scholarly article | Q13442814 |
P356 | DOI | 10.1038/345829A0 |
P698 | PubMed publication ID | 1972784 |
P2093 | author name string | Karin M | |
McCormick A | |||
Brady H | |||
Theill LE | |||
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The molecular basis for metameric pattern in the Drosophila embryo | Q114755591 | ||
A cluster of phosphorylation sites on the cyclic AMP-regulated nuclear factor CREB predicted by its sequence | Q28247853 | ||
The pituitary-specific transcription factor GHF-1 is a homeobox-containing protein | Q28283838 | ||
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The rat serum albumin gene: analysis of cloned sequences | Q31169937 | ||
Structure and chromosomal localization of the functional intronless human JUN protooncogene | Q33680602 | ||
The Drosophila homolog of the mouse mammary oncogene int-1 is identical to the segment polarity gene wingless | Q34166322 | ||
The Drosophila patched gene encodes a putative membrane protein required for segmental patterning | Q34469429 | ||
Growth hormone-releasing factor stimulates proliferation of somatotrophs in vitro | Q37399225 | ||
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A regulatory hierarchy for cell specialization in yeast | Q38241033 | ||
Homeo boxes in the study of development | Q39462903 | ||
Mix.1, a homeobox mRNA inducible by mesoderm inducers, is expressed mostly in the presumptive endodermal cells of Xenopus embryos | Q41230257 | ||
Stimulation of Adenosine 3′,5′-Monophosphate Production by Growth Hormone-Releasing Factor and Its Inhibition by Somatostatin in Anterior Pituitary Cellsin Vitro* | Q42449219 | ||
Regulation and function of the Drosophila segmentation gene fushi tarazu | Q42504179 | ||
Dissection of functional domains of the pituitary-specific transcription factor GHF-1. | Q44258345 | ||
Identification of an adenosine 3',5'-monophosphate (cAMP)-responsive region in the rat growth hormone gene: evidence for independent and synergistic effects of cAMP and thyroid hormone on gene expression | Q45839715 | ||
Induction of human growth hormone promoter activity by the adenosine 3',5'-monophosphate pathway involves a novel responsive element. | Q45984237 | ||
Extinction of growth hormone expression in somatic cell hybrids involves repression of the specific trans-activator GHF-1. | Q46068708 | ||
A protein with several possible membrane-spanning domains encoded by the Drosophila segment polarity gene patched | Q46395235 | ||
Oncogene jun encodes a sequence-specific trans-activator similar to AP-1. | Q46795550 | ||
A tissue-specific transcription factor containing a homeodomain specifies a pituitary phenotype | Q46821977 | ||
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Characterization of a growth hormone-releasing factor from a human pancreatic islet tumour | Q48872563 | ||
Expression of GHF-1 protein in mouse pituitaries correlates both temporally and spatially with the onset of growth hormone gene activity | Q49058843 | ||
Domain of Ultrabithorax expression in Drosophila visceral mesoderm from autoregulation and exclusion. | Q52456510 | ||
Homoeo boxes, POU proteins and the limits to promiscuity | Q58989608 | ||
Limbs: a pattern emerges | Q59002707 | ||
Coordinate expression of the murine Hox-5 complex homoeobox-containing genes during limb pattern formation | Q59065602 | ||
Interaction between peptide growth factors and homoeobox genes in the establishment of antero-posterior polarity in frog embryos | Q59095446 | ||
P433 | issue | 6278 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 829-832 | |
P577 | publication date | 1990-06-01 | |
P1433 | published in | Nature | Q180445 |
P1476 | title | Regulation of the pituitary-specific homeobox gene GHF1 by cell-autonomous and environmental cues. | |
P478 | volume | 345 |
Q41357884 | A dopamine-responsive domain in the N-terminal sequence of Pit-1. Transcriptional inhibition in endocrine cell types |
Q33636310 | A model for the development of the hypothalamic-pituitary axis: transcribing the hypophysis |
Q41431643 | A monomeric derivative of the cellular transcription factor CREB functions as a constitutive activator. |
