scholarly article | Q13442814 |
P50 | author | Markku Varjosalo | Q28468917 |
Helka Göös | Q58849034 | ||
Einari A Niskanen | Q91636433 | ||
P2093 | author name string | Jorma J Palvimo | |
Joanna K Lempiäinen | |||
Kaisa-Mari Vuoti | |||
Riikka E Lampinen | |||
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Emerging mechanisms of resistance to androgen receptor inhibitors in prostate cancer | Q26777310 | ||
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Mice deficient in the steroid receptor co-activator 1 (SRC-1) are resistant to thyroid hormone | Q28141494 | ||
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Tip60 and histone deacetylase 1 regulate androgen receptor activity through changes to the acetylation status of the receptor | Q28216750 | ||
RU486-induced glucocorticoid receptor agonism is controlled by the receptor N terminus and by corepressor binding | Q28217579 | ||
Analysis of the functional role of steroid receptor coactivator-1 in ligand-induced transactivation by thyroid hormone receptor | Q28239721 | ||
An essential switch in subunit composition of a chromatin remodeling complex during neural development | Q28585238 | ||
Identification of novel co-repressor molecules for Interferon Regulatory Factor-2 | Q28589914 | ||
Groucho/TLE family proteins and transcriptional repression | Q28609075 | ||
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Determinants of Receptor- and Tissue-Specific Actions in Androgen Signaling | Q38520030 | ||
Cofactor squelching: Artifact or fact? | Q38858540 | ||
SUMO ligase PIAS1 functions as a target gene selective androgen receptor coregulator on prostate cancer cell chromatin. | Q38924091 | ||
Lysine-specific demethylase 1 has dual functions as a major regulator of androgen receptor transcriptional activity. | Q38931537 | ||
Visualizing the Architectures and Interactions of Nuclear Receptors | Q38972663 | ||
SUMOylation modulates the transcriptional activity of androgen receptor in a target gene and pathway selective manner. | Q38979379 | ||
Glucocorticoid receptor control of transcription: precision and plasticity via allostery. | Q39067636 | ||
Endogenous purification reveals GREB1 as a key estrogen receptor regulatory factor | Q39195669 | ||
FoxA1 specifies unique androgen and glucocorticoid receptor binding events in prostate cancer cells. | Q39220548 | ||
Prostaglandin 15d-PGJ(2) inhibits androgen receptor signaling in prostate cancer cells. | Q39236149 | ||
Repression of interleukin-5 transcription by the glucocorticoid receptor targets GATA3 signaling and involves histone deacetylase recruitment | Q39368352 | ||
Analysis of androgen receptor SUMOylation | Q39499470 | ||
Analysis of androgen receptor activity by reporter gene assays | Q39499500 | ||
The rules of DNA recognition by the androgen receptor. | Q39725189 | ||
Testosterone: a major determinant of extragenital sexual dimorphism | Q40301671 | ||
Corepressor SMRT functions as a coactivator for thyroid hormone receptor T3Ralpha from a negative hormone response element | Q40696155 | ||
Opposing effects of corepressor and coactivators in determining the dose-response curve of agonists, and residual agonist activity of antagonists, for glucocorticoid receptor-regulated gene expression | Q40910695 | ||
Glucocorticoid-dependent action of neural crest factor AP-2: stimulation of phenylethanolamine N-methyltransferase gene expression | Q41039925 | ||
SUMOylation regulates the chromatin occupancy and anti-proliferative gene programs of glucocorticoid receptor | Q41941328 | ||
Promiscuous protein biotinylation by Escherichia coli biotin protein ligase | Q41951448 | ||
Multiplexed molecular interactions of nuclear receptors using fluorescent microspheres | Q43704426 | ||
Inhibition of the Dihydrotestosterone-Activated Androgen Receptor by Nuclear Receptor Corepressor | Q55884170 | ||
SnapShot: NR Coregulators | Q58055447 | ||
Interaction of androgen receptors with androgen response element in intact cells. Roles of amino- and carboxyl-terminal regions and the ligand | Q73427536 | ||
