| scholarly article | Q13442814 |
| P2093 | author name string | Hugo Vankelecom | |
| Jianghai Chen | |||
| Carl Denef | |||
| Nicole Hersmus | |||
| Pieter Caesens | |||
| Vik Van Duppen | |||
| P2860 | cites work | The homeoprotein Nanog is required for maintenance of pluripotency in mouse epiblast and ES cells | Q28176663 |
| Quantitative expression of Oct-3/4 defines differentiation, dedifferentiation or self-renewal of ES cells | Q28590205 | ||
| P433 | issue | 9 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 3985-3998 | |
| P577 | publication date | 2005-06-02 | |
| P1433 | published in | Endocrinology | Q3054009 |
| P1476 | title | The adult pituitary contains a cell population displaying stem/progenitor cell and early embryonic characteristics | |
| P478 | volume | 146 |
| Q27350395 | A GRFa2/Prop1/stem (GPS) cell niche in the pituitary |
| Q34094915 | A Postnatal Pax7 Progenitor Gives Rise to Pituitary Adenomas. |
| Q42614850 | A coding SNP of LHX4 gene is associated with body weight and body length in bovine |
| Q48458788 | A population of non-luteinising hormone/non-adrenocorticotrophic hormone-positive cells in the male rat anterior pituitary responds mitotically to both gonadectomy and adrenalectomy |
| Q35801540 | Adult pituitary cell maintenance: lineage-specific contribution of self-duplication |
| Q27024298 | Adult pituitary stem cells: from pituitary plasticity to adenoma development |
| Q26851283 | Anterior pituitary cell networks |
| Q59798121 | Cancer Stem Cells: Emergent Nature of Tumor Emergency |
| Q26862552 | Cardiac side population cells: moving toward the center stage in cardiac regeneration |
| Q34251305 | Cellular and molecular specificity of pituitary gland physiology |
| Q51649914 | Characteristics of ganglion cells in pituitary gangliocytomas. |
| Q46528471 | Characterization of c-kit (CD117) expression in human normal pituitary cells and pituitary adenomas. |
| Q34071373 | Characterization of murine pituitary-derived cell lines Tpit/F1, Tpit/E and TtT/GF. |
| Q46897802 | Characterization of side population (SP) cells in murine cochlear nucleus |
| Q33595099 | Collision sellar lesions: experience with eight cases and review of the literature |
| Q53464210 | Combined gangliocytoma and prolactinoma of the pituitary gland. |
| Q88661426 | Complex integration of intrinsic and peripheral signaling is required for pituitary gland development |
| Q28069546 | Concise Review: Paracrine Role of Stem Cells in Pituitary Tumors: A Focus on Adamantinomatous Craniopharyngioma |
| Q50054368 | Coxsackievirus and adenovirus receptor-positive cells compose the putative stem/progenitor cell niches in the marginal cell layer and parenchyma of the rat anterior pituitary |
| Q39025656 | Decreased TAp63 and ΔNp63 mRNA Levels in Most Human Pituitary Adenomas Are Correlated with Notch3/Jagged1 Relative Expression. |
| Q90260818 | Development of the Pituitary Gland |
| Q37116064 | Developmental and Functional Effects of Steroid Hormones on the Neuroendocrine Axis and Spinal Cord |
| Q42504723 | Dopamine receptor type 2 (DRD2) and somatostatin receptor type 2 (SSTR2) agonists are effective in inhibiting proliferation of progenitor/stem-like cells isolated from nonfunctioning pituitary tumors |
| Q53280917 | Downregulation of alpha-fetoprotein expression by LHX4: a critical role in hepatocarcinogenesis. |
| Q26750598 | EMT Involved in Migration of Stem/Progenitor Cells for Pituitary Development and Regeneration |
| Q84780742 | Enhanced nestin expression and small blood vessels in human pituitary adenomas |
| Q90176430 | Experimental Evidence and Clinical Implications of Pituitary Adenoma Stem Cells |
| Q39987733 | Expression of inflammatory-related factors in porcine anterior pituitary-derived cell line. |
| Q45986885 | Expression pattern of neuronal intermediate filament α-internexin in anterior pituitary gland and related tumors. |
| Q24631827 | Eyes wide open: a critical review of sphere-formation as an assay for stem cells |
| Q48205674 | Folliculo-stellate cells of the human pituitary as adult stem cells: examples of their neoplastic potential |
| Q34087878 | Generation of immortal cell lines from the adult pituitary: role of cAMP on differentiation of SOX2-expressing progenitor cells to mature gonadotropes |
| Q36609176 | Genetic approaches identify adult pituitary stem cells. |
| Q34998939 | Human pancreatic cancer contains a side population expressing cancer stem cell-associated and prognostic genes |
| Q33980886 | Identification and characterisation of side population cells in the canine pituitary gland. |
| Q46792285 | Identification of CD133+ cells in pituitary adenomas |
| Q42703829 | Identification of a novel progenitor cell marker, grainyhead-like 2 in the developing pituitary |
