about
P688
Cooperative demethylation by JMJD2C and LSD1 promotes androgen receptor-dependent gene expressionAndrogen receptor interactions with Oct-1 and Brn-1 are physically and functionally distinctNovel ATPase of SNF2-like protein family interacts with androgen receptor and modulates androgen-dependent transcriptionModulation of the expression and transactivation of androgen receptor by the basic helix-loop-helix transcription factor Pod-1 through recruitment of histone deacetylase 1A novel function of caspase-8 in the regulation of androgen-receptor-driven gene expressionOpposite effects of alternative TZF spliced variants on androgen receptorX-linked gene for testicular feminization in the mouseDefective survival of proliferating Sertoli cells and androgen receptor function in a mouse model of the ATR-X syndromeProstatic intraepithelial neoplasia in mice expressing an androgen receptor transgene in prostate epitheliumDyrk1A potentiates steroid hormone-induced transcription via the chromatin remodeling factor Arip4Liver-derived IGF1 enhances the androgenic response in prostatePhosphorylation-dependent ubiquitylation and degradation of androgen receptor by Akt require Mdm2 E3 ligaseIncreased prostate cell proliferation and loss of cell differentiation in mice lacking prostate epithelial androgen receptorA type I DnaJ homolog, DjA1, regulates androgen receptor signaling and spermatogenesisTargeted disruption of the mouse prosaposin gene affects the development of the prostate gland and other male reproductive organsFGF-10 plays an essential role in the growth of the fetal prostateGenetic interactions of the androgen and Wnt/beta-catenin pathways for the masculinization of external genitaliaTargeted disruption of the Insl3 gene causes bilateral cryptorchidismElevated androgens and prolactin in aromatase-deficient mice cause enlargement, but not malignancy, of the prostate glandMultifunction steroid receptor coactivator, E6-associated protein, is involved in development of the prostate glandDisruption of prostate epithelial androgen receptor impedes prostate lobe-specific growth and functionSertoli cell androgen receptor DNA binding domain is essential for the completion of spermatogenesisARID4A and ARID4B regulate male fertility, a functional link to the AR and RB pathwaysAltered expression of genes involved in regulation of vitamin A metabolism, solute transportation, and cytoskeletal function in the androgen-insensitive tfm mouse testisAbnormal mammary gland development and growth retardation in female mice and MCF7 breast cancer cells lacking androgen receptorAndrogen receptor corepressor-19 kDa (ARR19), a leucine-rich protein that represses the transcriptional activity of androgen receptor through recruitment of histone deacetylaseGAC63, a GRIP1-dependent nuclear receptor coactivatorAndrogen regulation of gene expression in primary epithelial cells of the mouse kidneyDynamics of ovarian development in the FORKO immature mouse: structural and functional implications for ovarian reserveId4 deficiency attenuates prostate development and promotes PIN-like lesions by regulating androgen receptor activity and expression of NKX3.1 and PTENSpermatogenesis and sertoli cell activity in mice lacking sertoli cell receptors for follicle-stimulating hormone and androgenEssential role for Co-chaperone Fkbp52 but not Fkbp51 in androgen receptor-mediated signaling and physiologyTargeted inactivation of the androgen receptor gene in murine proximal epididymis causes epithelial hypotrophy and obstructive azoospermiaIdentification and characterization of a novel thymus aging related protein Rwdd1Rhox8 Ablation in the Sertoli Cells Using a Tissue-Specific RNAi Approach Results in Impaired Male Fertility in Mice.Circadian repressors CRY1 and CRY2 broadly interact with nuclear receptors and modulate transcriptional activity.
P921
Q24295287-86A230B9-3D59-4C41-9502-19B646F3DDB9Q24296896-52AEB942-FA86-40AF-9997-CC1CD3D03E7BQ24299539-11987291-904D-4D43-9E8C-7DFA14520A11Q24303847-8CE2C384-4D1C-4F6F-8C6C-9C69933F9245Q24336995-9A68CB8B-FA3E-474E-9693-751DA6CD8652Q28294573-B11D72CA-384D-4445-93AA-723BDF4E4276Q28506841-D4BC17C5-9AE5-47CF-9ACC-4E6DEA9A79A7Q28508472-C2D2FFF3-B468-4796-88FC-B69BA26611B8Q28508802-D76F57E3-FEDE-4985-B48B-36F20414FB0EQ28510482-5737AAA0-D8DB-4A81-AC72-09D5BE7335B7Q28511248-1F86DB31-F322-42F1-8D9D-0E037BCB7364Q28511501-763C63D7-9345-443B-83BD-0085074C2FEAQ28512229-78A43FDF-2D21-46E1-B382-2583690EBB51Q28513049-CE15EF32-8458-4AC4-B03B-00D8B7F507C4Q28513106-079545B9-72FF-4D8E-9AC2-D372EB357BF7Q28513689-08A0D3D0-849F-4778-A505-674DEB26E377Q28586527-E09CAB8E-9C3B-4617-A281-5A235920FDB4Q28586593-8A39A843-9E4E-43C7-B769-685CA43525C3Q28587030-3ACAF67C-4448-4D11-9C61-BD1004BDB48EQ28587291-0F94DDA0-8F86-4449-A450-3AF81CD90C6EQ28587623-99E5EA27-50C8-404F-8879-6B10695ED84EQ28587779-8A2947DC-94F3-4270-B14D-E5F6A327D772Q28588957-666EFC63-F10A-4A9B-AFB1-1094F5F82FF3Q28589343-B77F74B4-A3C1-4733-9D3A-433129BF4CDAQ28589534-F7E00C55-0A65-41E8-8877-B89E2546194BQ28589586-5E4DB48A-DB8B-49A6-80C0-03C3F3B7BE90Q28589886-A7F177F5-F9DE-483F-9E04-E1A346383A55Q28591331-72BDC04A-AD02-4743-B8B9-D99A0C916791Q28591771-EB138094-5F6B-458B-A66E-4BD37F62E0E4Q28592943-08114F09-5C3D-413F-A494-CEE92AEE8103Q28593245-C091768F-1905-4A6F-8061-9BBB758610D2Q28593880-5CA9ACD0-07D3-47A2-AD88-BF298E11A2E1Q28594963-A5DBE6E5-8981-4905-9027-ECE038E1216BQ28910186-D501900E-860C-4FB8-80B2-28C9E88CCCD9Q36445210-766AFA19-0D40-4EF7-9BC2-7EC7E6DB0FBFQ46677190-8E9951B6-A920-4500-8A6E-367451DEFB40
P921
description
mammalian protein found in Mus musculus
@en
protein
@id
protein
@sv
proteinë
@sq
proteïne in Androgen receptor
@nl
protèin
@ace
protéine
@fr
بروتين في فأر المنازل
@ar
name
Androgen receptor
@en
type
label
Androgen receptor
@en
altLabel
Ar
@en
androgen receptor
@en
dihydrotestosterone receptor
@en
nuclear receptor subfamily 3 group C member 4
@en
testicular feminization
@en
prefLabel
Androgen receptor
@en
P361
P680
P681
P682
P352
P637
P638
P279
P31
P352
P637
P680
P681
P682
P702
P703
P705
ENSMUSP00000052648