XPF-ERCC1 acts in Unhooking DNA interstrand crosslinks in cooperation with FANCD2 and FANCP/SLX4
about
DNA repair. Proteomics reveals dynamic assembly of repair complexes during bypass of DNA cross-linksFunctions of Ubiquitin and SUMO in DNA Replication and Replication StressCellular response to DNA interstrand crosslinks: the Fanconi anemia pathwayHow SUMOylation Fine-Tunes the Fanconi Anemia DNA Repair PathwayInterplay between Fanconi anemia and homologous recombination pathways in genome integrityEffects of Charged Particles on Human Tumor CellsRole of Deubiquitinating Enzymes in DNA RepairExploiting the Fanconi Anemia Pathway for Targeted Anti-Cancer TherapyMechanism and regulation of incisions during DNA interstrand cross-link repairCell-autonomous progeroid changes in conditional mouse models for repair endonuclease XPG deficiencyA Dominant Mutation in Human RAD51 Reveals Its Function in DNA Interstrand Crosslink Repair Independent of Homologous RecombinationCrystal structure of a Fanconi anemia-associated nuclease homolog bound to 5' flap DNA: basis of interstrand cross-link repair by FAN1.Maternal aldehyde elimination during pregnancy preserves the fetal genomeStructural insights into 5' flap DNA unwinding and incision by the human FAN1 dimer.FANCD2-associated nuclease 1, but not exonuclease 1 or flap endonuclease 1, is able to unhook DNA interstrand cross-links in vitroNoncovalent interactions with SUMO and ubiquitin orchestrate distinct functions of the SLX4 complex in genome maintenance.Crystal structure of human Fanconi-associated nuclease 1.DNA interstrand cross-link repair requires replication-fork convergence.Defective FANCI binding by a fanconi anemia-related FANCD2 mutant.SUMOylation and PARylation cooperate to recruit and stabilize SLX4 at DNA damage sites.Having a direct look: analysis of DNA damage and repair mechanisms by next generation sequencing.Human FAN1 promotes strand incision in 5'-flapped DNA complexed with RPA.The ERCC1 and ERCC4 (XPF) genes and gene productsDeficiency of UBE2T, the E2 Ubiquitin Ligase Necessary for FANCD2 and FANCI Ubiquitination, Causes FA-T Subtype of Fanconi Anemia.Regulation of the Rev1-pol ζ complex during bypass of a DNA interstrand cross-linkFANCD2, FANCJ and BRCA2 cooperate to promote replication fork recovery independently of the Fanconi Anemia core complex.RPA activates the XPF-ERCC1 endonuclease to initiate processing of DNA interstrand crosslinks.UHRF1 contributes to DNA damage repair as a lesion recognition factor and nuclease scaffold.Fan1 deficiency results in DNA interstrand cross-link repair defects, enhanced tissue karyomegaly, and organ dysfunction.Natural history and management of Fanconi anemia patients with head and neck cancer: A 10-year follow-up.Replication stress and cancer: it takes two to tango.The FANCD2-FANCI complex is recruited to DNA interstrand crosslinks before monoubiquitination of FANCD2.Nuclear alpha spectrin: Critical roles in DNA interstrand cross-link repair and genomic stability.FANCJ is essential to maintain microsatellite structure genome-wide during replication stress.The structure and duplex context of DNA interstrand crosslinks affects the activity of DNA polymerase ηp97 Promotes a Conserved Mechanism of Helicase Unloading during DNA Cross-Link Repair.Stress and DNA repair biology of the Fanconi anemia pathwayFanconi anaemia: genetics, molecular biology, and cancer – implications for clinical management in children and adults.The Fanconi anemia ID2 complex: dueling saxes at the crossroads.The nuclease FAN1 is involved in DNA crosslink repair in Arabidopsis thaliana independently of the nuclease MUS81.
