about
Regulation of androgen receptor transcriptional activity and specificity by RNF6-induced ubiquitinationPost-translational modifications of the progesterone receptorsp21-Activated kinase 6 (PAK6) inhibits prostate cancer growth via phosphorylation of androgen receptor and tumorigenic E3 ligase murine double minute-2 (Mdm2)Regulation of estrogen receptor α N-terminus conformation and function by peptidyl prolyl isomerase Pin1SUMO-specific protease 1 (SENP1) reverses the hormone-augmented SUMOylation of androgen receptor and modulates gene responses in prostate cancer cells.Acquisition of sexual receptivity: roles of chromatin acetylation, estrogen receptor-alpha, and ovarian hormones.Proteomic analysis of the androgen receptor via MS-compatible purification of biotinylated protein on streptavidin resin.Crosstalk in inflammation: the interplay of glucocorticoid receptor-based mechanisms and kinases and phosphatasesSeasonal changes in androgen receptor mRNA in the brain of the white-crowned sparrow.Progesterone receptor isoform functions in normal breast development and breast cancerThe progesterone receptor hinge region regulates the kinetics of transcriptional responses through acetylation, phosphorylation, and nuclear retention.Exploiting Epigenetic Alterations in Prostate Cancer.Partners in crime: deregulation of AR activity and androgen synthesis in prostate cancerBinding of the ERalpha nuclear receptor to DNA is coupled to proton uptake.Phosphorylation of the mutant K303R estrogen receptor alpha at serine 305 affects aromatase inhibitor sensitivityEnhanced paracrine FGF10 expression promotes formation of multifocal prostate adenocarcinoma and an increase in epithelial androgen receptorControl of progesterone receptor transcriptional synergy by SUMOylation and deSUMOylation.Tracking progesterone receptor-mediated actions in breast cancerEstrogen receptor α/β-cofactor motif interactions; interplay of tyrosine 537/488 phosphorylation and LXXLL motifs.Manipulating protein acetylation in breast cancer: a promising approach in combination with hormonal therapies?Androgen receptor signaling and mutations in prostate cancerThe phosphorylation of the androgen receptor by TFIIH directs the ubiquitin/proteasome process.Lysine methylation and functional modulation of androgen receptor by Set9 methyltransferaseAcetylation-mediated epigenetic regulation of glucocorticoid receptor activity: circadian rhythm-associated alterations of glucocorticoid actions in target tissuesRetinoid-related orphan receptors (RORs): critical roles in development, immunity, circadian rhythm, and cellular metabolismEstrogen receptor alpha and nuclear factor Y coordinately regulate the transcription of the SUMO-conjugating UBC9 gene in MCF-7 breast cancer cells.Reciprocal roles of DBC1 and SIRT1 in regulating estrogen receptor α activity and co-activator synergy.Structural and functional analysis of domains of the progesterone receptor.Metformin inhibits nuclear receptor TR4-mediated hepatic stearoyl-CoA desaturase 1 gene expression with altered insulin sensitivity.Kinases and protein phosphorylation as regulators of steroid hormone actionPhosphorylation of human estrogen receptor-beta at serine 105 inhibits breast cancer cell migration and invasion.Estrogen receptor-beta and breast cancer: translating biology into clinical practiceNicotinamide uncouples hormone-dependent chromatin remodeling from transcription complex assemblyDynamics of coactivator recruitment and chromatin modifications during nuclear receptor mediated transcriptionMicroRNAs and Glucocorticoid-Induced Apoptosis in Lymphoid MalignanciesAge-related differences in cardiac ischemia-reperfusion injury: effects of estrogen deficiency.Decreased recognition of SUMO-sensitive target genes following modification of SF-1 (NR5A1).Glycogen synthase kinase 3beta-mediated serine phosphorylation of the human glucocorticoid receptor redirects gene expression profiles.Do Estrogen Receptor beta Polymorphisms Play A Role in the Pharmacogenetics of Estrogen Signaling?Synergistic Action of Flavonoids, Baicalein, and Daidzein in Estrogenic and Neuroprotective Effects: A Development of Potential Health Products and Therapeutic Drugs against Alzheimer's Disease.
