about
Nuclear receptor coactivator 2Nuclear receptor subfamily 0, group B, member 2General transcription factor IIBNucleoporin 62Nucleoporin 62Jumonji domain containing 1CAT-rich interaction domain 5AGrowth arrest specific 2 like 1Transforming acidic coiled-coil containing protein 1TATA-box binding protein associated factor 11Mediator complex subunit 30Thyroid hormone receptor associated protein 3Mediator complex subunit 12Thyroid hormone receptor interactor 6Mediator complex subunit 4Putative nuclear receptor corepressor 1-like protein NCOR1P1FUS RNA binding proteinMediator complex subunit 24Mediator complex subunit 17Mediator complex subunit 13Mediator complex subunit 16High mobility group nucleosomal binding domain 3Zinc finger HIT-type containing 32'-5'-oligoadenylate synthetase likeNuclear receptor binding SET domain protein 1TATA-box binding protein associated factor 7Protein arginine methyltransferase 2Thyroid hormone receptor interactor 12Nuclear receptor coactivator 6Mediator complex subunit 1Nuclear receptor corepressor 1Fused in sarcomaMediator complex subunit 4AT rich interactive domain 5A (MRF1-like)Growth arrest-specific 2 like 1Lysine demethylase and nuclear receptor corepressorProtein arginine N-methyltransferase 2Mediator complex subunit 1Mediator complex subunit 24Proteasome (prosome, macropain) 26S subunit, ATPase 3, interacting protein
P680
Identity between TRAP and SMCC complexes indicates novel pathways for the function of nuclear receptors and diverse mammalian activatorsHuman TAF(II)55 interacts with the vitamin D(3) and thyroid hormone receptors and with derivatives of the retinoid X receptor that have altered transactivation propertiesThe human transcription factor IID subunit human TATA-binding protein-associated factor 28 interacts in a ligand-reversible manner with the vitamin D(3) and thyroid hormone receptorsUnliganded thyroid hormone receptor alpha can target TATA-binding protein for transcriptional repressionThe TRAP220 component of a thyroid hormone receptor- associated protein (TRAP) coactivator complex interacts directly with nuclear receptors in a ligand-dependent fashionThe human TRIP6 gene encodes a LIM domain protein and maps to chromosome 7q22, a region associated with tumorigenesisTRAM-1, A novel 160-kDa thyroid hormone receptor activator molecule, exhibits distinct properties from steroid receptor coactivator-1p62, A TFIIH subunit, directly interacts with thyroid hormone receptor and enhances T3-mediated transcription
P921
Q14914596-650ED066-281B-4B97-ABA9-896E7C675FC1Q15312989-623AED45-86A5-4CFD-9EBF-C40591AEB2CBQ15316628-D5CE02D2-602A-4D1B-BC1F-97E93BC8C2EDQ15316702-7AA45998-6AF7-43F4-8EF3-1A1B01323F24Q15316702-B3792B06-702E-4884-ABD5-D498B2FCA6F7Q15316762-F691E744-4DB4-43C3-9335-5DFED30EEB42Q21097280-F7F44902-D4A7-47A9-9F8F-A2530905F4A2Q21097428-0C2A0EFD-3D15-428A-8AA3-A6064BFEF9FAQ21107543-88938BA2-B29D-4517-8F47-E0A2DCA1FE9BQ21110608-DCEC3EA6-E057-40BE-A52D-6285F3DE2128Q21111545-BEA67189-FC87-4E34-BD87-7C63E0912A65Q21114272-458E023A-353E-4093-876F-AF42AD24D2CBQ21116038-C2290805-F57F-4DED-8DFF-F0BFCD1E9004Q21116201-B33F5752-EA24-4A5B-9A6C-5985AB0F0DABQ21116252-6C9FD560-17D3-45D1-996A-3E76CB7493CEQ21116429-5C0D13BF-C561-4E29-862C-B8053582C765Q21117399-53EF664B-B975-4250-A98D-D4DAFA94321EQ21118098-69113CED-3EAA-475A-8995-B0C84A6021F1Q21118694-F4CBD21F-1479-4CBD-83EE-3BAD6E49949BQ21118703-B262EB78-B7C5-4355-892D-10035BC82DB7Q21118706-146C5F30-EEFA-4027-A10B-554AA408AAA1Q21118708-445D657F-0A02-4749-84F7-449ED4D5A3B3Q21119093-35AB9C30-823E-43D8-944E-81623AF2FE47Q21119614-EC8B49E3-F663-45F8-8F3B-53A5A76C72CDQ21121000-30747CA9-7FBF-4E79-A7CA-A6E2002B02D7Q21121755-08443B40-E4A1-4620-8339-03BCD8734C32Q21122838-D67F159B-BCE5-4965-AF1A-C8FDE43948A9Q21131670-661CE6F2-D466-441B-89F7-91121F39CFA8Q21133854-233D03F3-4E17-43FE-87A3-86687E6FCE78Q21154927-3AE3475E-1136-424B-B6E4-852F00E98618Q21173409-A20A33E8-9D73-481D-961A-87DC98A0D3D4Q21173409-BB8795F1-F081-4D3D-9F59-E86652F77C35Q21425039-9E8964F5-4CF7-409F-AF7C-4E0FDD5B20DBQ21425039-A22D94B4-AA91-4C5F-BA03-C3F3C8AE7ABBQ21495319-3901AEB3-D24A-4E88-A0BB-CE25617F7798Q21496595-4ABC02F2-DF9D-4EBA-8B12-8BDE6A2A60ECQ21496920-66507AB8-F874-4C89-A2E1-A8A9B9D3AA26Q21498515-59295875-C962-427C-8A6A-275F68F23A98Q21498548-1BA272B6-0791-4AC7-94FC-284AE91B643EQ21981678-019E77BD-9060-4B57-8025-3D9501A2559F
P680
Q22009365-DC22418F-576D-4B6E-8586-FC3E61125EE9Q22010399-E3DA5E6C-A616-448E-80D7-B49E4A939021Q22253412-81ED7216-5441-4709-A8F2-5D2FADB8E3D4Q24310721-E97B32FF-2322-494E-A94D-5E265ABE6C4BQ24312064-D9A1E670-ED88-437C-A623-5BBC46F6FE40Q24318876-BB360A39-9906-48E3-9F71-62888683A410Q24321891-6118E6BE-03F6-4D37-875A-83F801AD9B88Q24337068-265D82D1-9787-41E9-ABFB-F7FD0638A43C
P921
description
Interacting selectively and non-covalently with a thyroid hormone receptor.
@en
moleculaire functie
@nl
name
thyroid hormone receptor binding
@en
甲状腺ホルモン結合
@ja
type
label
thyroid hormone receptor binding
@en
甲状腺ホルモン結合
@ja
altLabel
GO:0046966
@en
prefLabel
thyroid hormone receptor binding
@en
甲状腺ホルモン結合
@ja
P1269
P2888
P686
GO:0046966