Repair Pathway Choices and Consequences at the Double-Strand Break
about
Nucleophosmin: from structure and function to disease developmentWriters, Readers, and Erasers of Histone Ubiquitylation in DNA Double-Strand Break RepairFunctions of PARylation in DNA Damage Repair PathwaysDNA repair by RNA: Templated, or not templated, that is the questionThe Knowns Unknowns: Exploring the Homologous Recombination Repair Pathway in Toxoplasma gondiiEmerging therapeutic targets in esophageal adenocarcinomaPolySUMOylation by Siz2 and Mms21 triggers relocation of DNA breaks to nuclear pores through the Slx5/Slx8 STUbL.Controlling DNA-End Resection: An Emerging Task for Ubiquitin and SUMONoncanonical views of homology-directed DNA repairCullin3-KLHL15 ubiquitin ligase mediates CtIP protein turnover to fine-tune DNA-end resectionRadiation-associated neoplasia: clinical, pathological and genomic correlates.Easi-CRISPR: a robust method for one-step generation of mice carrying conditional and insertion alleles using long ssDNA donors and CRISPR ribonucleoproteins.Findings made in gene panel to whole genome sequencing: data, knowledge, ethics - and consequences?Wwox-Brca1 interaction: role in DNA repair pathway choiceA role of human RNase P subunits, Rpp29 and Rpp21, in homology directed-repair of double-strand breaks.Drugging the Cancers Addicted to DNA Repair.CTCF facilitates DNA double-strand break repair by enhancing homologous recombination repair.Epigenome Maintenance in Response to DNA DamageDNA double-strand break repair: a tale of pathway choices.Do DNA Double-Strand Breaks Drive Aging?Impact of the DNA Damage Response on Human Papillomavirus Chromatin.XRN2 Links Transcription Termination to DNA Damage and Replication Stress.Genomic Scars Generated by Polymerase Theta Reveal the Versatile Mechanism of Alternative End-Joining.Pot1 OB-fold mutations unleash telomere instability to initiate tumorigenesis.Ku Binding on Telomeres Occurs at Sites Distal from the Physical Chromosome EndsJMJD-5/KDM8 regulates H3K36me2 and is required for late steps of homologous recombination and genome integrity.DEK is required for homologous recombination repair of DNA breaks.Enhancing the genome editing toolbox: genome wide CRISPR arrayed librariesLigase I and ligase III mediate the DNA double-strand break ligation in alternative end-joining.Linking DNA Damage and Hormone Signaling Pathways in Cancer.Risky business: Microhomology-mediated end joining.Non-homologous end joining repair in Xenopus egg extractTranslocation and deletion breakpoints in cancer genomes are associated with potential non-B DNA-forming sequencesThe structure of ends determines the pathway choice and Mre11 nuclease dependency of DNA double-strand break repair.FANCD2 Maintains Fork Stability in BRCA1/2-Deficient Tumors and Promotes Alternative End-Joining DNA Repair.Ctp1-dependent clipping and resection of DNA double-strand breaks by Mre11 endonuclease complex are not genetically separable.Multiple mechanisms contribute to double-strand break repair at rereplication forks in Drosophila follicle cells.Two familial ALS proteins function in prevention/repair of transcription-associated DNA damage.LINC complexes promote homologous recombination in part through inhibition of nonhomologous end joining.Aberrant DNA Double-strand Break Repair Threads in Breast Carcinoma: Orchestrating Genomic Insult Survival.
P2860
Q26739704-6E802777-47C8-4536-B7CF-DBD2398F0417Q26742134-7CDDB651-F743-4C09-A12A-3FE2FC66ED43Q26744796-E353AD32-B094-49A8-AD46-956924891FA9Q26745476-BADC29DD-3AA8-4586-9927-AF31EF3B461DQ26747443-76E156E2-D52F-4066-A388-9E61867D2F7BQ26751209-139996F6-8C4B-45F1-B3E4-A66DD26C6AFFQ27935500-1E84B592-3174-4D13-8C47-9A9AC88724E5Q28069597-B38E64DD-08FF-4FB2-8474-D61139BDC29FQ28080032-A17D3075-9120-4E1F-BB6C-09B884754186Q28118714-A877DD99-CDD7-4136-ACD1-A5EC3E962589Q30240080-7A3C180E-FEEE-4D2A-AA45-9250CA299127Q30356050-F6144FFB-E445-4B33-9D02-BFC9E72B423AQ31114379-E30D8831-90F1-4A79-9CEC-48E55CD22E35Q33585936-5B91CF57-1AA9-4BC9-B41D-9D9BF1BC7075Q33682702-EAB3487F-1BDB-468C-833C-94626AC4C3A8Q33702497-61112ADB-41D4-4F99-B95A-0371E11E9BDFQ33725333-4633BCA1-6462-408D-BC42-46D8B3D3C94EQ33811644-BD90D8D4-34FB-48EC-9313-DA3B12C3D209Q34528005-2C13E331-F057-4B35-B76E-19DDD04C9FD8Q34539270-7AD60BA3-3E56-4054-A89E-216ABA111FF2Q36054138-458B6C70-F9CB-4FD5-A44E-8538C693EFC6Q36082634-39FFD3EB-D267-433F-8CB5-191F2DD8B9D8Q36166054-9A7BBB37-FBE8-49D7-87A8-D107EDC88647Q36199207-4C1B3D46-2D45-44B9-AA5F-EBE5FB5A3969Q36215976-11B78A6C-F547-47A3-8AE7-64C9B88F3A12Q36282697-9FE0CBCC-9573-471C-8C4F-2A54AB92EE33Q36314320-63915858-A42D-4DED-8230-78274B168698Q36378294-93EFF053-5C3E-4A14-BDC2-021CBA65A380Q36563447-BB288D6F-0656-4962-A9D7-96B19EC9D8DEQ36730819-6881C5CC-C242-4C00-B7AA-7D4721BA2291Q36952240-1FE2C01D-9C25-43CA-9EE8-625F7CA45C1BQ37024061-E9582D97-D7A8-4A0C-AC05-CE615D772FF2Q37076289-D05342D9-4A0E-4514-B653-7929BBC70513Q37076293-BA6277E5-A0AA-4BF5-BC61-5944AA2CAABEQ37082160-ED9D0FBF-ACA1-4CA4-932C-133BF9570464Q37294830-79415266-D978-4A8B-BC03-E751AFC45BF5Q37473915-874E5DBB-8DFF-436C-9BFF-89B132D69EE8Q37474001-0ABE9A3A-C46A-4B5B-B8EA-230C76E5C52BQ37513959-084AB0DE-BBE5-4CB2-A02B-C87347821002Q37552296-97CEFBB4-B4EA-46A4-AC3F-A48FFAC24EB3
P2860
Repair Pathway Choices and Consequences at the Double-Strand Break
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
2015年论文
@zh
2015年论文
@zh-cn
name
Repair Pathway Choices and Consequences at the Double-Strand Break
@en
type
label
Repair Pathway Choices and Consequences at the Double-Strand Break
@en
prefLabel
Repair Pathway Choices and Consequences at the Double-Strand Break
@en
P2093
P2860
P1476
Repair Pathway Choices and Consequences at the Double-Strand Break
@en
P2093
Alan D D'Andrea
Beatrice Rondinelli
Raphael Ceccaldi
P2860
P356
10.1016/J.TCB.2015.07.009
P577
2015-08-26T00:00:00Z