Q35071190 | A single base difference between Pit-1 binding sites at the hGH promoter and locus control region specifies distinct Pit-1 conformations and functions |
Q38330572 | A transcriptional hierarchy involved in mammalian cell-type specification |
Q42527597 | AP-1 and Oct-1 transcription factors down-regulate the expression of the human PIT1/GHF1 gene |
Q38332872 | Activation of the prolactin gene by peroxisome proliferator-activated receptor-alpha appears to be DNA binding-independent |
Q37324838 | Activin inhibits binding of transcription factor Pit-1 to the growth hormone promoter |
Q83396662 | Analysis of polymorphism within POU1F1 gene in relation to milk production traits in dairy Sarda sheep breed |
Q40408934 | Analysis of the rat hepatocyte nuclear factor (HNF) 1 gene promoter: synergistic activation by HNF4 and HNF1 proteins |
Q88154480 | Association of pituitary specific transcription factor-1 (POU1F1) gene polymorphism with growth and biometric traits and blood metabolites in Iranian Zel and Lori-Bakhtiari sheep |
Q30370587 | Associations of POU1F1 gene polymorphisms and protein structure changes with growth traits and blood metabolites in two Iranian sheep breeds. |
Q42455474 | Autoregulation of eukaryotic transcription factors |
Q38359267 | Autoregulatory loop in the regulation of the mammalian ftz-f1 gene |
Q41464476 | C-type natriuretic peptide stimulates secretion of growth hormone from rat-pituitary-derived GH3 cells via a cyclic-GMP-mediated pathway |
Q41545075 | Cell-type-specific function of the C-type natriuretic peptide gene promoter in rat anterior pituitary-derived cultured cell lines |
Q42810482 | Characterization of transactivation domain and developmental expression of pituitary specific transcription factor, Pit-1 of ayu (Plecoglossus altivelis). |
Q38302086 | Combined effect of mutations of the GH1 gene and its proximal promoter region in a child with growth hormone neurosecretory dysfunction (GHND). |
Q37670107 | Constitutive somatostatin receptor subtype-3 signaling suppresses growth hormone synthesis |
Q40500434 | Development and heterogeneity of prolactin cells |
Q33218701 | Differential splicing of the GHF1 primary transcript gives rise to two functionally distinct homeodomain proteins |
Q34052932 | Dissection of an indirect autoregulatory response of a homeotic Drosophila gene |
Q36558790 | Distinct variant DNA-binding sites determine cell-specific autoregulated expression of the Drosophila POU domain transcription factor drifter in midline glia or trachea. |
Q35634286 | Epstein-barr virus latent membrane protein 2B (LMP2B) modulates LMP2A activity |
Q36683946 | Extracellular signals that regulate liver transcription factors during hepatic differentiation in vitro |
Q38334375 | Function of the Homeodomain Protein GHF1 in Pituitary Cell Proliferation |
Q41149770 | Function of the conserved Pit-1 gene distal enhancer in progenitor and differentiated pituitary cells |
Q36551161 | Functional interaction of c-Ets-1 and GHF-1/Pit-1 mediates Ras activation of pituitary-specific gene expression: mapping of the essential c-Ets-1 domain |
Q28512102 | GHRH receptor of little mice contains a missense mutation in the extracellular domain that disrupts receptor function |
Q63412752 | Growth Hormone-Releasing Hormone: Discovery, Regulation, and Actions |
Q41684439 | Ha-Ras augments c-Jun activity and stimulates phosphorylation of its activation domain |
Q36698768 | Hepatocyte nuclear factor 3 beta contains two transcriptional activation domains, one of which is novel and conserved with the Drosophila fork head protein |
Q89948381 | Hypoxia and the hypoxia inducible factor 1α activate protein kinase A by repressing RII beta subunit transcription |
Q54360154 | Identification of mammalian Pit-1w, possibly involved in spermatogenesis in mice. |
Q40405744 | Identification of proteins that interact with CREB during differentiation of F9 embryonal carcinoma cells |
Q36270230 | Indirect autoregulation of a homeotic Drosophila gene mediated by extracellular signaling |
