Radiosensitivity in ataxia-telangiectasia: a new explanation. - Wikidata - wikimedia - TriplyDB

Radiosensitivity in ataxia-telangiectasia: a new explanation.

Radiosensitivity in ataxia-telangiectasia: a new explanation.

http://www.wikidata.org/entity/Q36419108

about

The ATM-Chk2-Cdc25A checkpoint pathway guards against radioresistant DNA synthesis SMC1 is a downstream effector in the ATM/NBS1 branch of the human S-phase checkpoint Interaction between human MCM7 and Rad17 proteins is required for replication checkpoint signaling Cdc5L interacts with ATR and is required for the S-phase cell-cycle checkpoint A human homolog of the Schizosaccharomyces pombe rad9+ checkpoint control gene Phosphorylation of the replication protein A large subunit in the Saccharomyces cerevisiae checkpoint response Replication-mediated DNA damage by camptothecin induces phosphorylation of RPA by DNA-dependent protein kinase and dissociates RPA:DNA-PK complexes Activation of mammalian Chk1 during DNA replication arrest: a role for Chk1 in the intra-S phase checkpoint monitoring replication origin firing HRAD1 and MRAD1 encode mammalian homologues of the fission yeast rad1(+) cell cycle checkpoint control gene Phosphorylation of serines 635 and 645 of human Rad17 is cell cycle regulated and is required for G(1)/S checkpoint activation in response to DNA damage The product of the ataxia-telangiectasia group D complementing gene, ATDC, interacts with a protein kinase C substrate and inhibitor Human Rif1, ortholog of a yeast telomeric protein, is regulated by ATM and 53BP1 and functions in the S-phase checkpoint Mdc1 couples DNA double-strand break recognition by Nbs1 with its H2AX-dependent chromatin retention Human Claspin works with BRCA1 to both positively and negatively regulate cell proliferation Multiple roles of ATM in monitoring and maintaining DNA integrity Induction by ionizing radiation of the gadd45 gene in cultured human cells: lack of mediation by protein kinase C The human Tim/Tipin complex coordinates an Intra-S checkpoint response to UV that slows replication fork displacement Chromatin perturbations during the DNA damage response in higher eukaryotes Radio-resistant mesenchymal stem cells: mechanisms of resistance and potential implications for the clinic Crystal Structure of the First Eubacterial Mre11 Nuclease Reveals Novel Features that May Discriminate Substrates During DNA Repair A novel role for the budding yeast RAD9 checkpoint gene in DNA damage-dependent transcription.Mammalian Chk2 is a downstream effector of the ATM-dependent DNA damage checkpoint pathway Epithelial cancer in Fanconi anemia complementation group D2 (Fancd2) knockout mice Suppression of Tousled-like kinase activity after DNA damage or replication block requires ATM, NBS1 and Chk1 MDC1 is coupled to activated CHK2 in mammalian DNA damage response pathways Checking in on Cds1 (Chk2): A checkpoint kinase and tumor suppressor Regulation of cellular and SV40 virus origins of replication by Chk1-dependent intrinsic and UVC radiation-induced checkpoints ATR functions as a gene dosage-dependent tumor suppressor on a mismatch repair-deficient background The role of NBS1 in DNA double strand break repair, telomere stability, and cell cycle checkpoint control The yeast Xrs2 complex functions in S phase checkpoint regulation Regulating mammalian checkpoints through Cdc25 inactivation.ATM-dependent MiR-335 targets CtIP and modulates the DNA damage response Involvement of Hus1 in the chain elongation step of DNA replication after exposure to camptothecin or ionizing radiation RB-dependent S-phase response to DNA damage ATR: an essential regulator of genome integrity Titanium dioxide nanoparticles activate the ATM-Chk2 DNA damage response in human dermal fibroblasts.Radiation down-regulates replication origin activity throughout the S phase in mammalian cells.Roles of replication protein A and DNA-dependent protein kinase in the regulation of DNA replication following DNA damage.Temporally coordinated assembly and disassembly of replication factories in the absence of DNA synthesis Negative cell cycle regulation and DNA damage-inducible phosphorylation of the BRCT protein 53BP1.

