Deoxycytidyl Transferase Activity of the Human REV1 Protein is Closely Associated with the Conserved Polymerase Domain

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 2001 Mar 30

PMID 11278384

Citations 29

Authors

Y Masuda

M Takahashi

N Tsunekuni

T Minami

M Sumii

K Miyagawa

K Kamiya

Affiliations

Soon will be listed here.

Abstract

The REV1 protein is a member of the growing family of translesion DNA polymerases. A cDNA of the human REV1 gene that we had originally isolated encoded 1250 amino acids residues, which was one amino acid shorter than previously reported ones. The shorter form of REV1 was named REV1S. All individuals examined expressed equivalent amounts of REV1S and REV1 mRNA, suggesting that the REV1S mRNA is a splicing variant. We show that the REV1S protein also possesses deoxycytidyl transferase activity that inserts a dCMP opposite a DNA template apurinic/apyrimidinic site. Deletion and point mutation analysis of the REV1S protein revealed that the domain required for deoxycytidyl transferase and DNA binding activities of the REV1S protein are located in a conserved domain of translesion DNA polymerases. This result indicates that the structure of the catalytic site of the deoxycytidyl transferase closely resembles that of the translesion DNA polymerases. Therefore, the molecular mechanism of the dCMP transfer reaction of the REV1S protein and maybe also the REV1 protein might be the same as that of the dNTP transfer reaction of the translesion DNA polymerases.

Citing Articles

The Catalytic Activity of Human REV1 on Undamaged and Damaged DNA.

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Rev1 overexpression accelerates N-methyl-N-nitrosourea (MNU)-induced thymic lymphoma by increasing mutagenesis.

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Creation and resolution of non-B-DNA structural impediments during replication.

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Identification and Characterization of Thermostable Y-Family DNA Polymerases η, ι, κ and Rev1 From a Lower Eukaryote, .

Vaisman A, McDonald J, Smith M, Aspelund S, Evans Jr T, Woodgate R Front Mol Biosci. 2021; 8:778400.

PMID: 34805283 PMC: 8595933. DOI: 10.3389/fmolb.2021.778400.

The in vivo role of Rev1 in mutagenesis and carcinogenesis.

Sasatani M, Zaharieva E, Kamiya K Genes Environ. 2020; 42:9.

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