scholarly article | Q13442814 |
P356 | DOI | 10.1074/JBC.M708072200 |
P698 | PubMed publication ID | 18006494 |
P2093 | author name string | Laura A Fisher | |
Mika Bessho | |||
Tadayoshi Bessho | |||
P2860 | cites work | The structure-specific endonuclease Ercc1-Xpf is required for targeted gene replacement in embryonic stem cells | Q24291899 |
The role of BRCA2 in replication-coupled DNA interstrand cross-link repair in vitro | Q24297351 | ||
Human Mus81-associated endonuclease cleaves Holliday junctions in vitro | Q28210371 | ||
The active site of the DNA repair endonuclease XPF-ERCC1 forms a highly conserved nuclease motif | Q28214697 | ||
Molecular mechanisms of mammalian DNA repair and the DNA damage checkpoints | Q28266170 | ||
A new progeroid syndrome reveals that genotoxic stress suppresses the somatotroph axis | Q28280037 | ||
Formation and repair of interstrand cross-links in DNA | Q28296085 | ||
The structure-specific endonuclease Ercc1-Xpf is required to resolve DNA interstrand cross-link-induced double-strand breaks | Q28592473 | ||
Homologous recombinational repair of DNA ensures mammalian chromosome stability | Q28646561 | ||
DNA interstrand cross-links induce futile repair synthesis in mammalian cell extracts | Q30845806 | ||
Repair of an interstrand DNA cross-link initiated by ERCC1-XPF repair/recombination nuclease. | Q33908401 | ||
Disruption of murine Mus81 increases genomic instability and DNA damage sensitivity but does not promote tumorigenesis | Q33925085 | ||
Identification and characterization of the human mus81-eme1 endonuclease | Q34193657 | ||
Repair of DNA interstrand cross-links | Q34343361 | ||
Role of ERCC1 in removal of long non-homologous tails during targeted homologous recombination | Q35116728 | ||
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Initiation of DNA interstrand cross-link repair in humans: the nucleotide excision repair system makes dual incisions 5' to the cross-linked base and removes a 22- to 28-nucleotide-long damage-free strand | Q36573759 | ||
The ATR pathway: fine-tuning the fork | Q36832714 | ||
Emergence of a DNA-damage response network consisting of Fanconi anaemia and BRCA proteins | Q36927976 | ||
Requirement of yeast Rad1-Rad10 nuclease for the removal of 3'-blocked termini from DNA strand breaks induced by reactive oxygen species | Q37522535 | ||
The structure-specific endonuclease Mus81-Eme1 promotes conversion of interstrand DNA crosslinks into double-strands breaks | Q38774142 | ||
Defining the roles of nucleotide excision repair and recombination in the repair of DNA interstrand cross-links in mammalian cells | Q39456389 | ||
DNA replication is required To elicit cellular responses to psoralen-induced DNA interstrand cross-links. | Q39456549 | ||
Repair kinetics of genomic interstrand DNA cross-links: evidence for DNA double-strand break-dependent activation of the Fanconi anemia/BRCA pathway | Q40376906 | ||
Evidence that mammalian cells possess homologous recombinational repair pathways | Q40936355 | ||
DNA structural elements required for ERCC1-XPF endonuclease activity. | Q41045887 | ||
Induction of DNA replication-mediated double strand breaks by psoralen DNA interstrand cross-links | Q44243364 | ||
Involvement of mammalian Mus81 in genome integrity and tumor suppression | Q47323217 | ||
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 1275-1281 | |
P577 | publication date | 2007-11-15 | |
P1433 | published in | Journal of Biological Chemistry | Q867727 |
P1476 | title | Processing of a psoralen DNA interstrand cross-link by XPF-ERCC1 complex in vitro | |
P478 | volume | 283 |
Q42709830 | 3-Methyladenine DNA glycosylase is important for cellular resistance to psoralen interstrand cross-links. |
Q34243429 | A prospective study of biomarker-guided chemotherapy in patients with non-small cell lung cancer |
Q24303573 | CtIP is required to initiate replication-dependent interstrand crosslink repair |
Q37487925 | DNA interstrand crosslink repair in mammalian cells |
Q33669915 | DNA interstrand crosslink repair in mammalian cells: step by step |
Q35028557 | Damage-dependent regulation of MUS81-EME1 by Fanconi anemia complementation group A protein. |
