about
ATM serine/threonine kinaseBreast cancer 1, early onsetKeratin 14Ataxia telangiectasia mutatedBCL2-associated X proteinRAD51 recombinaseH2A.X variant histoneBRCA1 DNA repair associatedBRCA1/BRCA2-containing complex subunit 3DNA meiotic recombinase 1Abraxas 1, BRCA1 A complex subunitUbiquitin interaction motif containing 1RAD51 paralog BProtein kinase, DNA-activated, catalytic subunitMetastasis associated 1Steroidogenic acute regulatory proteinDNA methyltransferase 3ASerine/threonine kinase 11COP1 E3 ubiquitin ligaseCDC like kinase 2BR serine/threonine kinase 1Lysine acetyltransferase 5RAD51 paralog DBRISC and BRCA1 A complex member 1BRISC and BRCA1 A complex member 2Nucleic acid binding protein 1ATP binding cassette subfamily G member 5EYA transcriptional coactivator and phosphatase 1EYA transcriptional coactivator and phosphatase 3Apoptosis enhancing nucleaseDNA topoisomerase II binding protein 1DNA ligase 4MRN complex interacting proteinCytochrome P450 family 2 subfamily R member 1Non-homologous end joining factor 1Ring finger protein 8Ribonucleotide reductase catalytic subunit M1PAX interacting protein 1Leucine zipper and CTNNBIP1 domain containingRing finger and WD repeat domain 3
P682
Human SAD1 kinase is involved in UV-induced DNA damage checkpoint functionPhosphorylation of CLK2 at serine 34 and threonine 127 by AKT controls cell survival after ionizing radiationATM activation by ionizing radiation requires BRCA1-associated BAAT1HSSB1 and hSSB2 form similar multiprotein complexes that participate in DNA damage responseIdentification of a novel ionizing radiation-induced nuclease, AEN, and its functional characterization in apoptosisAtATM is essential for meiosis and the somatic response to DNA damage in plants.
P921
Q141591-3B74D864-CC7C-4920-A2B3-A2381D2A8F3AQ14862232-E0E13857-7369-4423-B176-A188DF9AD935Q14864177-57CDB84F-D54B-4304-94E5-1E1C2A4E1070Q14872812-26CB8DFC-D56A-428D-9E8B-6094A3DE6913Q14905404-CBD1665D-FCF9-4384-ADE9-69BA0BAA3D50Q14907735-0481E8F9-368F-49E5-B014-FDE736A30699Q1620739-772446C0-9EDC-433C-907E-E80E184A4C28Q17487737-AEA89F47-CE6E-41CC-B34D-043722B7808AQ21100456-F77D154B-1F42-4915-BBC5-930F63EF44C3Q21100462-9B025AF6-68B0-49DD-9EF9-E01276F2F412Q21100476-04FBD66A-4A27-41A8-A143-9B9C11D922EAQ21100482-70DAC262-D814-4CD2-86E3-319A229956C8Q21101241-5C8735F5-1D5E-4EE5-AF07-34AB77A134C5Q21105070-4F99A42D-6C2E-4E88-AD71-7C8550B41A80Q21107299-3BE368ED-3C3A-47FA-9EC3-90648BA57A63Q21107299-7FF46D08-DDAA-4492-A7B3-97C4CD6A13B7Q21107952-7139F489-9B26-4AA0-9B4F-7C3407C8F05DQ21108440-E5AC43DD-4CEC-44E1-B82F-9B0B02A9A849Q21109306-BCF7A886-8C74-4BB5-AF8A-249C8549D8F8Q21109323-38566C13-87CD-4170-A77B-5ED110CE8FE4Q21109799-1FB7C17B-1C1F-4EF7-8AA9-57B0F3AF9051Q21110489-950C83D0-D9A6-4BF1-8B51-9922C2B47E73Q21112551-F29EB705-4910-4137-80AF-DC1B8361C160Q21112604-0952286D-F9E1-4127-8B8B-3DADEE0CDBB3Q21112792-3450BA12-27CF-4E86-AF40-75A446837125Q21112794-B7EFFE04-1E54-444D-B0B1-3AB839557B6DQ21113561-8B5C8827-F858-4DB8-B665-206C4B825017Q21113561-B865611E-9413-431C-A59B-5B189A2FF8B2Q21113679-87942878-2F42-4FCA-940A-981A8DCF125DQ21114453-06169559-DABD-4EAC-A943-E3E66CD76228Q21114457-E0CAFF20-99EF-41CA-A117-A591D48CDAC9Q21116406-8DE435D3-716A-4B20-AC74-EC33FF2F7B3BQ21116531-849FF4CE-4035-4AA9-B832-90E419320B3EQ21116593-93E984F3-DDD2-472C-BF24-415E06ECBEBEQ21117161-B5E673B3-FF3B-4C7C-8E3E-187ECF72A651Q21117307-3D2376EC-7977-4F37-8AA0-E4266467DEFCQ21117965-60670CDD-B69C-40DB-81B9-0B1132E6D573Q21118319-61E41BBD-02DA-4875-94A7-9C5C0028A332Q21118319-DC65C9D8-F161-4A54-9EF4-751246A1FA17Q21121233-3B3C43CA-A23B-4757-8C97-E04D967808E6
P682
description
Any process that results in a ...... ion is radiation with sufficie
@en
biologisch proces
@nl
name
response to ionizing radiation
@en
type
label
response to ionizing radiation
@en
altLabel
GO:0010212
@en
response to ionising radiation
@en
response to ionizing radiation stimulus
@en
prefLabel
response to ionizing radiation
@en
P2888
P686
GO:0010212