| review article | Q7318358 |
| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/S0168-9525(99)01742-4 |
| P698 | PubMed publication ID | 10354584 |
| P2093 | author name string | Westphal H | |
| Sheng HZ | |||
| P2860 | cites work | The Spemann organizer signal noggin binds and inactivates bone morphogenetic protein 4 | Q24315313 |
| Mutations in the homeobox gene HESX1/Hesx1 associated with septo-optic dysplasia in human and mouse | Q24323305 | ||
| Gsh-4 encodes a LIM-type homeodomain, is expressed in the developing central nervous system and is required for early postnatal survival | Q24595086 | ||
| Multistep signaling requirements for pituitary organogenesis in vivo | Q24602006 | ||
| P-OTX: a PIT-1-interacting homeodomain factor expressed during anterior pituitary gland development | Q24621746 | ||
| The T/ebp null mouse: thyroid-specific enhancer-binding protein is essential for the organogenesis of the thyroid, lung, ventral forebrain, and pituitary | Q28272956 | ||
| Expression pattern of the murine LIM class homeobox gene Lhx3 in subsets of neural and neuroendocrine tissues | Q28294656 | ||
| Specification of pituitary cell lineages by the LIM homeobox gene Lhx3 | Q28510870 | ||
| Role of the Bicoid-related homeodomain factor Pitx1 in specifying hindlimb morphogenesis and pituitary development | Q28593867 | ||
| An Fgf8 mutant allelic series generated by Cre- and Flp-mediated recombination | Q29615355 | ||
| P-Lim, a LIM homeodomain factor, is expressed during pituitary organ and cell commitment and synergizes with Pit-1. | Q34496854 | ||
| Anterior pituitary development: short tales from dwarf mice | Q35721320 | ||
| The mouse homeoprotein mLIM-3 is expressed early in cells derived from the neuroepithelium and persists in adult pituitary. | Q36711094 | ||
| Function of the Homeodomain Protein GHF1 in Pituitary Cell Proliferation | Q38334375 | ||
| Transcriptional mechanisms in anterior pituitary cell differentiation | Q40588377 | ||
| The hypothalamic-pituitary axis: co-development of two organs | Q41239137 | ||
| Effect of the basal diencephalon on the development of Rathke's pouch in rats: a study in combined organ cultures | Q42451926 | ||
| Pituitary lineage determination by the Prophet of Pit-1 homeodomain factor defective in Ames dwarfism | Q44505357 | ||
| Dwarf locus mutants lacking three pituitary cell types result from mutations in the POU-domain gene pit-1. | Q46317908 | ||
| Pituitary cell phenotypes involve cell-specific Pit-1 mRNA translation and synergistic interactions with other classes of transcription factors | Q46710866 | ||
| How many homeobox genes does it take to make a pituitary gland? | Q48424256 | ||
| Multistep control of pituitary organogenesis | Q48577432 | ||
| The Pit-1 transcription factor gene is a candidate for the murine Snell dwarf mutation | Q48873892 | ||
| Effects of brain and mesenchyme upon the cytogenesis of rat adenohypophysis in vitro. I. Differentiation of adrenocorticotropes | Q49104673 | ||
| Morphogenesis. | Q52179410 | ||
| P433 | issue | 6 | |
| P304 | page(s) | 236-240 | |
| P577 | publication date | 1999-06-01 | |
| P1433 | published in | Trends in Genetics | Q2451468 |
| P1476 | title | Early steps in pituitary organogenesis | |
| P478 | volume | 15 |
| Q28210920 | A pituitary cell-restricted T box factor, Tpit, activates POMC transcription in cooperation with Pitx homeoproteins |
| Q42230994 | Activation and regulation of endogenous retroviral genes in the human pituitary gland and related endocrine tumours |
| Q34179866 | Adenohypophysis formation in the zebrafish and its dependence on sonic hedgehog. |
| Q47584973 | Crossreaction with an anti-Bax antibody reveals novel multi-endocrine cellular antigen. |
| Q34997016 | Current approaches for deciphering the molecular basis of combined anterior pituitary hormone deficiency in humans |
| Q34513601 | Cytochemical and molecular biological aspects of the pituitary and pituitary adenomas--cell differentiation and transcription factors |
| Q58996840 | DLK1 Protein Expression during Mouse Development Provides New Insights into Its Function |
| Q35197885 | DNA testing in patients with GH deficiency at the time of transition |
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| Q90608071 | Developmental origins of the human hypothalamic-pituitary-adrenal axis |
| Q22010932 | Differential activation of pituitary hormone genes by human Lhx3 isoforms with distinct DNA binding properties |
| Q82462319 | Dlk1 expression marks developing endothelium and sites of branching morphogenesis in the mouse embryo and placenta |
| Q43798469 | Expression screening for Lhx3 downstream genes identifies Thg-1pit as a novel mouse gene involved in pituitary development |
| Q46928348 | Eya1 is required for lineage-specific differentiation, but not for cell survival in the zebrafish adenohypophysis |
| Q52165748 | Fibroblast growth factor signaling is required for the proliferation and patterning of progenitor cells in the developing anterior pituitary. |
| Q35680852 | From galactorrhea to osteopenia: rethinking serotonin-prolactin interactions. |
| Q33826742 | Functions of LIM-homeobox genes. |
| Q48446748 | Genes that fashion the pituitary gland |
| Q33838238 | Genetic defects of the growth hormone-insulin-like growth factor axis |
| Q33590141 | Genetic regulation of pituitary gland development in human and mouse |
| Q48156828 | Genetically induced abnormal cranial development in human trisomy 18 with holoprosencephaly: comparisons with the normal tempo of osteogenic-neural development |
| Q38797075 | Genetics of Combined Pituitary Hormone Deficiency: Roadmap into the Genome Era. |
| Q35803398 | Growth hormone deficiency and related disorders: insights into causation, diagnosis, and treatment |
| Q38659248 | ICRP Publication 131: Stem Cell Biology with Respect to Carcinogenesis Aspects of Radiological Protection |
| Q21283769 | Identification of candidate genes for human pituitary development by EST analysis |
| Q28360510 | Imprinting of the G(s)alpha gene GNAS1 in the pathogenesis of acromegaly |
| Q36469493 | Induction and specification of cranial placodes |
| Q37089385 | Loss-of-function mutations in the human GLI2 gene are associated with pituitary anomalies and holoprosencephaly-like features |
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| Q39032800 | Origin and early development of the chicken adenohypophysis. |
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| Q48190662 | Pioneer factor Pax7 deploys a stable enhancer repertoire for specification of cell fate |
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| Q38060415 | Sella turcica morphology and the pituitary gland-a new contribution to craniofacial diagnostics based on histology and neuroradiology |
| Q28589285 | Sustained Notch signaling in progenitors is required for sequential emergence of distinct cell lineages during organogenesis |
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| Q28505904 | The LIM/homeodomain protein Islet1 recruits Janus tyrosine kinases and signal transducer and activator of transcription 3 and stimulates their activities |
| Q33942188 | The molecular basis for developmental disorders of the pituitary gland in man. |
| Q34033813 | The use of neuroimaging for assessing disorders of pituitary development. |
| Q28508185 | Tpit determines alternate fates during pituitary cell differentiation |
| Q47073272 | Zebrafish mutations in Gli-mediated hedgehog signaling lead to lens transdifferentiation from the adenohypophysis anlage |
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