scholarly article | Q13442814 |
P50 | author | Frank Gannon | Q28741357 |
Sabine Riethdorf | Q38295111 | ||
Naoko Taniguchi-Ishigaki | Q38296642 | ||
Baris Tursun | Q75320229 | ||
Klaus Pantel | Q89761826 | ||
Guido Sauter | Q114316435 | ||
P2093 | author name string | Frank Gannon | |
Martin Scheffner | |||
Steven A Johnsen | |||
Baris Tursun | |||
Cenap Güngör | |||
Ingolf Bach | |||
J David Furlow | |||
Lutz Riethdorf | |||
Tanja Prenzel | |||
Thomas Rau | |||
P2860 | cites work | NRIF3 is a novel coactivator mediating functional specificity of nuclear hormone receptors | Q22010546 |
MDM2 enhances the function of estrogen receptor alpha in human breast cancer cells | Q24290823 | ||
The LIM-domain binding protein Ldb1 and its partner LMO2 act as negative regulators of erythroid differentiation | Q24311675 | ||
Two distinct nuclear receptor interaction domains in NSD1, a novel SET protein that exhibits characteristics of both corepressors and coactivators | Q24336164 | ||
The Angelman syndrome-associated protein, E6-AP, is a coactivator for the nuclear hormone receptor superfamily | Q24530578 | ||
Fast chromatin immunoprecipitation assay | Q24535968 | ||
Chip, a widely expressed chromosomal protein required for segmentation and activity of a remote wing margin enhancer in Drosophila | Q24605887 | ||
Functional analysis of the nuclear LIM domain interactor NLI | Q24644579 | ||
A signature motif in transcriptional co-activators mediates binding to nuclear receptors | Q27860938 | ||
Molecular portraits of human breast tumours | Q28032461 | ||
The LIM domain: regulation by association | Q28137861 | ||
RLIM inhibits functional activity of LIM homeodomain transcription factors via recruitment of the histone deacetylase complex | Q28141074 | ||
Ssdp proteins bind to LIM-interacting co-factors and regulate the activity of LIM-homeodomain protein complexes in vivo | Q28184230 | ||
Ubiquitination-dependent cofactor exchange on LIM homeodomain transcription factors | Q28205607 | ||
The breast cell growth inhibitor, estrogen down regulated gene 1, modulates a novel functional interaction between estrogen receptor alpha and transcriptional elongation factor cyclin T1 | Q28254964 | ||
Functional ablation of the mouse Ldb1 gene results in severe patterning defects during gastrulation | Q28510443 | ||
Determinants of coactivator LXXLL motif specificity in nuclear receptor transcriptional activation | Q28577247 | ||
The ubiquitin ligase Rnf6 regulates local LIM kinase 1 levels in axonal growth cones. | Q28588990 | ||
A family of LIM domain-associated cofactors confer transcriptional synergism between LIM and Otx homeodomain proteins | Q28590552 | ||
Interactions of the LIM-domain-binding factor Ldb1 with LIM homeodomain proteins | Q28593772 | ||
Genome-wide analysis of estrogen receptor binding sites | Q29614765 | ||
Sensors and signals: a coactivator/corepressor/epigenetic code for integrating signal-dependent programs of transcriptional response | Q29616508 | ||
Estrogen receptor-alpha directs ordered, cyclical, and combinatorial recruitment of cofactors on a natural target promoter | Q29616537 | ||
The LIM domain gene LMO4 inhibits differentiation of mammary epithelial cells in vitro and is overexpressed in breast cancer. | Q33951939 | ||
Estrogen opposes the apoptotic effects of bone morphogenetic protein 7 on tissue remodeling | Q33964233 | ||
Chip interacts with diverse homeodomain proteins and potentiates bicoid activity in vivo | Q35079219 | ||
Orchestrating nuclear functions: ubiquitin sets the rhythm. | Q35114287 | ||
The histone deacetylase inhibitor valproic acid selectively induces proteasomal degradation of HDAC2 | Q35160462 | ||
LIM-domain-binding protein 1: a multifunctional cofactor that interacts with diverse proteins. | Q35597030 | ||
Single-stranded DNA-binding proteins regulate the abundance of LIM domain and LIM domain-binding proteins | Q35741894 | ||
Proteasomal selection of multiprotein complexes recruited by LIM homeodomain transcription factors | Q36002564 | ||
The proteasome: a utility tool for transcription? | Q36406913 | ||
Proteasome-dependent degradation of the human estrogen receptor | Q37160826 | ||
The LIM-only factor LMO4 regulates expression of the BMP7 gene through an HDAC2-dependent mechanism, and controls cell proliferation and apoptosis of mammary epithelial cells | Q38302448 | ||
Cyclic, proteasome-mediated turnover of unliganded and liganded ERalpha on responsive promoters is an integral feature of estrogen signaling | Q38356127 | ||
The use of steroïd hormone receptors in the treatment of human breast cancer: a review | Q39808336 | ||
The level of DLDB/CHIP controls the activity of the LIM homeodomain protein apterous: evidence for a functional tetramer complex in vivo | Q39958855 | ||
Inhibiting proteasomal proteolysis sustains estrogen receptor-alpha activation. | Q40530132 | ||
