Literature DB >> 22828282

The C-terminal domain of human Rev1 contains independent binding sites for DNA polymerase η and Rev7 subunit of polymerase ζ.

Yulia Pustovalova1, Irina Bezsonova, Dmitry M Korzhnev.   

Abstract

Human Rev1 is a translesion synthesis (TLS) DNA polymerase involved in bypass replication across sites of DNA damage and postreplicational gap-filling. Rev1 plays an essential structural role in TLS by providing a binding platform for other TLS polymerases that insert nucleotides across DNA lesions (polη, polι, polκ) and extend the distorted primer-terminus (polς). We use NMR spectroscopy to demonstrate that the Rev1 C-terminal domain utilizes independent interaction interfaces to simultaneously bind a fragment of the 'inserter' polη and Rev7 subunit of the 'extender' polς, thereby serving as a cassette that may accommodate several polymerases making them instantaneously available for TLS.
Copyright © 2012 Federation of European Biochemical Societies. Published by Elsevier B.V. All rights reserved.

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Year:  2012        PMID: 22828282      PMCID: PMC3572780          DOI: 10.1016/j.febslet.2012.07.021

Source DB:  PubMed          Journal:  FEBS Lett        ISSN: 0014-5793            Impact factor:   4.124


  22 in total

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2.  RAD6-dependent DNA repair is linked to modification of PCNA by ubiquitin and SUMO.

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Journal:  Nature       Date:  2002-09-12       Impact factor: 49.962

Review 3.  Cellular functions of DNA polymerase zeta and Rev1 protein.

Authors:  Christopher W Lawrence
Journal:  Adv Protein Chem       Date:  2004

4.  A simple method to predict protein flexibility using secondary chemical shifts.

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5.  Ubiquitin-binding domains in Y-family polymerases regulate translesion synthesis.

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Journal:  Science       Date:  2005-12-16       Impact factor: 47.728

6.  NMR structure and dynamics of the C-terminal domain from human Rev1 and its complex with Rev1 interacting region of DNA polymerase η.

Authors:  Alexandra Pozhidaeva; Yulia Pustovalova; Sanjay D'Souza; Irina Bezsonova; Graham C Walker; Dmitry M Korzhnev
Journal:  Biochemistry       Date:  2012-06-28       Impact factor: 3.162

7.  Mouse Rev1 protein interacts with multiple DNA polymerases involved in translesion DNA synthesis.

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8.  Efficient bypass of a thymine-thymine dimer by yeast DNA polymerase, Poleta.

Authors:  R E Johnson; S Prakash; L Prakash
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9.  Backbone dynamics of a free and phosphopeptide-complexed Src homology 2 domain studied by 15N NMR relaxation.

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10.  TROSY in triple-resonance experiments: new perspectives for sequential NMR assignment of large proteins.

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  21 in total

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Authors:  Alessandro A Rizzo; Faye-Marie Vassel; Nimrat Chatterjee; Sanjay D'Souza; Yunfeng Li; Bing Hao; Michael T Hemann; Graham C Walker; Dmitry M Korzhnev
Journal:  Proc Natl Acad Sci U S A       Date:  2018-08-15       Impact factor: 11.205

Review 3.  Modulation of mutagenesis in eukaryotes by DNA replication fork dynamics and quality of nucleotide pools.

Authors:  Irina S-R Waisertreiger; Victoria G Liston; Miriam R Menezes; Hyun-Min Kim; Kirill S Lobachev; Elena I Stepchenkova; Tahir H Tahirov; Igor B Rogozin; Youri I Pavlov
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Review 5.  The Rev1-Polζ translesion synthesis mutasome: Structure, interactions and inhibition.

Authors:  Alessandro A Rizzo; Dmitry M Korzhnev
Journal:  Enzymes       Date:  2019-08-09

6.  Interaction between the Rev1 C-Terminal Domain and the PolD3 Subunit of Polζ Suggests a Mechanism of Polymerase Exchange upon Rev1/Polζ-Dependent Translesion Synthesis.

Authors:  Yulia Pustovalova; Mariana T Q Magalhães; Sanjay D'Souza; Alessandro A Rizzo; George Korza; Graham C Walker; Dmitry M Korzhnev
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7.  Identification of Small Molecule Translesion Synthesis Inhibitors That Target the Rev1-CT/RIR Protein-Protein Interaction.

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8.  Structure and functional analysis of the BRCT domain of translesion synthesis DNA polymerase Rev1.

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9.  Structure-Based Drug Design of Phenazopyridine Derivatives as Inhibitors of Rev1 Interactions in Translesion Synthesis.

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Review 10.  Translesion synthesis inhibitors as a new class of cancer chemotherapeutics.

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