Q36953770 | ERCC1 is required for FANCD2 focus formation |
Q35061055 | ERCC1, RRM1 and TUBB3 mRNA expression on the tumor response and overall survival of non-small cell lung cancer treated with platinum-based chemotherapy |
Q37352226 | Effect of cross-link structure on DNA interstrand cross-link repair synthesis |
Q24316458 | Evidence for the involvement of human DNA polymerase N in the repair of DNA interstrand cross-links |
Q38755812 | Functional and physical interaction between the mismatch repair and FA-BRCA pathways |
Q35070427 | Human Fanconi anemia complementation group a protein stimulates the 5' flap endonuclease activity of FEN1. |
Q38509871 | Human SNM1A and XPF-ERCC1 collaborate to initiate DNA interstrand cross-link repair |
Q64071352 | Inactivation of XPF Sensitizes Cancer Cells to Gemcitabine |
Q34026606 | Initiation of DNA interstrand cross-link repair in mammalian cells |
Q43167066 | KSR1 is required for cell cycle reinitiation following DNA damage |
Q39532051 | Killing of chronic lymphocytic leukemia by the combination of fludarabine and oxaliplatin is dependent on the activity of XPF endonuclease |
Q37121826 | Lysine Acetylation and Succinylation in HeLa Cells and their Essential Roles in Response to UV-induced Stress. |
Q37658498 | Maintenance of genome stability by Fanconi anemia proteins |
Q28288779 | Mammalian nucleotide excision repair proteins and interstrand crosslink repair |
Q26865523 | Mechanism and regulation of incisions during DNA interstrand cross-link repair |
Q39476064 | Mouse SLX4 is a tumor suppressor that stimulates the activity of the nuclease XPF-ERCC1 in DNA crosslink repair |
Q28288789 | Multiple roles of ERCC1-XPF in mammalian interstrand crosslink repair |
Q36428995 | Mutagenic Bypass of an Oxidized Abasic Lesion-Induced DNA Interstrand Cross-Link Analogue by Human Translesion Synthesis DNA Polymerases |
Q47100527 | O6-2'-Deoxyguanosine-butylene-O6-2'-deoxyguanosine DNA Interstrand Cross-Links Are Replication-Blocking and Mutagenic DNA Lesions |
Q34234438 | Orchestrating the nucleases involved in DNA interstrand cross-link (ICL) repair. |
Q34285356 | Regulation of DNA cross-link repair by the Fanconi anemia/BRCA pathway |
Q35566661 | Removal of reactive oxygen species-induced 3'-blocked ends by XPF-ERCC1. |
Q37775586 | Repair of DNA interstrand cross-links during S phase of the mammalian cell cycle |
Q39143099 | Role for DNA polymerase kappa in the processing of N2-N2-guanine interstrand cross-links. |
Q34004993 | Role of interaction of XPF with RPA in nucleotide excision repair |
Q93180057 | SLX4IP acts with SLX4 and XPF-ERCC1 to promote interstrand crosslink repair |
Q51232457 | Single-stranded DNA Binding by the Helix-Hairpin-Helix Domain of XPF Protein Contributes to the Substrate Specificity of the ERCC1-XPF Protein Complex. |
Q37406060 | Targeted gene conversion induced by triplex-directed psoralen interstrand crosslinks in mammalian cells |
Q36727299 | Targeted gene knock in and sequence modulation mediated by a psoralen-linked triplex-forming oligonucleotide |
Q35663361 | The ERCC1 and ERCC4 (XPF) genes and gene products |
Q37940370 | The Fanconi anaemia pathway orchestrates incisions at sites of crosslinked DNA. |
Q37684917 | The Fanconi anemia pathway promotes DNA glycosylase-dependent excision of interstrand DNA crosslinks |
Q38119669 | The differences between ICL repair during and outside of S phase |
Q39877610 | The human oxidative DNA glycosylase NEIL1 excises psoralen-induced interstrand DNA cross-links in a three-stranded DNA structure |
Q64968558 | The role of SLX4 and its associated nucleases in DNA interstrand crosslink repair. |
Q41852942 | Unique dynamic properties of DNA duplexes containing interstrand cross-links |
Q38719028 | XPF knockout via CRISPR/Cas9 reveals that ERCC1 is retained in the cytoplasm without its heterodimer partner XPF. |
Q28238027 | XPF-ERCC1 acts in Unhooking DNA interstrand crosslinks in cooperation with FANCD2 and FANCP/SLX4 |
Q28476033 | Xpf and not the Fanconi anaemia proteins or Rev3 accounts for the extreme resistance to cisplatin in Dictyostelium discoideum |
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