Expression of an engrailed-LMO4 fusion protein in mammary epithelial cells inhibits mammary gland development in mice | Q40607129 | ||
The relative expression amounts of apterous and its co-factor dLdb/Chip are critical for dorso-ventral compartmentalization in the Drosophila wing | Q42661489 | ||
Estrogen receptor assay in primary breast cancer and early recurrence of the disease | Q43975464 | ||
VP16 and ubiquitin; binding of P-TEFb via its activation domain and ubiquitin facilitates elongation of transcription of target genes | Q44940991 | ||
The nuclear receptor ligand-binding domain: structure and function | Q47926627 | ||
Multiple functions of LIM domain-binding CLIM/NLI/Ldb cofactors during zebrafish development. | Q48496593 | ||
Estrogen receptor alpha (ESR1) gene amplification is frequent in breast cancer. | Q53742241 | ||
Prognostic value of estrogen receptor determinations in patients with breast cancer | Q67390708 | ||
Ubiquitination of the Rat Uterine Estrogen Receptor: Dependence on Estradiol | Q71970742 | ||
LIM factor Lhx3 contributes to the specification of motor neuron and interneuron identity through cell-type-specific protein-protein interactions | Q74548348 | ||
Dynamic expression of LIM cofactors in the developing mouse neural tube | Q82184190 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 128-36 | |
P577 | publication date | 2009-01-01 | |
P1433 | published in | Cancer Research | Q326097 |
P1476 | title | Regulation of estrogen-dependent transcription by the LIM cofactors CLIM and RLIM in breast cancer | |
P478 | volume | 69 |
Q28730021 | A regulatory potential of the Xist gene promoter in vole M. rossiaemeridionalis |
Q57799315 | Associations of canopy leaf traits with SNP markers in durum wheat (Triticum turgidum L. durum (Desf.)) |
Q24622900 | Biological influence of Hakai in cancer: a 10-year review |
Q24597040 | CCN5: biology and pathophysiology |
Q24310547 | CDK9 directs H2B monoubiquitination and controls replication-dependent histone mRNA 3'-end processing |
Q38868008 | Chromosome X genomic and epigenomic aberrations and clinical implications in breast cancer by base resolution profiling |
Q37065921 | Cofactors of LIM Domains Associate with Estrogen Receptor α to Regulate the Expression of Noncoding RNA H19 and Corneal Epithelial Progenitor Cell Function |
Q36148000 | E3 Ubiquitin Ligase RLIM Negatively Regulates c-Myc Transcriptional Activity and Restrains Cell Proliferation |
Q34361027 | Functional activity of RLIM/Rnf12 is regulated by phosphorylation-dependent nucleocytoplasmic shuttling |
Q38726674 | HRG/HER2/HER3 signaling promotes AhR-mediated Memo-1 expression and migration in colorectal cancer. |
Q47144026 | LDB2 inhibits proliferation and migration in liver cancer cells by abrogating HEY1 expression |
Q38340984 | Liver-specific Ldb1 deletion results in enhanced liver cancer development |
Q34144845 | Maternal Rnf12/RLIM is required for imprinted X-chromosome inactivation in mice |
Q35974524 | Multivariate models from RNA-Seq SNVs yield candidate molecular targets for biomarker discovery: SNV-DA |
Q35929384 | Paternal RLIM/Rnf12 is a survival factor for milk-producing alveolar cells |
Q58060865 | Pathogenic variants in E3 ubiquitin ligase RLIM/RNF12 lead to a syndromic X-linked intellectual disability and behavior disorder |
Q39347268 | Phosphorylation by cyclin-dependent kinase-9 controls ubiquitin-conjugating enzyme-2A function |
Q45891330 | RLIM suppresses hepatocellular carcinogenesis by up-regulating p15 and p21. |
Q58565593 | RNF12 catalyzes BRF1 ubiquitination and regulates RNA polymerase III-dependent transcription |
Q24322947 | RNF12 is an X-Encoded dose-dependent activator of X chromosome inactivation |
Q36031900 | Regulation of LIM-domain-binding 1 protein expression by ubiquitination of Lys134. |
Q36387648 | Releasing the break on X chromosome inactivation: Rnf12/RLIM targets REX1 for degradation |
Q38730332 | Role of CCN5 (WNT1 inducible signaling pathway protein 2) in pancreatic islets |
Q36895506 | Role of the ubiquitin ligase E6AP/UBE3A in controlling levels of the synaptic protein Arc |
Q40810218 | SSBP2 is an in vivo tumor suppressor and regulator of LDB1 stability |
Q34482409 | SSDP cofactors regulate neural patterning and differentiation of specific axonal projections |
Q38182667 | Shear stress regulated gene expression and angiogenesis in vascular endothelium |
Q40316450 | TIN2 stability is regulated by the E3 ligase Siah2. |
Q33981658 | The co-factor of LIM domains (CLIM/LDB/NLI) maintains basal mammary epithelial stem cells and promotes breast tumorigenesis |
Q35688891 | Ubiquitylation of nuclear receptors: new linkages and therapeutic implications. |
Q35148080 | YSY01A, a Novel Proteasome Inhibitor, Induces Cell Cycle Arrest on G2 Phase in MCF-7 Cells via ERα and PI3K/Akt Pathways |
Q34534146 | miR-203 regulates cell proliferation through its influence on Hakai expression |
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