| References |
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| REF 1 |
A regulatory circuit that involves HR23B and HDAC6 governs the biological response to HDAC inhibitors. Cell Death Differ. 2013 Oct;20(10):1306-16.
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| REF 2 |
HDAC6 deacetylates and ubiquitinates MSH2 to maintain proper levels of MutS. Mol Cell. 2014 Jul 3;55(1):31-46.
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| REF 3 |
MSH2 and ATR form a signaling module and regulate two branches of the damage response to DNA methylation. Proc Natl Acad Sci U S A. 2003 Dec 23;100(26):15387-92.
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| REF 4 |
Identification of mismatch repair protein complexes in HeLa nuclear extracts and their interaction with heteroduplex DNA. J Biol Chem. 2000 Jun 9;275(23):17808-13.
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| REF 5 |
Panorama of ancient metazoan macromolecular complexes. Nature. 2015 Sep 17;525(7569):339-44.
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| REF 6 |
A census of human soluble protein complexes. Cell. 2012 Aug 31;150(5):1068-81.
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| REF 7 |
Using an in situ proximity ligation assay to systematically profile endogenous protein-protein interactions in a pathway network. J Proteome Res. 2014 Dec 5;13(12):5339-46.
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| REF 8 |
BASC, a super complex of BRCA1-associated proteins involved in the recognition and repair of aberrant DNA structures. Genes Dev. 2000 Apr 15;14(8):927-39.
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| REF 9 |
Interactions of human hMSH2 with hMSH3 and hMSH2 with hMSH6: examination of mutations found in hereditary nonpolyposis colorectal cancer. Mol Cell Biol. 1998 Nov;18(11):6616-23.
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| REF 10 |
hMSH5: a human MutS homologue that forms a novel heterodimer with hMSH4 and is expressed during spermatogenesis. Cancer Res. 1999 Feb 15;59(4):816-22.
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| REF 11 |
hMSH2 forms specific mispair-binding complexes with hMSH3 and hMSH6. Proc Natl Acad Sci U S A. 1996 Nov 26;93(24):13629-34.
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| REF 12 |
The nucleotide binding dynamics of human MSH2-MSH3 are lesion dependent. Nat Struct Mol Biol. 2009 May;16(5):550-7.
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| REF 13 |
The human mismatch recognition complex hMSH2-hMSH6 functions as a novel molecular switch. Cell. 1997 Dec 26;91(7):995-1005.
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| REF 14 |
hMutSbeta, a heterodimer of hMSH2 and hMSH3, binds to insertion/deletion loops in DNA. Curr Biol. 1996 Sep 1;6(9):1181-4.
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| REF 15 |
Human exonuclease I interacts with the mismatch repair protein hMSH2. Cancer Res. 1998 Oct 15;58(20):4537-42.
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| REF 16 |
Characterization of a highly conserved binding site of Mlh1 required for exonuclease I-dependent mismatch repair. Mol Cell Biol. 2009 Feb;29(3):907-18.
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| REF 17 |
14-3-3 checkpoint regulatory proteins interact specifically with DNA repair protein human exonuclease 1 (hEXO1) via a semi-conserved motif. DNA Repair (Amst). 2012 Mar 1;11(3):267-77.
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| REF 18 |
Identification of factors interacting with hMSH2 in the fetal liver utilizing the yeast two-hybrid system. In vivo interaction through the C-terminal domains of hEXO1 and hMSH2 and comparative expression analysis. Mutat Res. 2000 Jun 30;460(1):41-52.
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| REF 19 |
N-terminus of hMLH1 confers interaction of hMutLalpha and hMutLbeta with hMutSalpha. Nucleic Acids Res. 2003 Jun 15;31(12):3217-26.
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| REF 20 |
hMSH2 recruits ATR to DNA damage sites for activation during DNA damage-induced apoptosis. J Biol Chem. 2011 Mar 25;286(12):10411-8.
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| REF 21 |
Genetic and Proteomic Interrogation of Lower Confidence Candidate Genes Reveals Signaling Networks in -Catenin-Active Cancers. Cell Syst. 2016 Sep 28;3(3):302-316.e4.
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| REF 22 |
Quantitative mapping of RNA-mediated nuclear estrogen receptor interactome in human breast cancer cells. Sci Data. 2018 Mar 6;5:180031.
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| REF 23 |
The DNA mismatch repair gene hMSH2 is a potent coactivator of oestrogen receptor alpha. Br J Cancer. 2005 Jun 20;92(12):2286-91.
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| REF 24 |
Large-scale identification of c-MYC-associated proteins using a combined TAP/MudPIT approach. Cell Cycle. 2007 Jan 15;6(2):205-17.
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| REF 25 |
Interactions of the DNA mismatch repair proteins MLH1 and MSH2 with c-MYC and MAX. Oncogene. 2003 Feb 13;22(6):819-25.
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