Restoration of an absent G1 arrest and protection from apoptosis in embryonic stem cells after ionizing radiation
about
Mouse embryonic stem cells, but not somatic cells, predominantly use homologous recombination to repair double-strand DNA breaksLack of p21 expression links cell cycle control and appendage regeneration in miceRegeneration of articular cartilage in healer and non-healer miceMicroRNAs regulate p21(Waf1/Cip1) protein expression and the DNA damage response in human embryonic stem cellsGene expression signatures that predict radiation exposure in mice and humansEsg1, expressed exclusively in preimplantation embryos, germline, and embryonic stem cells, is a putative RNA-binding protein with broad RNA targetsResistance for Genotoxic Damage in Mesenchymal Stromal Cells Is Increased by Hypoxia but Not Generally Dependent on p53-Regulated Cell Cycle Arrest.c-Jun NH2-terminal kinase is required for lineage-specific differentiation but not stem cell self-renewal.Cell cycle-dependent localization of CHK2 at centrosomes during mitosis.Apoptosis induced by replication inhibitors in Chk1-depleted cells is dependent upon the helicase cofactor Cdc45.Nuclear accumulation and activation of p53 in embryonic stem cells after DNA damage.Dynamic dependence on ATR and ATM for double-strand break repair in human embryonic stem cells and neural descendants.DNA damage mediated s and g(2) checkpoints in human embryonal carcinoma cellsA genomewide study identifies the Wnt signaling pathway as a major target of p53 in murine embryonic stem cells.Condensin complexes regulate mitotic progression and interphase chromatin structure in embryonic stem cells.Cell cycle synchronization of leukemia inhibitory factor (LIF)-dependent porcine-induced pluripotent stem cells and the generation of cloned embryos.DNA damage responses in human induced pluripotent stem cells and embryonic stem cells.Expression of pluripotency-associated genes in the surviving fraction of cultured human embryonic stem cells is not significantly affected by ionizing radiation.Retinoic acid-treated pluripotent stem cells undergoing neurogenesis present increased aneuploidy and micronuclei formation.Senescence evasion by MCF-7 human breast tumor-initiating cells.CHK2-independent induction of telomere dysfunction checkpoints in stem and progenitor cellsSurvival responses of human embryonic stem cells to DNA damage.Viral single-strand DNA induces p53-dependent apoptosis in human embryonic stem cells.Cancer stem cells as targets for cancer therapy: selected cancers as examples.The B-MYB transcriptional network guides cell cycle progression and fate decisions to sustain self-renewal and the identity of pluripotent stem cells.Effects of ionizing radiation on self-renewal and pluripotency of human embryonic stem cells.Apoptosis-related gene expression profiles of mouse ESCs and maGSCs: role of Fgf4 and Mnda in pluripotent cell responses to genotoxicity.CD95 is part of a let-7/p53/miR-34 regulatory networkCharacterizing the radioresponse of pluripotent and multipotent human stem cells.MCL-1 localizes to sites of DNA damage and regulates DNA damage responseCDK1 plays an important role in the maintenance of pluripotency and genomic stability in human pluripotent stem cellsA miR-590/Acvr2a/Rad51b axis regulates DNA damage repair during mESC proliferationMismatch and base excision repair proficiency in murine embryonic stem cellsRegulation of the cellular DNA double-strand break response.CHK2 kinase in the DNA damage response and beyondCarcinogens induce genome-wide loss of heterozygosity in normal stem cells without persistent chromosomal instability.Homologous recombination conserves DNA sequence integrity throughout the cell cycle in embryonic stem cellsp53, Stem Cells, and Reprogramming: Tumor Suppression beyond Guarding the Genome.Stem cells: balancing resistance and sensitivity to DNA damage.p53 in stem cells