Q41653264 | Inhibitory control of prolactin and Pit-1 gene promoters by dopamine. Dual signaling pathways required for D2 receptor-regulated expression of the prolactin gene |
Q28567475 | LFB1/HNF1 acts as a repressor of its own transcription |
Q41104128 | Lovastatin decreases prolactin and growth hormone gene expression in GH4C1 cells through a cAMP dependent mechanism |
Q38288602 | M-phase-specific phosphorylation of the POU transcription factor GHF-1 by a cell cycle-regulated protein kinase inhibits DNA binding |
Q36846687 | Molecular cloning of gilthead seabream (Sparus aurata) pituitary transcription factor GHF-1/Pit-1. |
Q34084110 | Molecular determinants of pituitary cytodifferentiation |
Q40017619 | Negative regulation of expression of the pituitary-specific transcription factor GHF-1/Pit-1 by thyroid hormones through interference with promoter enhancer elements |
Q42457218 | Nuclear factor 1 regulates the distal silencer of the human PIT1/GHF1 gene |
Q28508437 | Pit-1 and GATA-2 interact and functionally cooperate to activate the thyrotropin beta-subunit promoter |
Q78083135 | Pit-1 mediates cell-specific and cAMP-induced transcription of the tilapia GH gene |
Q39341389 | Pit-1w may regulate prolactin gene expression in mouse testis |
Q42514753 | Pituitary alterations involved in the decline of growth hormone gene expression in the pituitary of aging rats |
Q50973853 | Proline-rich-protein promoters direct LacZ expression to the granular convoluted tubular cells of the submandibular gland in adult transgenic mice. |
Q89053710 | R-spondin1/Wnt-enhanced Ascl2 autoregulation controls the self-renewal of colorectal cancer progenitor cells |
Q36735093 | Regulation and a possible stage-specific function of Oct-2 during pre-B-cell differentiation |
Q41175204 | Role of Pit-1 in the gene expression of growth hormone, prolactin, and thyrotropin |
Q35597350 | Role of a pituitary-specific transcription factor (pit-1/GHF-1) or a closely related protein in cAMP regulation of human thyrotropin-beta subunit gene expression |
Q44768920 | Somatotroph hypoplasia and dwarfism in transgenic mice expressing a non-phosphorylatable CREB mutant |
Q41302742 | Synergistic transcriptional activation of the thyrotropin receptor promoter by cyclic AMP-responsive-element-binding protein and thyroid transcription factor 1 |
Q40411122 | The DNA target site for the Brn-3 POU family transcription factors can confer responsiveness to cyclic AMP and removal of serum in neuronal cells. |
Q40422397 | The molecular pathology of pituitary hormone deficiency and resistance |
Q33283312 | The mouse proline-rich protein MP6 promoter binds isoprenaline-inducible parotid nuclear proteins via a highly conserved NFkB/rel-like site |
Q36812290 | The restricted promoter activity of the liver transcription factor hepatocyte nuclear factor 3 beta involves a cell-specific factor and positive autoactivation |
Q35107692 | The thyroid hormone receptor antagonizes CREB-mediated transcription |
Q41594713 | The thyroid hormone response element is required for activation of the growth hormone gene promoter by nicotinamide analogs |
Q38320406 | The transcription factor Pit-1/GHF-1 is expressed in hemopoietic and lymphoid tissues. |
Q42522959 | Thyroid hormone receptor beta2 promoter activity in pituitary cells is regulated by Pit-1. |
Q73019072 | Transcription factors coupled to the cAMP-signalling pathway |
Q41636025 | Transcription factors in normal and neoplastic pituitary tissues |
Q40614728 | Transcriptional control of gene expression by cAMP-response element binding proteins |
Q36468791 | Transcriptional regulation by cAMP |
Q35228808 | Transgenic approaches to modifying cell and tissue function |
Q39637175 | Tumor-associated CpG demethylation augments hypoxia-induced effects by positive autoregulation of HIF-1α. |
Q42464784 | cAMP responsiveness of the bovine calpastatin gene promoter |
Q40372635 | cAMP-dependent regulation of gene transcription by cAMP response element-binding protein and cAMP response element modulator |
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