P2860

Q24291114-B50A255C-F5BC-4B8B-B959-7E052D7D3604 Q24292395-13125CBD-E4E1-4F8B-B6DF-6831FF3BCD0A Q24314203-D4A6D53E-2B1E-4F95-8272-18CD8B37870C Q24317690-AA3030AC-1F05-4007-8477-D37D3DC2A493 Q24323298-BFC0B354-16FD-4C11-91C1-F49EC7D3B432 Q24523941-F6C3D55E-3956-4AB1-9BC1-96B98D8BCE82 Q24533892-06375F48-0892-49FD-AF9A-92455674E76E Q24535710-C6D4B4BF-BC6B-4D86-B975-B7823EB707BC Q24548232-F8174C79-6426-4930-BB06-D288AB704057 Q24555104-41B276FF-6094-454F-965A-11F4A994F069 Q24561519-8A83DD32-15AF-4F76-8E4E-20C4C619DB29 Q24562757-0122DF34-CB09-42D6-9931-25761A9AC011 Q24563397-BBAFC520-80DA-4BE4-A98D-24674A400A13 Q24564847-DEDC8B0B-1B27-4991-B618-9A1136D9E2B4 Q24594847-3CD68869-F583-4A03-9BED-F14A78A59115 Q24605002-43C2C4D3-F4C4-425D-89F6-FF6682D950D4 Q24683336-4C41C08E-0BCD-42B3-921D-C72BB66FE8FF Q26782637-763CDD8C-6A4B-45B8-9D61-B2FA1AAC9373 Q26800196-5A17F65E-7B61-4898-862D-07BD0EE0C4D5 Q27644430-935D8D01-87E2-4232-9263-311FFF617508 Q27938547-AF5CAB47-7B12-4AC1-8EA6-7B13558567C9 Q28141324-81E76C59-B9A7-4D23-A6B5-9913CBF9AC9C Q28191400-75EE2D41-96E3-48C1-831C-8823F668A13E Q28204964-71791480-D44A-4905-90AF-1B19A08823A1 Q28212514-126B87F4-C39E-4884-AC68-D7CFFC3C3D4F Q28214285-D62D1120-9084-4371-9FBD-1388990F8C04 Q28214430-AF68F7CC-BEA2-4C17-8560-590CE6FF2D19 Q28274709-D9EB0380-BAC7-4672-869C-0DB52F273BA7 Q28296356-8B2E6ECB-37A4-4ACE-B325-9061293D611F Q28349491-BC0B8DC9-66F0-4584-B214-3FC1FBF9D475 Q28387035-0AECE6D4-194D-421F-B000-60A0946ED638 Q28488177-60A0E8F1-FB02-4026-B168-96DA1E4C0688 Q28509716-CFEBD1E6-AE0E-4E51-ACB5-3A0AEFE0A946 Q28609381-150BB54C-D032-44BB-9076-401D8F92B00D Q29547883-FDA10F89-4217-4AFB-AC19-B5B2579451C8 Q30432008-CA6FD513-2BB6-49DA-B056-821D7C5FC54D Q30453135-22FE831F-D525-4F6C-B294-2B6ADBADCB33 Q30643449-CD165549-83D5-48F6-8266-EAC63E846FCD Q30939848-0EE7E10A-FA3A-48E3-848C-7102DF791F8D Q30947641-5CEC46D1-483F-47C1-A7B6-9869C654F012

P2860

Radiosensitivity in ataxia-telangiectasia: a new explanation.

http://www.wikidata.org/entity/Q36419108

description

1980 nî lūn-bûn

@nan

1980年の論文

@ja

1980年学术文章

@wuu

1980年学术文章

@zh-cn

1980年学术文章

@zh-hans

1980年学术文章

@zh-my

1980年学术文章

@zh-sg

1980年學術文章

@yue

1980年學術文章

@zh

1980年學術文章

@zh-hant

name

Radiosensitivity in ataxia-telangiectasia: a new explanation.

@ast

Radiosensitivity in ataxia-telangiectasia: a new explanation.

@en

type

label

Radiosensitivity in ataxia-telangiectasia: a new explanation.

@ast

Radiosensitivity in ataxia-telangiectasia: a new explanation.

@en

prefLabel

Radiosensitivity in ataxia-telangiectasia: a new explanation.

