Selective utilization of nonhomologous end-joining and homologous recombination DNA repair pathways during nervous system development
about
The DNA-damage response in human biology and diseaseCurrent Evidence for Developmental, Structural, and Functional Brain Defects following Prenatal Radiation ExposureGenome Engineering with TALE and CRISPR Systems in NeuroscienceThe Response to Oxidative DNA Damage in Neurons: Mechanisms and DiseaseRequirement of mouse BCCIP for neural development and progenitor proliferationHomologous recombination and human health: the roles of BRCA1, BRCA2, and associated proteinsMutations in XRCC4 cause primary microcephaly, short stature and increased genomic instabilityRegulation of DNA double-strand break repair pathway choiceRad50 is dispensable for the maintenance and viability of postmitotic tissuesThe genesis of cerebellar interneurons and the prevention of neural DNA damage require XRCC1BRCA2 is required for neurogenesis and suppression of medulloblastomaIn vivo importance of homologous recombination DNA repair for mouse neural stem and progenitor cellsPot1a prevents telomere dysfunction and ATM-dependent neuronal loss.Numt-mediated double-strand break repair mitigates deletions during primate genome evolutionDynamic dependence on ATR and ATM for double-strand break repair in human embryonic stem cells and neural descendants.Tissue regenerative delays and synthetic lethality in adult mice after combined deletion of Atr and Trp53.Rosa26-GFP direct repeat (RaDR-GFP) mice reveal tissue- and age-dependence of homologous recombination in mammals in vivo.Mutant huntingtin impairs Ku70-mediated DNA repair.Maintaining genome stability in the nervous system.miR-18a impairs DNA damage response through downregulation of ataxia telangiectasia mutated (ATM) kinase.Widespread genomic breaks generated by activation-induced cytidine deaminase are prevented by homologous recombination.The telomeric protein SNM1B/Apollo is required for normal cell proliferation and embryonic development.DNA repair deficiency in neurodegeneration.Mouse Rad9b is essential for embryonic development and promotes resistance to DNA damageAbrupt onset of mutations in a developmentally regulated gene during terminal differentiation of post-mitotic photoreceptor neurons in mice.Removing all obstacles: a critical role for p53 in promoting tissue renewalAging genomes: a necessary evil in the logic of life.Genetic determinants at the interface of cancer and neurodegenerative disease.Repair of DNA strand breaks in a minichromosome in vivo: kinetics, modeling, and effects of inhibitors.Detection of apoptosis in the central nervous systemChanges in DNA repair during aging.ATM and the Mre11 complex combine to recognize and signal DNA double-strand breaks.DNA repair mechanisms in dividing and non-dividing cells.Homologous recombination conserves DNA sequence integrity throughout the cell cycle in embryonic stem cellsSuccessful bone marrow transplantation in a patient with DNA ligase IV deficiency and bone marrow failureCell cycle- and DNA repair pathway-specific effects of apoptosis on tumor suppression.Activation-induced cytidine deaminase-initiated off-target DNA breaks are detected and resolved during S phase.DNA-damage repair; the good, the bad, and the ugly.Fanconi DNA repair pathway is required for survival and long-term maintenance of neural progenitors.Homologous recombination is necessary for normal lymphocyte development.
