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DNA End Resection: Facts and Mechanisms
scientific article
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instance of
scholarly article
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review article
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stated in
PubMed
retrieved
2 August 2019
title
DNA End Resection: Facts and Mechanisms
(English)
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main subject
DNA
1 reference
stated in
PubMed
retrieved
2 August 2019
author name string
Ting Liu
series ordinal
1
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Jun Huang
series ordinal
2
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language of work or name
English
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publication date
June 2016
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1 June 2016
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stated in
PubMed Central
retrieved
2 August 2019
published in
Genomics Proteomics and Bioinformatics
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stated in
PubMed Central
retrieved
2 August 2019
volume
14
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issue
3
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page(s)
126-30
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copyright license
Creative Commons Attribution 4.0 International
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stated in
Europe PubMed Central
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2 August 2019
copyright status
copyrighted
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cites work
The yeast Fun30 and human SMARCAD1 chromatin remodellers promote DNA end resection
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BLM-DNA2-RPA-MRN and EXO1-BLM-RPA-MRN constitute two DNA end resection machineries for human DNA break repair
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DNA end resection by CtIP and exonuclease 1 prevents genomic instability
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The mechanism of double-strand DNA break repair by the nonhomologous DNA end-joining pathway
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DNA resection in eukaryotes: deciding how to fix the break
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DNA end resection: many nucleases make light work
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Human CtIP promotes DNA end resection
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Mdc1 couples DNA double-strand break recognition by Nbs1 with its H2AX-dependent chromatin retention
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The Rad50 zinc-hook is a structure joining Mre11 complexes in DNA recombination and repair
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Identification of a novel SNF2/SWI2 protein family member, SRCAP, which interacts with CREB-binding protein
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Nbs1 potentiates ATP-driven DNA unwinding and endonuclease cleavage by the Mre11/Rad50 complex
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Characterization of a carboxy-terminal BRCA1 interacting protein
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DNA DSB repair pathway choice: an orchestrated handover mechanism
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Diseases associated with defective responses to DNA damage
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7 April 2017
DNA Double-Strand Break Repair Pathway Choice Is Directed by Distinct MRE11 Nuclease Activities
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7 April 2017
Nbs1 Flexibly Tethers Ctp1 and Mre11-Rad50 to Coordinate DNA Double-Strand Break Processing and Repair
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Structural biochemistry and interaction architecture of the DNA double-strand break repair Mre11 nuclease and Rad50-ATPase
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SWI/SNF-like chromatin remodeling factor Fun30 supports point centromere function in S. cerevisiae.
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The Fun30 nucleosome remodeller promotes resection of DNA double-strand break ends.
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Sae2, Exo1 and Sgs1 collaborate in DNA double-strand break processing
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7 April 2017
The yeast chromatin remodeler RSC complex facilitates end joining repair of DNA double-strand breaks
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7 April 2017
DNA damage response pathway uses histone modification to assemble a double-strand break-specific cohesin domain
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7 April 2017
INO80 and gamma-H2AX interaction links ATP-dependent chromatin remodeling to DNA damage repair.
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7 April 2017
Yeast Xrs2 Binds DNA and Helps Target Rad50 and Mre11 to DNA Ends
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Distinct roles of two separable in vitro activities of yeast Mre11 in mitotic and meiotic recombination
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7 April 2017
DNA double-stranded breaks induce histone H2AX phosphorylation on serine 139
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7 April 2017
Human exonuclease 1 and BLM helicase interact to resect DNA and initiate DNA repair
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7 April 2017
Human Rad50/Mre11 is a flexible complex that can tether DNA ends
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7 April 2017
Chromosomal stability and the DNA double-stranded break connection
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7 April 2017
Interaction between a cellular protein that binds to the C-terminal region of adenovirus E1A (CtBP) and a novel cellular protein is disrupted by E1A through a conserved PLDLS motif
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7 April 2017
Mutations in the MRE11, RAD50, XRS2, and MRE2 genes alter chromatin configuration at meiotic DNA double-stranded break sites in premeiotic and meiotic cells
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7 April 2017
Mechanism of eukaryotic homologous recombination
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7 April 2017
Sgs1 helicase and two nucleases Dna2 and Exo1 resect DNA double-strand break ends
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7 April 2017
Recruitment of the INO80 complex by H2A phosphorylation links ATP-dependent chromatin remodeling with DNA double-strand break repair
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Histone modifications in DNA damage response
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28 September 2017
Interplay between Ku and Replication Protein A in the Restriction of Exo1-mediated DNA Break End Resection
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28 September 2017
CtIP: A DNA damage response protein at the intersection of DNA metabolism
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28 September 2017
The human SRCAP chromatin remodeling complex promotes DNA-end resection
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28 September 2017
Quality control of homologous recombination
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28 September 2017
Catalytic and noncatalytic roles of the CtIP endonuclease in double-strand break end resection
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28 September 2017
CtIP maintains stability at common fragile sites and inverted repeats by end resection-independent endonuclease activity
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Relationship of DNA degradation by Saccharomyces cerevisiae exonuclease 1 and its stimulation by RPA and Mre11-Rad50-Xrs2 to DNA end resection
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28 September 2017
The RSC and INO80 chromatin-remodeling complexes in DNA double-strand break repair
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28 September 2017
Mutations in SRCAP, encoding SNF2-related CREBBP activator protein, cause Floating-Harbor syndrome
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The MRE11 complex: starting from the ends.