P2860
Q24599990-A78060B5-5FCF-4DFF-AF89-46F75BC1CA2FQ24600429-DD1F27A8-5438-4EE1-95CE-35AE77F3055BQ27026084-632A45F3-DA57-478E-91D1-592A6457F5AAQ28264713-7FCC281D-A530-4BAB-809B-20845E8F5F14Q28469172-804A47EB-C606-4E0B-A81E-3278A56C96E2Q28508682-928D8423-903C-45E7-B993-8FECBF305DF9Q30313560-1F03B354-EB09-4A79-BAEB-B70D18F46320Q30493483-575DB526-C254-4B01-8C44-9E103AE825B6Q30540177-B53A154E-C606-4B56-89E1-FCDCF190F768Q33317751-E4B2ADF3-DC1E-409A-9564-053F1E2D7F53Q33469925-96AC374B-11DD-49F0-8C83-43FAD3FCFBBAQ33549647-28EDA0F3-C9EB-4349-8E5B-1FA2590B9D70Q33557195-EB34299D-9BA3-417B-869B-97C202080392Q33591375-A8235C0F-32D6-4AE1-B73C-57661ED34382Q33689612-36819A57-BA08-42DF-98B6-F220EDF0DCD3Q33728378-ACE1A6D2-3B1A-4F3B-8D9A-D540EC59C3E0Q33728554-77399643-3D10-4285-8D76-7983104B0610Q33747678-3F062514-B519-4861-8F5E-9659AE295BD8Q33932934-79E8A675-4E47-40AD-94A7-22417F0D43A8Q34048082-BE2ED7DC-ED86-46E0-A5E7-C502D2C54BB6Q34061490-9EBA9FA4-F26D-4C3B-9512-8FAA203B9A27Q34078474-9CFAA0D6-AF22-4232-891B-B1E0447B3CC1Q34082779-93F81F1E-B3B8-4112-9956-42DAA7A5C38AQ34199130-ED523803-3DD6-476E-A3F2-1D4E6EEFC338Q34398856-8A0427C1-265D-4893-898E-A5E06C3E5A09Q34458727-922EBB45-C433-4260-A22B-FE01F68074BFQ34473620-10A5C17B-1B3F-455A-B45E-3836303E34DAQ34482626-E539D167-1998-48E1-ABDE-40B79C853982Q34524919-04C8A694-B5E3-451E-80F1-E19B6D3081FCQ34582160-5811B85F-360D-40AF-ACC8-43DBB8B9725DQ34662178-86BA9436-C254-4BDF-B361-5F0C1F23D57FQ34684278-20E6DE19-5CEF-414E-B9E6-5DD84B2A4C86Q34709046-2B3B6FA8-6B6B-4B0D-9166-17E0BF29961DQ34722112-07FEAA10-8AD1-495A-922C-600013E0781FQ34977480-A977F368-6EE2-4BD3-94A6-7E66C79D6FF1Q34984467-0F294C70-D274-4FF0-8B47-1B6825AC7A0DQ35084078-A6769513-C955-4FE2-8B3E-EB698217A2C1Q35103179-15585173-30D6-4D74-8F5E-6EA6104D33E0Q35128418-1C6E3698-33AC-456C-8BAD-254C8790380EQ35228392-C8A01FB2-97E6-43E6-A11D-225C5C62751C
P2860
Restoration of an absent G1 arrest and protection from apoptosis in embryonic stem cells after ionizing radiation
description
2004 nî lūn-bûn
@nan
2004 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Restoration of an absent G1 ar ...... cells after ionizing radiation
@ast
Restoration of an absent G1 ar ...... cells after ionizing radiation
@en
Restoration of an absent G1 ar ...... cells after ionizing radiation
@nl
type
label
Restoration of an absent G1 ar ...... cells after ionizing radiation
@ast
Restoration of an absent G1 ar ...... cells after ionizing radiation
@en
Restoration of an absent G1 ar ...... cells after ionizing radiation
@nl
prefLabel
Restoration of an absent G1 ar ...... cells after ionizing radiation
@ast
Restoration of an absent G1 ar ...... cells after ionizing radiation
@en
Restoration of an absent G1 ar ...... cells after ionizing radiation
@nl
P2860
P3181
P356
P1476
Restoration of an absent G1 ar ...... cells after ionizing radiation
@en
P2093
Peter J Stambrook
Yiling Hong
P2860
P304
P3181
P356
10.1073/PNAS.0401346101
P407
P577
2004-10-05T00:00:00Z