intrinsic apoptotic signaling pathway in response to DNA damage
about
ATM serine/threonine kinaseBreast cancer 1, early onsetB cell leukemia/lymphoma 2Breast cancer 2, early onsetAtaxia telangiectasia mutatedHeme oxygenase 1BCL2-associated X proteinBCL2-associated agonist of cell deathCaspase 9MutS homolog 2MutL homolog 1MutS homolog 6Checkpoint kinase 2Purine-nucleoside phosphorylaseE2F transcription factor 1Superoxide dismutase 2, mitochondrialBRCA1 DNA repair associatedBCL2 like 11BCL2 related protein A1BCL2 like 10HIC ZBTB transcriptional repressor 1Protein kinase, DNA-activated, catalytic subunitBCL2 family apoptosis regulator BOKERCC excision repair 6, chromatin remodeling factorPML nuclear body scaffoldBCL2 like 2TNF receptor superfamily member 1AInhibitor of nuclear factor kappa B kinase subunit epsilonATPase family AAA domain containing 5HtrA serine peptidase 2XPA, DNA damage recognition and repair factorMCL1 apoptosis regulator, BCL2 family memberMaelstrom spermatogenic transposon silencerSirtuin 1EPH receptor A2Cell death inducing DFFA like effector bPYD and CARD domain containingPost-GPI attachment to proteins 2Folliculin interacting protein 2Suppressor of tumorigenicity 20
P682
p73 is regulated by tyrosine kinase c-Abl in the apoptotic response to DNA damageSolution structure of the CIDE-N domain of CIDE-B and a model for CIDE-N/CIDE-N interactions in the DNA fragmentation pathway of apoptosisTumor suppressor HIC1 directly regulates SIRT1 to modulate p53-dependent DNA-damage responsesChk2 activates E2F-1 in response to DNA damageEphA2 is an essential mediator of UV radiation-induced apoptosis
P921
Q141591-0617733A-1F6D-4A48-BADA-BCAEA60434CAQ141591-59C92E66-62D1-4D9C-83FF-5533E1A766DFQ141591-DD4CE5AC-6561-45E2-A33F-A8B3704E1395Q14862232-DA4CC245-8908-499C-A9EE-DB38A531EA0EQ14863583-19F30803-CEDA-4C1C-B42F-EA4679316FA6Q14863583-DDF19F83-1426-440D-9C07-2B8AA1F540E2Q14864740-51377A0C-E87D-439F-954C-B5BE8C667FFFQ14872812-1FB016A8-A1A5-44F6-A7EC-94E4AF1C68B1Q14872812-B2F01A9A-CE0F-466B-936B-DF63E04E8736Q14882925-DD63C9A9-F41C-4348-B03C-02BA5A813C27Q14905404-068C98AF-5FD5-4882-A17E-862574AB5419Q14905404-8BB2C7DB-2933-47BA-AA87-D8826FF8F97AQ14907709-EEFEEE5C-47CB-45D9-914A-7D8C76EC657BQ14907717-B8C652CF-D3E4-4625-BAE4-B6A8D0613EC9Q14911693-24239E29-259C-45E1-89D4-7C51A9B71A90Q14911713-5C557D13-177B-4E87-9434-55FF3BBA10ADQ14911719-7F421E7D-0E25-4C4B-91B3-05C985EC96B5Q14911719-859BF99D-F6AA-4A89-B043-C81B4EE6A093Q14912285-8B6D0D67-57EC-4CC4-84B3-6CFC0D348E19Q14916514-20675264-B09B-44F8-9D97-3994C9E5DA15Q15333021-4400AE1C-1444-4ABD-8143-F39D73A732CBQ15335644-E1EED30A-86DF-454E-9BFB-A7595F37CC55Q17487737-42876C6B-01FB-4688-95EE-C704A76F97B7Q21100273-C793E2F9-3C3F-4B87-AE10-E39D867CF502Q21100281-C045A53B-498F-4020-B108-331262290C9AQ21100305-F9212B05-5340-4584-975B-C5E1A2A29A82Q21101953-7A2B97D2-E777-488C-928F-67E17D9E1DEFQ21105070-A651360C-9C69-4FAB-B671-D31313C88880Q21105070-D06A1058-0AAD-4447-BF3E-3FCD9AB3CC45Q21106726-825E40EB-2264-40B9-914B-511AE15AEE0FQ21106758-1B874A78-AC20-4133-B64C-3C6DF190679BQ21106974-3A467BB5-5DCC-48EC-9EA0-743971D698EDQ21106974-CBC8E4D5-EBA0-4A99-BE8F-139D7A66E1CBQ21109504-6D1FEDB6-6181-489F-87A5-DAD87D0420D2Q21110955-F98CEBBC-8EB8-4009-8065-6D38599F4E6AQ21111538-8B88F9A9-34E0-417E-82FB-6846A75790B4Q21111657-AF601615-7D34-455F-B795-9AB8270F4956Q21111681-E074F51F-FB0B-47B1-A0DF-2C2FB408992FQ21112332-6B38AD77-0DEC-4089-9AA5-1DFDE6F10042Q21112678-32F9D164-0A93-47C7-ACA0-D4C8B5BD1589
P682
intrinsic apoptotic signaling pathway in response to DNA damage
description
A series of molecular signals ...... ase of apoptosis is triggered.
@en
biologisch proces
@nl
name
intrinsic apoptotic signaling pathway in response to DNA damage
@en
type
label
intrinsic apoptotic signaling pathway in response to DNA damage
@en
altLabel
GO:0008630
@en
prefLabel
intrinsic apoptotic signaling pathway in response to DNA damage
@en
P2888
P686
GO:0008630