| scholarly article | Q13442814 |
| P50 | author | Masashi Higuchi | Q87592196 |
| Takako Kikkawa | Q89208490 | ||
| P2093 | author name string | Yukio Kato | |
| Saishu Yoshida | |||
| Takako Kato | |||
| Noriko Osumi | |||
| Naoko Kanno | |||
| Hiroki Ueharu | |||
| P2860 | cites work | The dual origin of the peripheral olfactory system: placode and neural crest | Q21198878 |
| Significant Quantitative and Qualitative Transition in Pituitary Stem / Progenitor Cells Occurs during the Postnatal Development of the Rat Anterior Pituitary | Q28583850 | ||
| Tissue interactions in the induction of anterior pituitary: role of the ventral diencephalon, mesenchyme, and notochord | Q33873473 | ||
| Novel migrating mouse neural crest cell assay system utilizing P0-Cre/EGFP fluorescent time-lapse imaging. | Q34070811 | ||
| Abnormal migration and distribution of neural crest cells in Pax6 heterozygous mutant eye, a model for human eye diseases. | Q34569351 | ||
| Isolation and function of mouse tissue resident vascular precursors marked by myelin protein zero | Q34973725 | ||
| Potential contribution of neural crest cells to dental enamel formation | Q35549378 | ||
| Transcriptional control during mammalian anterior pituitary development | Q35575317 | ||
| β-catenin is required in the neural crest and mesencephalon for pituitary gland organogenesis | Q36019303 | ||
| S100β-Positive Cells of Mesenchymal Origin Reside in the Anterior Lobe of the Embryonic Pituitary Gland | Q36151388 | ||
| Genetic approaches identify adult pituitary stem cells. | Q36609176 | ||
| Neural crest-derived stem cells display a wide variety of characteristics | Q37500283 | ||
| The molecular basis of craniofacial placode development | Q38764577 | ||
| Expression studies of neuronatin in prenatal and postnatal rat pituitary. | Q38816164 | ||
| PRRX1- and PRRX2-positive mesenchymal stem/progenitor cells are involved in vasculogenesis during rat embryonic pituitary development | Q41186148 | ||
| Localization of juxtacrine factor ephrin-B2 in pituitary stem/progenitor cell niches throughout life | Q41722293 | ||
| Neural crest-derived horizontal basal cells as tissue stem cells in the adult olfactory epithelium | Q42517743 | ||
| The human tissue plasminogen activator-Cre mouse: a new tool for targeting specifically neural crest cells and their derivatives in vivo | Q44822598 | ||
| PROP1 coexists with SOX2 and induces PIT1-commitment cells | Q47799832 | ||
| Anterior cephalic neural crest is required for forebrain viability. | Q48160369 | ||
| Penetration and differentiation of cephalic neural crest‐derived cells in the developing mouse telencephalon | Q48293076 | ||
| Mapping of the early neural primordium in quail-chick chimeras. I. Developmental relationships between placodes, facial ectoderm, and prosencephalon | Q48465191 | ||
| Developmental origin of the rat adenohypophysis prior to the formation of Rathke's pouch. | Q48975205 | ||
| Mapping of the early neural primordium in quail-chick chimeras. II. The prosencephalic neural plate and neural folds: implications for the genesis of cephalic human congenital abnormalities | Q69750021 | ||
| Topographical appearance of adenohypophysial cells with special reference to the development of the portal system | Q71580513 | ||
| A novel transgenic technique that allows specific marking of the neural crest cell lineage in mice | Q78038712 | ||
| P433 | issue | 3 | |
| P304 | page(s) | 373-380 | |
| P577 | publication date | 2016-12-27 | |
| P1433 | published in | Journal of Anatomy | Q2108124 |
| P1476 | title | Gene tracing analysis reveals the contribution of neural crest-derived cells in pituitary development | |
| P478 | volume | 230 |
| Q38709453 | Clump formation in mouse pituitary-derived non-endocrine cell line Tpit/F1 promotes differentiation into growth-hormone-producing cells |
| Q88409832 | Cre-driver lines used for genetic fate mapping of neural crest cells in the mouse: An overview |
| Q88869535 | Neurocristopathies: New insights 150 years after the neural crest discovery |
| Q47411086 | SOX10-positive cells emerge in the rat pituitary gland during late embryogenesis and start to express S100β. |
| Q49603990 | TGFβ signaling reinforces pericyte properties of the non-endocrine mouse pituitary cell line TtT/GF. |
| Q60035393 | Widespread dynamic and pleiotropic expression of the melanocortin-1-receptor (MC1R) system is conserved across chick, mouse and human embryonic development |
Search more.