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Literature DB >> 25956862

Exonuclease 1-dependent and independent mismatch repair.

Eva M Goellner¹, Christopher D Putnam², Richard D Kolodner³.

Abstract

DNA mismatch repair (MMR) acts to repair mispaired bases resulting from misincorporation errors during DNA replication and also recognizes mispaired bases in recombination (HR) intermediates. Exonuclease 1 (Exo1) is a 5' → 3' exonuclease that participates in a number of DNA repair pathways. Exo1 was identified as an exonuclease that participates in Saccharomyces cerevisiae and human MMR where it functions to excise the daughter strand after mispair recognition, and additionally Exo1 functions in end resection during HR. However, Exo1 is not absolutely required for end resection during HR in vivo. Similarly, while Exo1 is required in MMR reactions that have been reconstituted in vitro, genetics studies have shown that it is not absolutely required for MMR in vivo suggesting the existence of Exo1-independent and Exo1-dependent MMR subpathways. Here, we review what is known about the Exo1-independent and Exo1-dependent subpathways, including studies of mutations in MMR genes that specifically disrupt either subpathway.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: DNA replication fidelity; Excision; Mispaired base; Mlh1–Pms1; Msh2–Msh6; Mutagenesis; Recombination

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Substances：

Year: 2015 PMID： 25956862 PMCID： PMC4522362 DOI： 10.1016/j.dnarep.2015.04.010

Source DB: PubMed Journal: DNA Repair (Amst) ISSN： 1568-7856

113 in total

10. Interaction of proliferating cell nuclear antigen with PMS2 is required for MutLα activation and function in mismatch repair.

Authors: Jochen Genschel; Lyudmila Y Kadyrova; Ravi R Iyer; Basanta K Dahal; Farid A Kadyrov; Paul Modrich
Journal: Proc Natl Acad Sci U S A Date: 2017-04-24 Impact factor: 11.205

Exonuclease 1-dependent and independent mismatch repair.

1. Isolation and characterization of the Escherichia coli mutH gene product.

2. Escherichia coli mutS-encoded protein binds to mismatched DNA base pairs.

3. The replicative origin of the E. coli chromosome binds to cell membranes only when hemimethylated.

4. Mismatch repair, but not heteroduplex rejection, is temporally coupled to DNA replication.

5. Exonuclease 1 preferentially repairs mismatches generated by DNA polymerase α.

6. Requirement for d(GATC) sequences in Escherichia coli mutHLS mismatch correction.

7. Functional identity of proliferating cell nuclear antigen and a DNA polymerase-delta auxiliary protein.

8. Comprehensive molecular characterization of human colon and rectal cancer.

9. Mechanism of mismatch recognition revealed by human MutSβ bound to unpaired DNA loops.

10. GATC sequences, DNA nicks and the MutH function in Escherichia coli mismatch repair.

Review 1. Non-canonical actions of mismatch repair.

2. Reconstitution of Saccharomyces cerevisiae DNA polymerase ε-dependent mismatch repair with purified proteins.

3. The Devil is in the details for DNA mismatch repair.

4. DNA-damage-induced degradation of EXO1 exonuclease limits DNA end resection to ensure accurate DNA repair.

5. Poly(ADP-ribose)-binding promotes Exo1 damage recruitment and suppresses its nuclease activities.

Review 6. Eukaryotic resectosomes: A single-molecule perspective.

7. Identification of Exo1-Msh2 interaction motifs in DNA mismatch repair and new Msh2-binding partners.

8. Acetylation regulates DNA repair mechanisms in human cells.

Review 9. Chromatin remodeling and mismatch repair: Access and excision.

10. Interaction of proliferating cell nuclear antigen with PMS2 is required for MutLα activation and function in mismatch repair.