about
5-methyltetrahydrofolate-homocysteine methyltransferaseAquaporin 1TNF receptor-associated factor 2Aquaporin 1Forkhead box O1CRK proto-oncogene, adaptor proteinPotassium voltage-gated channel subfamily C member 2Cyclin A2Guanylate cyclase 1 soluble subunit beta 1Matrix metallopeptidase 3Apoptosis inducing factor mitochondria associated 1Dynamin 2Metallothionein 3Heterogeneous nuclear ribonucleoprotein DCASP8 and FADD like apoptosis regulatorDynamin 2Apoptosis-inducing factor, mitochondrion-associated 1CASP8 and FADD-like apoptosis regulatorGuanylate cyclase 1, soluble, beta 1Forkhead box O1Cyclin A2Signaling protein PA3311Signaling protein PA1727Mitogen-activated protein kinase 8V-crk avian sarcoma virus CT10 oncogene homologDipeptidase 1Heterogeneous nuclear ribonucleoprotein DPotassium voltage gated channel, Shaw-related subfamily, member 2Breast cancer anti-estrogen resistance 1Metallothionein 3Thrombospondin-15-methyltetrahydrofolate-homocysteine methyltransferaseDipeptidase 1Forkhead box O1Potassium voltage-gated channel subfamily C member 2Apoptosis inducing factor, mitochondria associated 1C-reactive proteinCRK proto-oncogene, adaptor proteinMetallothionein 3Surfactant protein B
P682
Cdk2 nitrosylation and loss of mitochondrial potential mediate NO-dependent biphasic effect on HL-60 cell cycleSingle amino acids in the carboxyl terminal domain of aquaporin-1 contribute to cGMP-dependent ion channel activationThe effect of nitric oxide on metal release from metallothionein-3: gradual unfolding of the protein
P921
Q14876926-963F886D-7F7B-42CC-91FB-A36F77E23A25Q14905246-F6D21D0A-0E71-4AB3-B193-FA1E9E1387CCQ14914363-3AD61694-CCC8-40B5-A8DA-CD800FD69AA2Q2083074-12D46395-7A64-4462-B3F7-0F8C3F18F443Q21102210-E35A5097-5B9E-41E4-BBC1-73CDCD1B4FBAQ21104797-C19144D0-4049-439D-BA50-ED7B2A1C565CQ21107889-CB3C3C93-E54F-4056-99C8-9C0E785F44C9Q21109659-869CF5C4-0168-4F83-96EA-633720ADB636Q21110359-028F8A23-CA65-473C-B0FF-C640F0C6A7DFQ21114943-2CB65B1E-DEA8-464C-BA95-17BAC665BC66Q21116445-F5E85B13-3761-44AF-9E5A-0E2DFD8DA438Q21116465-6EB0F778-4B76-4A15-A552-7DE5DDB0917EQ21118811-7C660A3D-3D67-4A9F-AD79-C270CB2FC3C3Q21119110-F1818C9E-4E16-44C0-B1F6-2F6763232F9AQ21151736-1099A322-9613-485C-8F26-CA79DE8EA4D6Q21493867-1E00ACD1-B6A9-475A-A349-6D6B0147165AQ21494811-FA8AA5F9-C093-4087-B5CF-A803157C6F8AQ21495069-3BB21339-2967-4B9A-A193-EECCAE85D2F4Q21495751-D1CAE146-D93A-48B5-A96F-C27F788C80B4Q21496900-1A41E2AA-5B9E-45D7-B4BD-5D92A7930B18Q21499230-5E78D59A-01C6-4CCE-BB21-F8E4A2DC8320Q21761721-7B51B183-B801-475C-A521-A49B1FAA3968Q21763058-0940F917-462D-4386-A7D6-7DE02BDA0950Q21979980-0241C327-A913-4D91-B49B-34C06B6AF4F3Q21981296-2F7B9BE4-2104-4841-ADAF-83C3D1AB90A9Q21981546-90C47D8A-4953-414A-89E1-3C4F9BED2D2AQ21984493-F466F03F-A669-48FD-8B45-D68B249B1F4AQ21984558-9D88D9B0-6989-4CEF-86FD-9424A0D40676Q21984738-D2755593-99ED-41ED-9AA9-0B61B654AAD6Q21987727-218D2766-C9D5-4B76-97A4-E02BE1F9C386Q21992233-BED131C9-F293-44AB-B9E8-17C2C8202DA7Q2737583-91AFB8DD-6996-4873-BE52-CBABE1F4B605Q28556153-89DBA41A-FAEC-4490-83D5-63026F023A56Q28556614-7DA15425-FBAA-4BF2-902E-41FC8566E6F4Q28557137-884AED69-EA93-4DCA-9066-7040A54C4964Q28557880-51A6ADD4-BBA5-4F28-A296-E29EB4AB36B1Q28558095-39984C13-625B-4327-91E2-74EA57DF4E1DQ28558126-B47D5724-0420-4AB6-8259-14A17C972A95Q28559089-5E1E74D4-3BFF-41FD-A50D-5C0AF93C10A0Q28559631-59C6AB0B-D97D-4679-BA98-15198E4C3B24
P682
description
Any process that results in a ...... lt of a nitric oxide stimulus.
@en
biologisch proces
@nl
name
cellular response to nitric oxide
@en
type
label
cellular response to nitric oxide
@en
altLabel
GO:0071732
@en
prefLabel
cellular response to nitric oxide
@en
P279
P279
P2888
P686
GO:0071732