about
P361
Interleukin 10Myogenic differentiation 1Interleukin 6UDP glucuronosyltransferase 1 family, polypeptide A1Estrogen receptor 1 (alpha)MyogeninIntegrin alpha 2Receptor (calcitonin) activity modifying protein 3Ectonucleotide pyrophosphatase/phosphodiesterase 2ATP-binding cassette, sub-family B (MDR/TAP), member 4Matrix metallopeptidase 2Estrogen receptor 2 (beta)MyogeninBCL2 like 11RuvB like AAA ATPase 2Kinesin family member 18AMsh homeobox 2BCL2 like 2Cyclin A2Family with sequence similarity 210 member BCorticotropin releasing hormone binding proteinH2A.Z variant histone 1Nuclear receptor interacting protein 1Lysine acetyltransferase 5Coiled-coil domain containing 62DEAD-box helicase 18Heat shock transcription factor 1Apoptosis inducing factor mitochondria associated 1DEAD (Asp-Glu-Ala-Asp) box polypeptide 18, isoform CRA_bPPARG coactivator 1 alphaHeterogeneous nuclear ribonucleoprotein DSomatostatin receptor 3Steroid 5 alpha-reductase 1Somatostatin receptor 2POU class 4 homeobox 1POU class 4 homeobox 2Somatostatin receptor 1CASP8 and FADD like apoptosis regulatorZinc finger protein 703Nuclear receptor coactivator 3
P682
G-1-activated membrane estrogen receptors mediate increased contractility of the human myometriumFunctional genomics identifies a mechanism for estrogen activation of the retinoic acid receptor alpha1 gene in breast cancer cellsDown-modulation of the G-protein-coupled estrogen receptor, GPER, from the cell surface occurs via a trans-Golgi-proteasome pathwayG-protein coupled receptor 30 (GPR30): a novel regulator of endothelial inflammationIdentity of an estrogen membrane receptor coupled to a G protein in human breast cancer cellsG protein-coupled estrogen receptor 1/G protein-coupled receptor 30 localizes in the plasma membrane and traffics intracellularly on cytokeratin intermediate filamentsNuclear alternate estrogen receptor GPR30 mediates 17beta-estradiol-induced gene expression and migration in breast cancer-associated fibroblastsERAP75 functions as a coactivator to enhance estrogen receptor alpha transactivation in prostate stromal cellsIdentification of a novel putative mitochondrial protein FAM210B associated with erythroid differentiation.
P921
Q14864467-76724BEA-4BE8-4CC1-A85B-645E3F5DD609Q14864495-60182AFF-8BE8-433A-8CE5-BE0B096FE74BQ14865240-25087551-4055-467D-8FCD-6EB0A97CEAD8Q14901447-6FABE47F-737A-4B3E-A10D-97F4F85A16B3Q14902317-BC6A17FA-5838-4B8A-8687-47D5FF41F513Q14906388-CBBEDE27-D32F-4D05-B240-8769765F0B3FQ14912138-7FB9B028-4AC8-45DF-BE1F-B133ED649615Q14913758-CF0CB561-A094-4AA5-9037-CD226844BAE1Q14913999-6B696A6C-2BEC-4DDB-86E9-B746CC51418CQ15315987-589C33F0-FE9A-4B16-BF5C-EBF6A30DA30CQ15327944-1AC0DFCD-3A2E-4B92-A039-9CA9D5401F3BQ15329166-0325CC3D-86A3-4D6F-8F6E-032F6056D183Q166726-F68A75AB-1CF5-4C87-9917-16B38C706213Q21100273-3C480F22-9A40-44A9-8640-D58E5BC2FBF5Q21102282-FAB43751-A0B3-4D69-88FA-B86B582A5A1EQ21105233-FFFD7EB3-F6BE-4304-9F73-FAC310B21E9DQ21108071-88F7CB64-965C-4FAE-9D09-E4E344FF0351Q21109504-777EDEA8-9E3A-4503-BBC7-6A428468558DQ21109659-4780815F-4847-4A13-BF6C-CE28FDFAA05BQ21110264-90E3E2F6-82CF-4212-8789-0426F29E3AD5Q21110775-1EB4320A-BDB3-4C54-BD1E-C9DF0E3619FBQ21110980-0D3D5767-8C54-4693-B183-0E8E95E70095Q21111465-882C95D5-20C8-43B8-B6D1-3C189F72CF94Q21111465-E6FC0CD4-E736-41C6-B8EA-AA3C424B7F56Q21112551-435BABF1-6066-4849-AF5D-B513DEE1C139Q21112982-CF78C8B6-B755-4417-9D58-02C6F32EC40DQ21115737-98661191-7C29-47D1-A2A2-77649C288F83Q21116003-6F707E2F-3E1E-47AB-AED1-917C886712FDQ21116445-0C1FD9D7-75B2-43FE-9FC8-9463552771F0Q21117526-29FB3B18-7912-4870-A166-1810C1A874F6Q21118081-020102BF-8BB1-403F-8BAA-89B9E7058B6EQ21119110-DE463F5E-7235-4ED5-94E2-12D05189CB4BQ21119483-3FF2812D-09B9-4164-A7A2-3F030092AF44Q21124444-84E06AA4-9A3B-483F-B046-32BD3DAD61A6Q21126787-B80C7F63-EF86-4884-B271-874D09E99B37Q21134893-F74DCAF2-0BA0-4D1A-BF1A-CD11B3572DFBQ21134896-6D2FBADA-40F1-4B41-B0B7-06109F03DDAEQ21136198-CA6405A0-2E0B-4053-A0A1-34CE6623991BQ21151736-242DDD52-6807-47D0-8BCD-63D1B3066AD3Q21159956-E950CBA5-7697-4B23-A11A-D2DB12EE3131
P682
Q24297977-A7560E9C-1472-4314-AB5D-34564BDC294EQ24300107-ED873FE8-10F2-4FB3-8721-B9D57F6A5EFAQ24301356-DE0E5856-8883-4FE0-911B-C7FFC5FB95AAQ24307603-118A423B-ADC8-4301-9964-C6A6C6FB217FQ24314404-DCABCC3E-5DE5-404A-B4C3-03471CFC363CQ24315789-8B1CABB0-C8FC-4D84-B126-D71B6345A247Q24321571-C0C7F5E5-F507-4EDD-A342-3DC4E5D9E7E1Q28115023-07F0DCBC-16B3-4F43-98CB-53408A4E523DQ38787039-495A6A9C-05FA-4E2A-A2E5-C1BCED6C17E2
P921
description
Any process that results in a ...... C3 and C17 that acts as a pote
@en
biologisch proces
@nl
name
cellular response to estradiol stimulus
@en
type
label
cellular response to estradiol stimulus
@en
altLabel
GO:0071392
@en
cellular response to E2 stimulus
@en
prefLabel
cellular response to estradiol stimulus
@en
P279
P279
P2888
P527
P686
GO:0071392