| Q48955805 | Immunohistochemical localization of anterior pituitary hormones in S-100 protein-positive cells in the rat pituitary gland |
| Q42320472 | Involvement of DNA methylation in regulating rat Prop1 gene expression during pituitary organogenesis |
| Q52608868 | Isolation and characterisation of CD9-positive pituitary adult stem/progenitor cells in rats. |
| Q37287398 | Isolation of tumour stem-like cells from benign tumours |
| Q48256638 | Localization of Notch signaling molecules and their effect on cellular proliferation in adult rat pituitary |
| Q41722293 | Localization of juxtacrine factor ephrin-B2 in pituitary stem/progenitor cell niches throughout life |
| Q47118198 | Major depletion of SOX2+ stem cells in the adult pituitary is not restored which does not affect hormonal cell homeostasis and remodelling. |
| Q33479192 | Measurement of multiple drug resistance transporter activity in putative cancer stem/progenitor cells |
| Q33631168 | Nestin-Cre mice are affected by hypopituitarism, which is not due to significant activity of the transgene in the pituitary gland. |
| Q26995185 | Neural stem cell niches in health and diseases |
| Q41343179 | Notch system is differentially expressed and activated in pituitary adenomas of distinct histotype, tumor cell lines and normal pituitaries |
| Q34548885 | Numb Deletion in POMC-Expressing Cells Impairs Pituitary Intermediate Lobe Cell Adhesion, Progenitor Cell Localization, and Neuro-Intermediate Lobe Boundary Formation |
| Q36544217 | PAR1 participates in the ability of multidrug resistance and tumorigenesis by controlling Hippo-YAP pathway |
| Q35158289 | PRRX1 and PRRX2 distinctively participate in pituitary organogenesis and a cell-supply system. |
| Q36435897 | Paracrinicity: the story of 30 years of cellular pituitary crosstalk |
| Q35209462 | Persistent expression of activated Notch inhibits corticotrope and melanotrope differentiation and results in dysfunction of the HPA axis |
| Q86653101 | Pituitary adenoma-neuronal choristoma is a pituitary adenoma with ganglionic differentiation |
| Q49986979 | Pituitary adenomas, stem cells, and cancer stem cells: what's new? |
| Q33687947 | Pituitary gland development and disease: from stem cell to hormone production |
| Q36014901 | Pituitary stem cell update and potential implications for treating hypopituitarism |
| Q38083025 | Pituitary stem cells: candidates and implications |
| Q45359699 | Rapid transition of NESTIN-expressing dividing cells from PROP1-positive to PIT1-positive advances prenatal pituitary development |
| Q42151609 | Regulation of pituitary stem cells by epithelial to mesenchymal transition events and signaling pathways. |
| Q26772135 | Regulatory System for Stem/Progenitor Cell Niches in the Adult Rodent Pituitary |
| Q36579122 | Rescue of salivary gland function after stem cell transplantation in irradiated glands |
| Q35754081 | Roles of the LHX3 and LHX4 LIM-homeodomain factors in pituitary development. |
| Q47411086 | SOX10-positive cells emerge in the rat pituitary gland during late embryogenesis and start to express S100β. |
| Q28589695 | SOX2-expressing progenitor cells generate all of the major cell types in the adult mouse pituitary gland. |
| Q33260644 | SP analysis may be used to identify cancer stem cell populations |
| Q34412753 | Schwann cells originating from skin-derived precursors promote peripheral nerve regeneration in rats |
| Q38648675 | Search for regulatory factors of the pituitary-specific transcription factor PROP1 gene |
| Q50849884 | Somatotropes maintain their immature cells through Insulin-like growth factor I (IGF-I). |
| Q38169776 | Stem cells in the canine pituitary gland and in pituitary adenomas |
| Q37633655 | Stem cells in the pituitary gland: A burgeoning field |
| Q47117422 | Stem/progenitor cells in pituitary organ homeostasis and tumourigenesis |
| Q36052539 | The expansion of adult stem/progenitor cells and their marker expression fluctuations are linked with pituitary plastic adaptation during gestation and lactancy |
| Q37905532 | The role of homeodomain transcription factors in heritable pituitary disease |
| Q36494440 | Three novel missense mutations within the LHX4 gene are associated with variable pituitary hormone deficiencies. |
| Q48268169 | Transgenic mice expressing LHX3 transcription factor isoforms in the pituitary: effects on the gonadotrope axis and sex-specific reproductive disease |
| Q41967607 | Tumorigenic stem and progenitor cells: implications for the therapeutic index of anti-cancer agents |
| Q82078383 | [Pituitary disease: which treatment in the future?] |
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