The same, only different - DNA damage checkpoints and their reversal throughout the cell cycle.
about
Ciliogenesis and the DNA damage response: a stressful relationshipHypersensitivity to DNA damage in antephase as a safeguard for genome stability.DNA damage control: regulation and functions of checkpoint kinase 1Cryptotanshinone induces cell cycle arrest and apoptosis through the JAK2/STAT3 and PI3K/Akt/NFκB pathways in cholangiocarcinoma cells.And-1 coordinates with CtIP for efficient homologous recombination and DNA damage checkpoint maintenanceRgf1p (Rho1p GEF) is required for double-strand break repair in fission yeast.WIP1 phosphatase as pharmacological target in cancer therapy.Fanconi anemia cells with unrepaired DNA damage activate components of the checkpoint recovery process.p27Kip1 Is Required to Mediate a G1 Cell Cycle Arrest Downstream of ATM following Genotoxic StressDNA damage induces a meiotic arrest in mouse oocytes mediated by the spindle assembly checkpoint.RCC1-dependent activation of Ran accelerates cell cycle and DNA repair, inhibiting DNA damage-induced cell senescence.The KRAB Zinc Finger Protein Roma/Zfp157 Is a Critical Regulator of Cell-Cycle Progression and Genomic StabilityOxidative stress-induced DNA damage of mouse zygotes triggers G2/M checkpoint and phosphorylates Cdc25 and Cdc2.Cell fate determination in cisplatin resistance and chemosensitizationControlling the response to DNA damage by the APC/C-Cdh1.Effects of hyperthermia on DNA repair pathways: one treatment to inhibit them all.The expanding role of the Ehmt2/G9a complex in neurodevelopment.Inhibition of Polo-like kinase 1 during the DNA damage response is mediated through loss of Aurora A recruitment by Bora.Tousled-like kinase 2 regulates recovery from a DNA damage-induced G2 arrest.Plk1 Inhibitors in Cancer Therapy: From Laboratory to Clinics.Transcriptome meta-analysis reveals dysregulated pathways in nasopharyngeal carcinoma.Hereditary breast and ovarian cancer: new genes in confined pathways.Emerging links among Chromosome Instability (CIN), cancer, and aging.Insulin-Like Growth Factor-1-Mediated DNA Repair in Irradiated Salivary Glands Is Sirtuin-1 Dependent.DNA Repair in Drosophila: Mutagens, Models, and Missing Genes.Reduced kinase activity of polo kinase Cdc5 affects chromosome stability and DNA damage response in S. cerevisiae.Accelerated pathway evolution in mouse-like rodents involves cell cycle control.Augmented expression of polo-like kinase 1 indicates poor clinical outcome for breast patients: a systematic review and meta-analysis.FANCD2 and DNA Damage.Erratum to: Controlling the response to DNA damage by the APC/C-Cdh1.Endogenous Replication Stress in Mother Cells Leads to Quiescence of Daughter Cells.The G2 checkpoint-a node-based molecular switch.Fine particle matters induce DNA damage and G2/M cell cycle arrest in human bronchial epithelial BEAS-2B cells.Orchestration of DNA Damage Checkpoint Dynamics across the Human Cell Cycle.DNA Damage Repair System in Plants: A Worldwide Research Update.AATF suppresses apoptosis, promotes proliferation and is critical for Kras-driven lung cancer.A drift-diffusion checkpoint model predicts a highly variable and growth-factor-sensitive portion of the cell cycle G1 phase.Distinct Levels of Radioresistance in Lgr5+ Colonic Epithelial Stem Cells versus Lgr5+ Small Intestinal Stem Cells.Checks and balances? DNA replication and the cell cycle in Plasmodium.The Histone Chaperones ASF1 and CAF-1 Promote MMS22L-TONSL-Mediated Rad51 Loading onto ssDNA during Homologous Recombination in Human Cells.