P2860
15bfd35307ac15b3c04e3eeacadf8f153a0c62552aa82c6b080b01c4e387e10d852d3d1098e6f2de559cbf6d51cfada864b9b1a9a16f8ec61cf60f01772d6f1902d107428381060f1efe3726b29105a2b3515d1e762ed91c410a08bcb0458afc5dee92ddb8889118409111249b661588561e1abc246400bdc85909a8f7eb3c4cd61b2e758db2852cce48c390c98b549392374956b3a3a20273eef43fc896f597d07979996c6ab489201442aeae4e0a1db1f0741be45bfd49c77a07229e746164bc1dd961be298783ee28c270735a9f6fb08c101ee84afeff3a08c985fee6710d5a55b9cb404f7bfe23a2161ff624fc8b
P248
Q24606586-32599F51-9DCC-4999-BF7B-FEF2AFDC6853Q26744282-08FB6C2C-B5C1-4C10-83C5-7FE26445D22EQ26752488-E5F0CAF4-BA05-47BB-8227-3E29A4D3B8AEQ26768287-080F15AC-4BEB-4A0E-92D5-26B0EA69B8ABQ27309426-8CA2EA9F-6EC9-40E7-B251-838AA09A2024Q28085364-4FB7553E-991D-43B0-BE90-0297E8FE3F54Q28259883-694780A7-23C4-44B6-B061-BE7E99760C7FQ28262730-A28B7C00-567F-4C91-9694-B0CF8F7364F9Q28511337-E48959CE-1E1A-4C2C-B6B7-B9B1BB8AA592Q28513565-1AA9A601-A900-4544-85A7-05FB516C053BQ28590758-2449F187-390D-40DD-9B17-5BCA15110590Q28729120-1D30779F-7941-4E5D-91D5-F40E6282DC0FQ31163246-AAEECE9E-9CFF-4DFE-88A7-4EE8095A03CCQ33379097-95B317B2-1127-40D8-B95D-779321ED3DF5Q33549647-1489A423-E9DF-4A9D-9993-2D4BF73610FBQ33661151-A4481B61-A35A-4C8A-B600-068977CC617DQ33716551-A5CB50E5-6523-4E58-8B89-4DC929AF9709Q33840010-B1A4BCFF-346F-429E-8F5D-9F10889F4092Q33957193-3DBED32F-4CE6-44EC-AAF2-51018C49265CQ34043212-F3C09142-3FB6-453C-B839-552E5F1C4433Q34095055-0ADBBC27-5813-43E9-B052-B0137656A69CQ34138920-5DAEFB9C-D988-4091-8FD5-2343267DF4D7Q34183328-886C742C-5AF1-425B-BC17-5984DE2F910FQ34259376-D8D01D3C-5C81-4A3C-A874-77EB0F5529BEQ34267941-ED971E1D-C096-49B6-80B9-AD13457D8F95Q34306322-CAB83F5E-7215-4E0A-B118-12AEE71642C7Q34400145-133AF574-6523-4CBB-94EB-A6597E45474FQ34422582-C78C8234-FBD2-4AC4-95FF-3C29A159D092Q34575146-4747B87F-707E-45F5-AD3C-8B70F279C1DAQ34589076-DB1702CC-0C76-47C3-9036-BE5A2717B6EDQ34697935-6792AA6C-A6A0-4CCA-8E83-E57EF1F51455Q34722732-B8937AAB-F91B-43F3-A0A1-620E4D476D57Q34727858-2C4728D9-88A9-4996-9272-BD4B8BF95958Q35084078-7B9459CE-7FF8-47CB-B184-7D39347B4FC7Q35608847-B593EFAD-2FA9-4DAF-94C4-13FA444B1AF1Q36056628-A0380FF2-4AAD-47F7-90F0-186C80429308Q36179581-08437C86-5CB8-45CD-A13B-8E97E1A599F0Q36487307-D7A75547-66D6-4F2B-97DD-AFFF0A267543Q36492462-33DFAC8E-756C-4EBF-BC66-868CCEE3AA36Q36498034-1DA13874-0B91-4D53-AC90-9EF241CEDD80
P2860
Selective utilization of nonhomologous end-joining and homologous recombination DNA repair pathways during nervous system development
description
2006 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի հունիսին հրատարակված գիտական հոդված
@hy
article publié dans les Procee ...... f the United States of America
@fr
artículu científicu espublizáu en 2006
@ast
im Juni 2006 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 2006/06/27)
@sk
vědecký článek publikovaný v roce 2006
@cs
wetenschappelijk artikel (gepubliceerd op 2006/06/27)
@nl
наукова стаття, опублікована в червні 2006
@uk
name
Selective utilization of nonho ...... ing nervous system development
@ast
Selective utilization of nonho ...... ing nervous system development
@en
Selective utilization of nonho ...... ing nervous system development
@nl
type
label
Selective utilization of nonho ...... ing nervous system development
@ast
Selective utilization of nonho ...... ing nervous system development
@en
Selective utilization of nonho ...... ing nervous system development
@nl
prefLabel
Selective utilization of nonho ...... ing nervous system development
@ast
Selective utilization of nonho ...... ing nervous system development
@en
Selective utilization of nonho ...... ing nervous system development
@nl
P2093
P2860
P921
P3181
P356
P1476
Selective utilization of nonho ...... ing nervous system development
@en
P2093
Kenji E. Orii
Naomi Kondo
Peter J. McKinnon
Youngsoo Lee
P2860
P304
10017–10022
P3181
P356
10.1073/PNAS.0602436103
P407
P577
2006-06-27T00:00:00Z