P2860
Q24337183-22EBBD20-B473-4012-9F0D-F947A3BF1E79Q26744570-2ED8EC59-A943-4BD9-813E-0E87EA948ECDQ26752319-B309EF4F-8671-4B2E-9FF1-9565B54DEBC0Q26752451-FC1E77DF-7635-4720-BCAE-7770B3870046Q26753126-6100C2E5-5928-4675-A9EB-7B811D666342Q26767252-1026A288-1952-43D4-983F-33C44BD2AB60Q26773800-3B6FF039-BCA5-4042-B634-A00EEC23481FQ26801593-D928D8D6-8778-489B-A247-39E48D86BF18Q26865523-261CDCF1-A44C-44F2-B32C-EAE1026382FEQ27312602-E005636B-719F-44BE-BD06-3E3874EC32FDQ28115483-33E1E412-FA53-4804-878E-8A01A15F4778Q28492645-4B3E97E3-9739-4313-A35F-18C528191E7DQ34244123-93288F2F-AD96-449E-820B-4DA559D3D46CQ34453444-F4F688B0-8F32-4848-BE6B-4737D5EC6A61Q34487349-78CAE26E-9B57-4BD9-AE93-66AC9354E641Q34898909-931A0F53-7ECE-489C-9474-572031924F3DQ35143119-E9084E98-BC7C-4DD9-9C26-5B843CE2E26AQ35152177-76A7452F-912F-458F-83EB-9763BCE43318Q35502827-208DBBA1-1FB1-44C2-B14B-E6F6AEC65481Q35568644-AC4665AB-9B3F-40D8-86E8-3D67EF7A4528Q35607367-2A872C3B-FDEA-4F9A-91B1-6EC334431FE1Q35617226-D4CEC062-895F-4887-B1B0-AEA8C658F5DBQ35663361-7C9D31BC-0938-4552-9255-5F5B3155401AQ35836818-DE591C44-DCDE-4092-B469-27E36857176EQ35991655-EC3A77A8-E763-4FB3-BE5D-952298E15180Q36187965-537E5C5C-CF3D-4172-AECB-D63FF35622DAQ36399882-F08577C5-13F0-40A4-8F24-A7C3A196FC81Q36566344-FE6B7EE6-AB88-4404-BE3C-3FB278BB7DE1Q36715607-75941AEC-02FE-4698-8BDF-2F3D92836D33Q36717334-17A5E2FC-7920-448E-BCA3-64BD108335F3Q36931593-ED7D1CAB-085C-4184-AFC9-80B7A253483DQ37099432-C7416330-8F59-4F43-A3D0-B55B091F70B6Q37208542-DE93D271-C7DD-40F1-A4C9-C661272C7F27Q37210980-CEF1E67C-7309-4B96-9115-B2B8C4257579Q37228846-39C1009D-89B7-45AC-987F-6EAB94CED317Q37413678-C0FDFDD5-5100-47FC-8570-81B03387939BQ38252562-A3FEA679-59DB-483E-B7A9-426B3FC66E98Q38259296-DFCCF27B-4C33-4E5B-93C6-ACCF94F350F5Q38285213-676D07ED-80EF-46C4-AF88-149C9C4B3AC7Q38300405-E114044F-5ECD-4979-A1CA-BBE432BAA6D4
P2860
XPF-ERCC1 acts in Unhooking DNA interstrand crosslinks in cooperation with FANCD2 and FANCP/SLX4
description
2014 nî lūn-bûn
@nan
2014 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
XPF-ERCC1 acts in Unhooking DN ...... ion with FANCD2 and FANCP/SLX4
@ast
XPF-ERCC1 acts in Unhooking DN ...... ion with FANCD2 and FANCP/SLX4
@en
XPF-ERCC1 acts in Unhooking DN ...... ion with FANCD2 and FANCP/SLX4
@nl
type
label
XPF-ERCC1 acts in Unhooking DN ...... ion with FANCD2 and FANCP/SLX4
@ast
XPF-ERCC1 acts in Unhooking DN ...... ion with FANCD2 and FANCP/SLX4
@en
XPF-ERCC1 acts in Unhooking DN ...... ion with FANCD2 and FANCP/SLX4
@nl
prefLabel
XPF-ERCC1 acts in Unhooking DN ...... ion with FANCD2 and FANCP/SLX4
@ast
XPF-ERCC1 acts in Unhooking DN ...... ion with FANCD2 and FANCP/SLX4
@en
XPF-ERCC1 acts in Unhooking DN ...... ion with FANCD2 and FANCP/SLX4
@nl
P2093
P2860
P3181
P1433
P1476
XPF-ERCC1 acts in Unhooking DN ...... ion with FANCD2 and FANCP/SLX4
@en
P2093
Anna A Szypowska
Daisy Klein Douwel
Markus Räschle
Puck Knipscheer
Rick A C M Boonen
P2860
P304
P3181
P356
10.1016/J.MOLCEL.2014.03.015
P407
P577
2014-04-10T00:00:00Z