@ast

Radiosensitivity in ataxia-telangiectasia: a new explanation.

@en

P1433

Q36419108-08C4B48E-6529-4150-8B7F-DBFAFCBFDE58

P1476

Q36419108-83C63EB3-762B-46A7-97B8-177C55585C94

P2093

Q36419108-383FC97F-357D-4ABD-A73A-4E41A61E7A06

Q36419108-71D9D593-CBF6-46D5-A04C-3D634075FFEA

P2860

Q36419108-0570BEBE-717A-402B-BEC4-890E3310B520

Q36419108-2D29A015-9086-4DA7-AF73-1B97135A1D91

Q36419108-40A214DB-217A-4335-9897-756C990FFE2D

Q36419108-49A394B7-1B49-4292-923D-2806D14B28A4

Q36419108-83D3EC1A-0C3E-46A9-B3A0-EEADE4C01A0A

Q36419108-946E0A9D-17CA-4E8C-89F8-430955EB9820

Q36419108-AC56A283-2571-4E51-BA0E-1AB3E07B5A4D

Q36419108-C05B820B-C253-4725-835F-198A5E1C6422

Q36419108-D7B2F3BD-9BD6-421E-AF1D-893188785503

Q36419108-E82C437C-F75A-40FC-A55C-DCB7D8A3F1A8

P304

Q36419108-EBB95387-066A-4179-963E-8DFD2A3A84C1

P31

Q36419108-771FB3BC-FD87-4CCD-977E-C0EDDBF4764E

P356

Q36419108-9B24A4BC-7251-482F-87D3-32652887C965

P407

Q36419108-472CE57D-63A8-4686-84C3-5DA658CA1956

P433

Q36419108-2F51AF6A-FECC-43FA-8E0A-F1374165CA23

P478

Q36419108-25E28B89-FC80-4ECB-B923-4C06052CBE2E

P577

Q36419108-3F05C5B3-C515-49EB-9A92-132AB455E7DB

P5875

Q36419108-1C41B6B6-DA43-4F19-B7E1-6F64501A1F93

P698

Q36419108-DE156485-0EC5-481C-985A-1E65340F9852

P932

Q36419108-B2A796E0-04FE-4536-AF03-1A1DB23D5FA4

P356

PNAS.77.12.7315

P1433

Proceedings of the National Academy of Sciences of the United States of America

P1476

Radiosensitivity in ataxia-telangiectasia: a new explanation.

@en

P2093

Painter RB

http://www.w3.org/2001/XMLSchema#string

Young BR

http://www.w3.org/2001/XMLSchema#string

P2860

The effect of methylated oxypurines on the size of newly-synthesized DNA and on the production of chromosome aberrations after UV irradiation in Chinese hamster cells

Effects of caffeine on radiation-induced phenomena associated with cell-cycle traverse of mammalian cells.

Inhibition of DNA replicon initiation by 4-nitroquinoline 1-oxide, adriamycin, and ethyleneimine.

The effect of 313 nanometer light on initiation of replicons in mammalian cell DNA containing bromodeoxyuridine.

Formation of nascent DNA molecules during inhibition of replicon initiation in mammalian cells.

X-ray-induced inhibition of DNA synthesis in Chinese hamster ovary, human HeLa, and Mouse L cells.

ORGANIZATION OF THE DEOXYRIBONUCLEIC ACID REPLICATING SYSTEM IN MAMMALIAN CELLS AS REVEALED BY THE USE OF X-RADIATION AND BROMURACIL DEOXYRIBOSIDE.

Unrepaired DNA strand breaks in irradiated ataxia telangiectasia lymphocytes suggested from cytogenetic observations.

Induction of sister chromatid exchanges by UV light and its inhibition by caffeine.

Radiation effects on DNA chain growth in mammalian cells.

P304

7315-7317

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1073/PNAS.77.12.7315

http://www.w3.org/2001/XMLSchema#string

P407

P433

12

http://www.w3.org/2001/XMLSchema#string

P478

77

http://www.w3.org/2001/XMLSchema#string

P577

1980-12-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

16260011

http://www.w3.org/2001/XMLSchema#string

P698

6938978

http://www.w3.org/2001/XMLSchema#string

P932

350493

http://www.w3.org/2001/XMLSchema#string