about
P361
Peroxisome proliferator activated receptor gammaATM serine/threonine kinaseSolute carrier family 6 (neurotransmitter transporter, serotonin), member 4Keratin 13Ataxia telangiectasia mutatedCollagen, type I, alpha 1Brachyury, T-box transcription factor TNeurotrophic tyrosine kinase, receptor, type 3Aquaporin 1TEA domain family member 2LYN proto-oncogene, Src family tyrosine kinaseMyogeninAquaporin 1YES proto-oncogene 1, Src family tyrosine kinaseATPase Na+/K+ transporting subunit alpha 3EPH receptor A3Protein tyrosine kinase 2 betaAldehyde dehydrogenase 1 family member A2NADH dehydrogenase [ubiquinone] 1 alpha subcomplex subunit 13ABL proto-oncogene 2, non-receptor tyrosine kinaseProhibitin 2Protein tyrosine kinase 7 (inactive)Homeobox A2Yes1 associated transcriptional regulatorSmall nuclear ribonucleoprotein U1 subunit 70MYB proto-oncogene, transcription factorBMP/retinoic acid inducible neural specific 1BMP/retinoic acid inducible neural specific 3BMP/retinoic acid inducible neural specific 2Cytochrome P450 family 26 subfamily B member 1Serpin family F member 1HtrA serine peptidase 2TescalcinADNP homeobox 2Gap junction protein beta 3Kruppel like factor 4SNW domain containing 1Protein tyrosine kinase 6ATP binding cassette subfamily A member 1Frizzled class receptor 7
P682
Up- or downregulation of tescalcin in HL-60 cells is associated with their differentiation to either granulocytic or macrophage-like lineageGRIM-19 associates with the serine protease HtrA2 for promoting cell deathInduction of human aquaporin-1 gene by retinoic acid in human erythroleukemia HEL cellsExpression of zinc finger protein 105 in the testis and its role in male fertilitySenataxin modulates neurite growth through fibroblast growth factor 8 signallingExpression of WNT7A in human normal tissues and cancer, and regulation of WNT7A and WNT7B in human cancerRAR agonists stimulate SOX9 gene expression in breast cancer cell lines: evidence for a role in retinoid-mediated growth inhibitionRegulation of WNT signaling molecules by retinoic acid during neuronal differentiation in NT2 cells: threshold model of WNT action (review)Reciprocal roles of SIRT1 and SKIP in the regulation of RAR activity: implication in the retinoic acid-induced neuronal differentiation of P19 cellsMEK/ERK pathway mediates UVB-induced AQP1 downregulation and water permeability impairment in human retinal pigment epithelial cells
P921
Q1084878-83FB4D14-ADA3-48A1-A77B-CCE9DA0491D7Q141591-10D62068-A7D1-473C-B239-646AAEA0D57BQ141591-58801CA0-2148-4AEB-AB16-2A777F9DE260Q14860827-4E318528-624D-4E63-8FA5-24B6743A34F8Q14864181-CC078844-6B4D-4ADE-A4BF-1B87BA0A2FCEQ14872812-343C7B5A-E629-491A-9C02-0473E1156F83Q14881727-9633525F-48E9-4A46-B4E2-5E4F8E1C4AD1Q14885923-A736342D-D7CC-4E68-A0B0-D3030D9ED01AQ14901301-D77B725F-B405-42E2-92B4-17995E9A2022Q14905246-F7F1154B-6BFD-4A8E-B686-92D6AE449D2FQ15330266-367715D1-4E58-4E76-988E-D46ADE44BDB0Q15331919-AAC3FF90-4D92-4DFB-96D6-077E4DCFA4A4Q166726-E24E39E0-8F2F-4202-BDF3-808D31094E07Q2083074-0304753A-05DA-4542-B8C3-5D597FA2C044Q21097216-350C7067-7269-4165-A6DD-5BEBADE9052CQ21097506-9383DB86-4561-4DE9-98A4-65E5FA4E1C16Q21101176-22A93B36-32A9-4691-BD1D-48EFD2F52BCEQ21101275-34A3884F-0896-43F8-B933-433DDAEDAB25Q21101831-D4A4BA24-5B7D-4B31-A9FA-1A773A939BD4Q21103360-0D9065EF-A2D6-4047-B613-B387A6698D47Q21104796-A5E0C1EF-BF56-45AD-9BF1-6C7DE197081CQ21107313-A36B3F9C-F641-45AB-B414-A7BD01F39812Q21108490-41D69DF6-F6B5-4C43-A9C9-4F96F9AD97B5Q21108726-95B393B8-FEC7-4FA0-9CE3-9DCBD6914023Q21109257-4B0704C3-3F42-4338-9D5D-9E112C86EBA2Q21109788-46621AB6-84FD-49AE-99DA-A0FC6CFC8DD2Q21109790-9BB0A9BE-8B8C-4316-B0F0-D0EAC12A971CQ21110478-56ACDE44-A297-4953-B60A-74B2BF69CE23Q21110484-BE985ABD-B778-4945-8F20-88E8126FC89AQ21110493-A6EA7AAB-6CCE-43EC-B867-EA9EF3042AFDQ21110764-B2C6EDF5-8946-4231-89B8-7A3732314293Q21110882-F55B8E08-18F0-4233-B1A0-696B5A522FEAQ21111681-C8A90F9B-976E-41AB-828C-6C6AA25EA71BQ21111929-91A563D9-695D-4AFC-8D54-4AD8E807FA1DQ21112537-54DCA59F-F628-410F-9790-334F02D2D486Q21113099-2AD7D186-031F-422C-BE21-41D2850A7090Q21114206-F5BB49E8-2D99-48BC-9583-30B1E28A862BQ21114222-94E00957-AD9F-408D-AC92-A5EE2F498A83Q21114361-36B8A28A-213A-402D-A45B-1D91C9E8DC30Q21115210-20D49AF2-4634-4ECA-9E65-A812CC42236B
P682
Q24294482-93E89A5B-75D1-4C63-86BE-9BB4920798EEQ24297053-36012C41-44DA-4864-886F-85C185AB98C6Q24299111-ABAC3D3D-EBA5-4E26-A449-907A5A40BB89Q24301145-7CA2BC37-BF3B-413A-A737-511264781CA8Q24303338-6ED51663-B75D-4BB7-9AB9-AC92B73579E9Q24307264-54F53534-BA58-43FD-B2EE-D2F7754E64B1Q24316899-8790E091-655D-4F50-BFE1-0E1DCDAC59C7Q24318321-D2090A33-2BBA-4DEA-B6D6-04B37D5D35DFQ24320197-E3C7A6A5-804F-49D7-A948-30B75664C7CDQ24323209-2E4F7249-496F-41CC-9376-FBFB7EA5D38B
P921
description
Any process that results in a ...... t of a retinoic acid stimulus.
@en
biologisch proces
@nl
name
cellular response to retinoic acid
@en
type
label
cellular response to retinoic acid
@en
altLabel
GO:0071300
@en
cellular response to vitamin A acid
@en
prefLabel
cellular response to retinoic acid
@en
P279
P279
P2888
P527
P686
GO:0071300