P2860
Q24312829-3B436820-8B46-41F2-919F-B2AA35C9F835Q27010251-BDCFDEA6-2F89-4B2F-9EEC-F571417C1F65Q28278797-D45AAAF4-56BC-43A4-8D59-ACA911B0149EQ28569016-CC98146A-62E7-4A3D-BD39-A496645E9629Q30352713-7BE5B669-80C6-44A4-AB27-19CCE9252FDFQ30425720-2D645951-8F33-4E8C-97E4-BEDBD8A5BFB1Q30532187-363E61E9-8501-42D4-B873-E0E94182ADCAQ33636430-9A1455A8-A4BC-4815-96AF-FE7241372E82Q33665655-2B37E6D6-3A1B-43C5-AE7A-21F49EC8C278Q33693898-1685A7F4-ED7C-444C-B3BE-307974901810Q33699615-43084DA5-02E3-4EA4-BF00-6962EE6FCAECQ33755160-D03E26D0-6553-4B85-AB60-85068CD81D8FQ33823702-5B239A15-A8E8-4A07-8620-96EEB01169C1Q34029522-796DB4FC-C1D7-4017-8E1E-1A7306AE34B8Q34070890-EB55AF26-12DF-4517-9E1D-5EB83F78C376Q34097585-8BAD29EB-59A2-4911-85BD-5FAA42E4D906Q34206915-C95D73E6-B2EB-4273-86D0-B80961FF419DQ34388848-C21233E0-A3DC-409D-AD33-563D5268D592Q34396913-261FD9D8-376A-46CD-9E54-8F7C478167A6Q34417159-54160BBE-CF12-4CAB-9E0D-6B031F9CAE94Q34425907-D8C3A3C2-7854-41E8-8208-5E94D3889D9DQ34553592-553D8E3D-2E9F-41A4-B8B6-0536B143E2CEQ34609949-DF59F33B-ADEA-4869-9F82-B428440D72D3Q34671957-79A81C26-6511-4EE2-83AD-C07B5F67F476Q34976906-2D2784D4-F377-4D85-813F-3AF3C67EC3E7Q35005904-90613BFE-03AD-4BD3-803D-2A9D27AB8172Q35198394-0306892D-AD9B-407E-9B4E-4A88FAF7308AQ35624126-FF996096-CFE5-4208-999B-5871464B41ACQ35796984-1EA23766-FFB7-4859-9F28-60AC6D5BEFF8Q35809009-C7AE7863-CAFF-4EF1-9B32-794C70830E2AQ35946502-17613AAB-E4D7-44B4-B274-7B72D807C42AQ35973424-4E5EA8CF-A883-4A47-A26C-65771824FBD8Q36421112-C14C5E08-4ED9-4E94-818C-FC1C851BCD80Q36444514-07EBEDEC-30BC-4269-BA9B-FA6472E9B51BQ36602853-F64506CC-03AA-4158-822A-0B1DB868C76EQ36844120-A5347BBC-7CE5-4E5B-9410-62E19EA57840Q36994911-C5FB89EC-BAF8-4209-8CFB-98F804B3651DQ36994922-C5C27117-62EB-4D33-9077-CA8D760FC992Q37143825-23151364-2A15-4769-9338-25A76879A4B5Q37154866-6BB7CEF4-9FB1-4829-BD5D-E41907FE8367
P2860
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
Post-translational modifications of steroid receptors.
@ast
Post-translational modifications of steroid receptors.
@en
type
label
Post-translational modifications of steroid receptors.
@ast
Post-translational modifications of steroid receptors.
@en
prefLabel
Post-translational modifications of steroid receptors.
@ast
Post-translational modifications of steroid receptors.
@en
P1476
Post-translational modifications of steroid receptors.
@en
P2093
P304
P356
10.1016/J.BIOPHA.2006.07.082
P577
2006-08-28T00:00:00Z