Sox2+ stem cells contribute to all epithelial lineages of the tooth via Sfrp5+ progenitors.
about
Organized emergence of multiple-generations of teeth in snakes is dysregulated by activation of Wnt/beta-catenin signallingBiology of tooth replacement in amniotesSox2+ progenitors in sharks link taste development with the evolution of regenerative teeth from denticlesOn the cutting edge of organ renewal: Identification, regulation, and evolution of incisor stem cellsAn Evo-Devo perspective on ever-growing teeth in mammals and dental stem cell maintenanceAblation of coactivator Med1 switches the cell fate of dental epithelia to that generating hair.Resolving stem and progenitor cells in the adult mouse incisor through gene co-expression analysisIsolation and culture of dental epithelial stem cells from the adult mouse incisor.TBX1 protein interactions and microRNA-96-5p regulation controls cell proliferation during craniofacial and dental development: implications for 22q11.2 deletion syndrome.In vivo administration of dental epithelial stem cells at the apical end of the mouse incisor.Differentiation of Apical Bud Cells in a Newly Developed Apical Bud Transplantation Model Using GFP Transgenic Mice as Donor.Epithelial Label-Retaining Cells Are Absent during Tooth Cycling in Salmo salar and Polypterus senegalus.Activated WNT signaling in postnatal SOX2-positive dental stem cells can drive odontoma formation.Antagonistic Functions of USAG-1 and RUNX2 during Tooth DevelopmentOne Odontogenic Cell-Population Contributes to the Development of the Mouse Incisors and of the Oral Vestibule.Coevolutionary patterning of teeth and taste budsTranscriptome analysis of coding and long non-coding RNAs highlights the regulatory network of cascade initiation of permanent molars in miniature pigs.Epithelial topography for repetitive tooth formation.Common mechanisms in development and disease: BMP signaling in craniofacial development.Sox2 marks epithelial competence to generate teeth in mammals and reptiles.Spontaneous emergence of overgrown molar teeth in a colony of Prairie voles (Microtus ochrogaster)Common developmental pathways link tooth shape to regenerationBMI1 represses Ink4a/Arf and Hox genes to regulate stem cells in the rodent incisor.The Pitx2:miR-200c/141:noggin pathway regulates Bmp signaling and ameloblast differentiation.Fibroblast growth factor signaling is essential for self-renewal of dental epithelial stem cells.Understanding the role of Tbx1 as a candidate gene for 22q11.2 deletion syndromeDevelopmental disorders of the dentition: an update.Abnormal Ras signaling in Costello syndrome (CS) negatively regulates enamel formation.Maternal diabetes modulates dental epithelial stem cells proliferation and self-renewal in offspring through apurinic/apyrimidinicendonuclease 1-mediated DNA methylation.Secretion of shh by a neurovascular bundle niche supports mesenchymal stem cell homeostasis in the adult mouse incisor.Self-renewal and multilineage differentiation of mouse dental epithelial stem cells.The sox family of transcription factors: versatile regulators of stem and progenitor cell fate.An inductive signalling network regulates mammalian tooth morphogenesis with implications for tooth regeneration.Tooth, hair and claw: comparing epithelial stem cell niches of ectodermal appendages.The vertebrate corneal epithelium: from early specification to constant renewal.FUCCI sensors: powerful new tools for analysis of cell proliferation.The Histochemistry and Cell Biology omnium-gatherum: the year 2015 in review.DENTAL ENAMEL FORMATION AND IMPLICATIONS FOR ORAL HEALTH AND DISEASE.Fate of the molar dental lamina in the monophyodont mouse.Cartilage to bone transformation during fracture healing is coordinated by the invading vasculature and induction of the core pluripotency genes.
