| scholarly article | Q13442814 |
| P2093 | author name string | Keijo Luukko | |
| Inger Hals Kvinnsland | |||
| Päivi Kettunen | |||
| Tomasz Furmanek | |||
| Rajib Chaulagain | |||
| P2860 | cites work | Tissue interactions in tooth development | Q40303449 |
| Associations of FGF-3 and FGF-10 with signaling networks regulating tooth morphogenesis | Q40740296 | ||
| Localization of putative stem cells in dental epithelium and their association with Notch and FGF signaling. | Q41814862 | ||
| Immunolocalization of BMP-2/-4, FGF-4, and WNT10b in the developing mouse first lower molar | Q42454599 | ||
| Epithelial fibroblast growth factor receptor 1 regulates enamel formation. | Q46009342 | ||
| The importance of signal pathway modulation in all aspects of tooth development | Q46155176 | ||
| Phex mutation causes overexpression of FGF23 in teeth | Q46279031 | ||
| Responsiveness of developing dental tissues to fibroblast growth factors: expression of splicing alternatives of FGFR1, -2, -3, and of FGFR4; and stimulation of cell proliferation by FGF-2, -4, -8, and -9. | Q47843780 | ||
| Fibroblast growth factor 13 is essential for neural differentiation in Xenopus early embryonic development | Q48078689 | ||
| The genetic basis of tooth development and dental defects. | Q52012631 | ||
| Identification of a novel putative signaling center, the tertiary enamel knot in the postnatal mouse molar tooth. | Q52109005 | ||
| Expression of Wnt signalling pathway genes during tooth development. | Q52175657 | ||
| Expression and function of FGFs-4, -8, and -9 suggest functional redundancy and repetitive use as epithelial signals during tooth morphogenesis. | Q52189524 | ||
| Functional evolutionary history of the mouse Fgf gene family | Q28259938 | ||
| Transformation of tooth type induced by inhibition of BMP signaling | Q28287853 | ||
| FGF4, a direct target of LEF1 and Wnt signaling, can rescue the arrest of tooth organogenesis in Lef1(-/-) mice | Q28505123 | ||
| Antagonistic interactions between FGF and BMP signaling pathways: a mechanism for positioning the sites of tooth formation | Q28506952 | ||
| Fgfr2b mediated epithelial-mesenchymal interactions coordinate tooth morphogenesis and dental trigeminal axon patterning | Q28511334 | ||
| FGF10 acts as a major ligand for FGF receptor 2 IIIb in mouse multi-organ development | Q28512306 | ||
| Shh signaling within the dental epithelium is necessary for cell proliferation, growth and polarization | Q28584875 | ||
| Wnt/Shh interactions regulate ectodermal boundary formation during mammalian tooth development | Q28591613 | ||
| Analysis of epithelial-mesenchymal interactions in the initial morphogenesis of the mammalian tooth | Q28592767 | ||
| Fgf15 is required for proper morphogenesis of the mouse cardiac outflow tract | Q28593240 | ||
| Cre-mediated gene inactivation demonstrates that FGF8 is required for cell survival and patterning of the first branchial arch | Q30500614 | ||
| Sprouty genes control diastema tooth development via bidirectional antagonism of epithelial-mesenchymal FGF signaling | Q33762161 | ||
| Reiterative signaling and patterning during mammalian tooth morphogenesis | Q33855362 | ||
| Sonic hedgehog regulates epithelial proliferation and cell survival in the developing tooth germ | Q33956593 | ||
| Epigenetic signals during odontoblast differentiation | Q33964969 | ||
| Enamel knots as signaling centers linking tooth morphogenesis and odontoblast differentiation | Q33964972 | ||
| The enamel knot as a signaling center in the developing mouse tooth | Q34063260 | ||
| Ataxia and paroxysmal dyskinesia in mice lacking axonally transported FGF14. | Q34139483 | ||
| Mouse FGF15 is the ortholog of human and chick FGF19, but is not uniquely required for otic induction. | Q34312959 | ||
| Tooth and jaw: molecular mechanisms of patterning in the first branchial arch | Q35077026 | ||
| The cutting-edge of mammalian development; how the embryo makes teeth | Q35813853 | ||
| Evolution of the Fgf and Fgfr gene families | Q35913683 | ||
| FGF signalling in craniofacial development and developmental disorders | Q36395698 | ||
| FGF15 promotes neurogenesis and opposes FGF8 function during neocortical development | Q36803213 | ||
| Initiation to end point: the multiple roles of fibroblast growth factors in neural development | Q36885432 | ||
| Secondary induction and the development of tooth nerve supply | Q37138760 | ||
| Epithelial histogenesis during tooth development | Q37227481 | ||
| Making up the numbers: The molecular control of mammalian dental formula | Q37676592 | ||
| Hormone-like (endocrine) Fgfs: their evolutionary history and roles in development, metabolism, and disease | Q37781747 | ||
| P433 | issue | 6 | |
| P304 | page(s) | 360-366 | |
| P577 | publication date | 2011-03-30 | |
| P1433 | published in | Acta Odontologica Scandinavica | Q4676735 |
| P1476 | title | Developmentally regulated expression of intracellular Fgf11-13, hormone-like Fgf15 and canonical Fgf16, -17 and -20 mRNAs in the developing mouse molar tooth | |
| P478 | volume | 69 |
| Q38847570 | FGF13 regulates proliferation and differentiation of skeletal muscle by down-regulating Spry1. |
| Q37680016 | Hypoxia-Induced Fibroblast Growth Factor 11 Stimulates Osteoclast-Mediated Resorption of Bone. |
| Q47978579 | Involvement of FGF9/16/20 subfamily in female germ cell development of the Nile tilapia, Oreochromis niloticus |
| Q34637059 | Molars and incisors: show your microarray IDs. |
| Q34650754 | Position effect on FGF13 associated with X-linked congenital generalized hypertrichosis. |
| Q47140555 | Role of fibroblast growth factors in bone regeneration |
| Q46474545 | Suppression of epithelial differentiation by Foxi3 is essential for molar crown patterning |
| Q64882469 | Up-regulation of FGF15/19 signaling promotes hepatocellular carcinoma in the background of fatty liver. |
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