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28 September 2017
DNA end resection--unraveling the tail
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28 September 2017
DNA end resection by Dna2-Sgs1-RPA and its stimulation by Top3-Rmi1 and Mre11-Rad50-Xrs2.
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Mechanism of the ATP-dependent DNA end-resection machinery from Saccharomyces cerevisiae.
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28 September 2017
Mechanisms and regulation of DNA end resection
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28 September 2017
CtIP links DNA double-strand break sensing to resection
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28 September 2017
At loose ends: resecting a double-strand break
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Molecular characterization of the role of the Schizosaccharomyces pombe nip1+/ctp1+ gene in DNA double-strand break repair in association with the Mre11-Rad50-Nbs1 complex.
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28 September 2017
Cell cycle-dependent complex formation of BRCA1.CtIP.MRN is important for DNA double-strand break repair.
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28 September 2017
Ctp1/CtIP and the MRN complex collaborate in the initial steps of homologous recombination
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28 September 2017
The carboxy terminus of NBS1 is required for induction of apoptosis by the MRE11 complex
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28 September 2017
Differential usage of non-homologous end-joining and homologous recombination in double strand break repair
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28 September 2017
The histone code at DNA breaks: a guide to repair?
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28 September 2017
Endonucleolytic processing of covalent protein-linked DNA double-strand breaks
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28 September 2017
Direct activation of the ATM protein kinase by the Mre11/Rad50/Nbs1 complex
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28 September 2017
The coiled-coil of the human Rad50 DNA repair protein contains specific segments of increased flexibility
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28 September 2017
Nbs1 is essential for DNA repair by homologous recombination in higher vertebrate cells
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28 September 2017
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28 September 2017
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28 September 2017
The Saccharomyces cerevisiae chromatin remodeler Fun30 regulates DNA end resection and checkpoint deactivation
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Saccharomyces cerevisiae Mre11/Rad50/Xrs2 and Ku proteins regulate association of Exo1 and Dna2 with DNA breaks
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31 May 2018
DNA helicases Sgs1 and BLM promote DNA double-strand break resection
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31 May 2018
Histone methyltransferase Dot1 and Rad9 inhibit single-stranded DNA accumulation at DSBs and uncapped telomeres
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28 November 2018
RSC mobilizes nucleosomes to improve accessibility of repair machinery to the damaged chromatin
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28 November 2018
Targeted disruption of the Nijmegen breakage syndrome gene NBS1 leads to early embryonic lethality in mice.
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28 November 2018
Rad50 connects by hook or by crook
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PubMed
reference URL
https://pubmed.ncbi.nlm.nih.gov/27240470
retrieved
12 December 2020
based on heuristic
inferred from PubMed ID database lookup
The many interfaces of Mre11
1 reference
stated in
PubMed
reference URL
https://pubmed.ncbi.nlm.nih.gov/27240470
retrieved
12 December 2020
based on heuristic
inferred from PubMed ID database lookup
Maintaining integrity
1 reference
stated in
PubMed
reference URL
https://pubmed.ncbi.nlm.nih.gov/27240470
retrieved
12 December 2020
based on heuristic
inferred from PubMed ID database lookup
Identifiers
DOI
10.1016/J.GPB.2016.05.002
1 reference
stated in
Consolidated OpenCitations Corpus – April 2017
OpenCitations bibliographic resource ID
679507
DBLP publication ID
journals/gpb/LiuH16
1 reference
stated in
DBLP Dataset 2021-01-02
retrieved
28 January 2021
OpenCitations bibliographic resource ID
679507
1 reference
stated in
Consolidated OpenCitations Corpus – April 2017
OpenCitations bibliographic resource ID
679507
PMCID
4936662
1 reference
stated in
Consolidated OpenCitations Corpus – April 2017
OpenCitations bibliographic resource ID
679507
PubMed ID
27240470
1 reference
stated in
Consolidated OpenCitations Corpus – April 2017
OpenCitations bibliographic resource ID
679507
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