Distribution and degradation of biotin-containing carboxylases in human cell lines | Q28630704 | ||
The BioGRID interaction database: 2017 update | Q28818109 | ||
Increased survival with enzalutamide in prostate cancer after chemotherapy | Q29617511 | ||
The dark side of EGFP: defective polyubiquitination | Q33267311 | ||
SAINT: probabilistic scoring of affinity purification-mass spectrometry data | Q33763365 | ||
Probing nuclear pore complex architecture with proximity-dependent biotinylation. | Q33790144 | ||
The amino terminus of the human AR is target for corepressor action and antihormone agonism | Q33958192 | ||
Inhibition of the dihydrotestosterone-activated androgen receptor by nuclear receptor corepressor | Q33959930 | ||
Regulation of androgen receptor activity by the nuclear receptor corepressor SMRT. | Q33962627 | ||
Incorporating DNA shearing in standard affinity purification allows simultaneous identification of both soluble and chromatin-bound interaction partners | Q34026330 | ||
A promiscuous biotin ligase fusion protein identifies proximal and interacting proteins in mammalian cells | Q34260840 | ||
Role of molecular chaperones in steroid receptor action | Q34332069 | ||
H3K4 mono- and di-methyltransferase MLL4 is required for enhancer activation during cell differentiation | Q34394362 | ||
Distinct, genome-wide, gene-specific selectivity patterns of four glucocorticoid receptor coregulators | Q34564788 | ||
Proteomic analysis of coregulators bound to ERα on DNA and nucleosomes reveals coregulator dynamics | Q34816757 | ||
Structure of a biologically active estrogen receptor-coactivator complex on DNA. | Q35205425 | ||
Androgen receptor gene expression in prostate cancer is directly suppressed by the androgen receptor through recruitment of lysine-specific demethylase 1. | Q35575633 | ||
An LXR-NCOA5 gene regulatory complex directs inflammatory crosstalk-dependent repression of macrophage cholesterol efflux | Q35590401 | ||
Histone methylation-dependent mechanisms impose ligand dependency for gene activation by nuclear receptors | Q36014589 | ||
Controlling nuclear receptors: the circular logic of cofactor cycles | Q36163600 | ||
Corticosteroids: Mechanisms of Action in Health and Disease | Q36327289 | ||
Control of developmentally primed erythroid genes by combinatorial co-repressor actions | Q36358111 | ||
GR SUMOylation and formation of an SUMO-SMRT/NCoR1-HDAC3 repressing complex is mandatory for GC-induced IR nGRE-mediated transrepression | Q36563336 | ||
Crosstalk between the glucocorticoid receptor and other transcription factors: molecular aspects. | Q36906386 | ||
BCOR regulates myeloid cell proliferation and differentiation | Q37461161 | ||
Evolution of the repertoire of nuclear receptor binding sites in genomes | Q37807648 | ||
Mapping physical interactions within chromatin by proteomic approaches | Q38011665 | ||
Looking at nuclear receptors from a new angle | Q38140411 | ||
An evolving understanding of nuclear receptor coregulator proteins. | Q38160822 | ||
Comprehensive overview of the structure and regulation of the glucocorticoid receptor | Q38220926 | ||
A high-throughput approach for measuring temporal changes in the interactome | Q38272522 | ||
Chromatin regulation: how complex does it get? | Q38284263 | ||
Role of ChIP-seq in the discovery of transcription factor binding sites, differential gene regulation mechanism, epigenetic marks and beyond. | Q38285179 | ||
Unraveling androgen receptor interactomes by an array-based method: discovery of proto-oncoprotein c-Rel as a negative regulator of androgen receptor | Q38309007 | ||
P433 | issue | 8 | |
P304 | page(s) | 1462-1474 | |
P577 | publication date | 2017-06-13 | |
P1433 | published in | Molecular & Cellular Proteomics | Q6895932 |
P1476 | title | Agonist-specific Protein Interactomes of Glucocorticoid and Androgen Receptor as Revealed by Proximity Mapping | |
P478 | volume | 16 |
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