P2860
Q21090715-44FE9523-0798-428F-B565-5533F57855B5Q26861406-5055FFDF-1B7B-4D1F-8B01-835E435EEAE5Q28584633-130DD7E8-49C1-4C12-AE1A-F19FB5CD17AFQ28650550-F3565B26-BC84-40E6-88B6-5B9096FBF2D7Q28656411-F8BB0FC3-4E09-4324-9A12-92EEB48F62EEQ31166959-D985558B-D7ED-4E67-9D7F-095C7063A7B5Q33643570-7E13C05D-271A-4259-A2D9-329A48535957Q34078124-15983249-5A7B-43DA-AD6F-7FBA8AAC7AB9Q35234113-DE711C0F-AFAA-4BB3-B0D3-A8CD42C09A22Q35338645-B28C3E83-FE79-42AD-8902-45D6EC91CAEDQ35957576-205E4A58-237D-4052-98DE-BFB40F6EE4E4Q35980862-3E91CBFB-60FD-4BB8-B3F4-D7FFA7F47FBBQ36100205-6C2C2023-6CE1-43CC-A2A6-D85C121AA8A3Q36102789-0BC2A9AB-ABBD-4083-8A39-45346057F109Q36127916-1E993521-37AF-4E98-9A39-C2CE51C9C9B6Q36268737-37BDC845-68D0-4156-92F5-03C696E8D69BQ36277290-BBB3551B-5DA0-46D0-83A9-92E3901139C5Q36529214-F66BA192-0A4D-40DC-A1EE-59463CE6577DQ36578717-03E09161-ADD1-4524-95F1-26A48ED9F99FQ36682930-FDBC4677-2767-401D-84BA-E53633CAEEAAQ36756068-35E06E90-54F7-4E1A-8BA2-82CB93833AC5Q36807893-F718A600-D8F6-4DC8-8490-7F47E9880052Q37076432-CDDBA56D-3B89-4A81-9842-6E2FC3F38691Q37080787-C1FF2A6B-8DEA-4022-8F30-B7953AB0E2C8Q37213872-DFB98186-BC8C-4799-B752-655EDA49E589Q37341674-78672579-EF2C-4BE2-B1F9-F7EF2347AC3BQ37352236-91EBD295-C0E5-4FB3-9D08-4532639D4A42Q37463973-A7F32CDA-39B5-4A0E-80DF-A4A3C0B8963BQ37588922-7FF635C6-351D-4F3C-B686-8D5893815755Q37633099-01D54BF4-447F-4392-874D-7F1E928B7882Q37635104-E0441EE4-9770-4F41-B33D-271D1DD924C9Q38071714-4F7D6150-6357-4782-9638-1F4D511DE417Q38129466-BA870A13-02B1-40C8-92D8-D909E13339E4Q38188311-69CDA581-0156-40FC-AC19-E49E8B8B08B9Q38240589-9E7290ED-0262-4417-A9AF-FB6B57AC4773Q38397620-A6137443-3E91-46D1-96C6-7BE2B47EDA4DQ38560545-E67D6472-6602-4B58-9258-79E88C533AFFQ38806480-30CDB801-6D4E-466A-BE00-60B712B7BBCBQ39002712-F543FA0F-28A0-40A9-8250-BE088AF67D07Q39016219-6D1FC4B1-D089-43DE-AF72-4C9C06BBCDD1
P2860
Sox2+ stem cells contribute to all epithelial lineages of the tooth via Sfrp5+ progenitors.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
Sox2+ stem cells contribute to ...... tooth via Sfrp5+ progenitors.
@en
type
label
Sox2+ stem cells contribute to ...... tooth via Sfrp5+ progenitors.
@en
prefLabel
Sox2+ stem cells contribute to ...... tooth via Sfrp5+ progenitors.
@en
P2093
P2860
P1433
P1476
Sox2+ stem cells contribute to ...... tooth via Sfrp5+ progenitors.
@en
P2093
Emma Juuri
Frederic Michon
Kerstin Seidel
Laura Ahtiainen
Mark Tummers
Ophir D Klein
P2860
P304
P356
10.1016/J.DEVCEL.2012.05.012
P407
P577
2012-07-19T00:00:00Z