P2860
Q26747601-59131A6D-B647-406D-806D-019BC6BAF3DAQ27331358-C6458A7D-A49F-498A-8504-174110A75E86Q28083686-7A9408D4-6DC2-4358-8A3A-06B2C42BC18BQ32174351-F6B571A6-2929-43AF-8AAA-645BD6F5A8CAQ33557795-4401F34F-C42D-49CC-A473-C47E0210853BQ33701440-FFE1E16F-C1E8-4CBA-9CCF-A81F9FFB829DQ33720757-138936BC-264E-4117-AE8A-CE6E3530077AQ36073848-C06B26A1-62DF-41DC-A7BD-13AA659298A7Q36128510-A38BF561-3B74-4282-987E-6FAC5CAD25FCQ36319891-99B74F32-3291-40EC-AA65-6682807FDEC3Q36798615-2A181023-9CC2-4521-A9C0-CDBACF8C7B73Q36850235-E3E5B14E-62D5-4C22-9DD5-197F9BD63B04Q37004597-712E90C9-4559-4E92-A13D-986520DAF8B2Q37269025-556B465D-3873-4A61-A661-1BEB879D9C70Q38273596-0C34C28B-C93F-4425-84D3-C4CDBB419530Q38561332-EA7C8385-077F-4952-9A3F-3D1B7E10AD6CQ38735095-CEEF3DE4-7AF4-41F5-A833-263CBDA08E07Q38741827-57CCC493-024B-456C-AD9C-94C04A4BB96FQ38789815-3F18A7D7-296F-4CD8-B2D1-A7D00A7CA2D2Q38872725-E4DA415A-EAFB-4EFC-8494-51038F376A44Q38905388-35F33D43-1FF3-4CB2-AD63-158707E650C8Q38925408-A36E3282-E911-438E-BE93-09971500BACEQ38929880-973EBC60-58B6-4A4B-BB30-7061B96EEC44Q39010416-BDA2EFE0-73F4-482A-9671-5B431F558EBFQ39116605-12C416C5-B633-4E38-8DAF-717468962AEFQ39450140-47C018A4-1D76-4A30-8E00-DC5A8ADE4DD1Q40480121-4D5C04A6-6FE7-4ED0-8A9D-BB19A24CD194Q41339935-7C13800B-7963-4481-8655-8530CEDE986EQ41574502-73E6F650-3B8B-402A-8B85-148119FA036AQ41786657-B201D71F-0FBF-4E15-B488-C5A170F8E7B6Q42175698-88EA4B5B-CE64-4FF0-B584-69914FD143D2Q42231430-BC1D90C8-7D83-4A56-9E72-D80B15A8F897Q43365181-8F5ABDB6-35F7-4ADF-8739-199AF21ABE34Q47286965-9C7FA12D-8E91-43D5-B698-22943EFCAF01Q47398640-BD101DF0-2B61-4F33-B5B1-E696A903E813Q48266870-049DE5D8-97FC-4D3D-BECD-895EA513235AQ50047227-44BD7252-8A1E-471D-B907-191AB6C52FEDQ51136453-CB907309-0150-4A14-96C2-B82B24F07AC6Q52627214-32AB0D37-DB0E-482D-A515-357A0AF6A729Q52686300-5872B342-4415-46A8-87D9-B00306DDE5EA
P2860
The same, only different - DNA damage checkpoints and their reversal throughout the cell cycle.
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年学术文章
@wuu
2015年学术文章
@zh-cn
2015年学术文章
@zh-hans
2015年学术文章
@zh-my
2015年学术文章
@zh-sg
2015年學術文章
@yue
2015年學術文章
@zh
2015年學術文章
@zh-hant
name
The same, only different - DNA ...... sal throughout the cell cycle.
@en
type
label
The same, only different - DNA ...... sal throughout the cell cycle.
@en
prefLabel
The same, only different - DNA ...... sal throughout the cell cycle.
@en
P50
P356
P1476
The same, only different - DNA ...... sal throughout the cell cycle.
@en
P2093
Wytse Bruinsma
P304
P356
10.1242/JCS.163766
P407
P577
2015-01-20T00:00:00Z