pratul K. Agarwal, Bret Freudenthal

2020Proceedings of the National Academy of Sciences17 citationsDOIOpen Access PDF

Abstract

Rev1 protein. We find that Rev1 evicts the templating base from the DNA helix prior to binding the incoming nucleotide. Binding the incoming nucleotide changes the conformation of the DNA substrate to orient it for nucleotidyl transfer, although this is not coupled to large structural changes in Rev1 like those observed with other DNA polymerases. Moreover, we found that following nucleotide incorporation, Rev1 converts the pyrophosphate product to two monophosphates, which drives the reaction in the forward direction and prevents pyrophosphorolysis. Following nucleotide incorporation, the hydrogen bonds between the incorporated nucleotide and the arginine side chain are broken, but the templating base remains extrahelical. These postcatalytic changes prevent potentially mutagenic processive synthesis by Rev1 and facilitate dissociation of the DNA product from the enzyme.

Topics & Concepts

DNA polymeraseAP siteDNA clampPhosphodiester bondProcessivityPolymeraseDNADNA polymerase IIBiochemistryPrimer (cosmetics)GuanineActive siteBiologyPrimaseDNA replicationDNA damageChemistryEnzymeReverse transcriptaseNucleotideRNAGeneOrganic chemistryDNA Repair MechanismsDNA and Nucleic Acid ChemistryBacterial Genetics and Biotechnology