FGFR3 promotes synchondrosis closure and fusion of ossification centers through the MAPK pathway
about
TGF-β and BMP signaling in osteoblast, skeletal development, and bone formation, homeostasis and diseaseFibroblast growth factor signaling in skeletal development and diseaseSixteen years and counting: the current understanding of fibroblast growth factor receptor 3 (FGFR3) signaling in skeletal dysplasiasFGFR3 signaling induces a reversible senescence phenotype in chondrocytes similar to oncogene-induced premature senescencePresphenoidal synchondrosis fusion in DBA/2J mice.Analysis of STAT1 activation by six FGFR3 mutants associated with skeletal dysplasia undermines dominant role of STAT1 in FGFR3 signaling in cartilageOverexpression of KLF13 and FGFR3 in oral cancer cells.FGFR3 induces degradation of BMP type I receptor to regulate skeletal development.Phenotype profile of a genetic mouse model for Muenke syndrome.Recent research on the growth plate: Recent insights into the regulation of the growth plateProbiotic supplementation promotes calcification in Danio rerio larvae: a molecular studyGenetic inactivation of ERK1 and ERK2 in chondrocytes promotes bone growth and enlarges the spinal canalRole of FGF/FGFR signaling in skeletal development and homeostasis: learning from mouse models.ERK1 and ERK2 regulate chondrocyte terminal differentiation during endochondral bone formationMEMO1 drives cranial endochondral ossification and palatogenesis.Overexpression of H1 calponin in osteoblast lineage cells leads to a decrease in bone mass by disrupting osteoblast function and promoting osteoclast formation.Mice expressing GFP and CreER in osteochondro progenitor cells in the periosteum.Fibroblast growth factors and epidermal growth factor cooperate with oocyte-derived members of the TGFbeta superfamily to regulate Spry2 mRNA levels in mouse cumulus cells.Meckel's and condylar cartilages anomalies in achondroplasia result in defective development and growth of the mandible.Cross-talk between FGF and other cytokine signalling pathways during endochondral bone development.FGF and ERK signaling coordinately regulate mineralization-related genes and play essential roles in osteocyte differentiation.Developmental Regulation of the Growth Plate and Cranial Synchondrosis.Genetics of Short Stature.Mouse models for the study of cranial base growth and anomalies.Analysis of the clinical and molecular characteristics of a child with achondroplasia: A case report.Fibroblast growth factor receptor 3 effects on proliferation and telomerase activity in sheep growth plate chondrocytesCirculatory CNP Rescues Craniofacial Hypoplasia in Achondroplasia.Functional characteristics of mesenchymal stem cells derived from the adipose tissue of a patient with achondroplasia.Association of achondroplasia with sagittal synostosis and scaphocephaly in two patients, an underestimated condition?Unique association of hypochondroplasia with craniosynostosis and cleft palate in a Mexican familyFGFR3 mutation causes abnormal membranous ossification in achondroplasiaThe Muenke syndrome mutation (FgfR3P244R) causes cranial base shortening associated with growth plate dysfunction and premature perichondrial ossification in murine basicranial synchondroses
P2860
Q26738766-F1EFB4C8-2360-4799-A7C1-31E8F9091B0DQ26798215-C9D5761F-B09A-4270-AA48-B07D9477C7F2Q28252023-FBAC7FD8-4E8A-4117-9F1B-FBF2B1F81CE9Q28975455-C8BFBC5F-D369-4E51-96C0-99F57084F8CCQ30458724-4FB30C10-DC2B-43CF-9A71-D48AD7461499Q33393633-CB97D63F-A28C-4EEE-8EDC-414724886AE4Q33928136-69DBC6FF-C7DD-48FE-BE00-E0552DBBF682Q33951282-97523EA3-870F-4300-B7B4-93C2DBD4F408Q34041540-E141B961-A8E9-4226-9E28-0E210035273BQ34046963-BB66C33E-503D-41EA-A9BA-3636B144C605Q35073018-CCD1797F-93DC-4690-8276-C21424489E9EQ35097630-6BB424EF-2ED5-4B21-83F5-868029BB6AD2Q35755137-8EF0A9BA-D9D9-4E55-B2ED-4F82F39F1CADQ35805977-95143B04-C852-46E8-AF20-80C3C75A30CDQ37022680-55EFF235-9689-4CDD-8E10-A0756154545BQ37026949-90D72A6B-E0B1-4BDE-AC81-51491A163A13Q37342811-EE90E1B7-895E-488C-94C9-F62CE6961BCAQ37404719-C25F5799-F7F7-4065-BF37-6E6458AF6B96Q37530105-FA2CD8B7-A9DC-47E9-A129-6067281B8DECQ38026860-2EF58211-AE97-46D1-BBAE-D846017E8314Q38689573-00319627-33EA-4CBF-BB5A-9A446207917AQ38850528-12F3796D-DCCA-44CB-A86E-F8189662174DQ39286284-81E15F96-5C65-44E6-B500-575117CC414EQ39393785-4A62D05E-65F8-49AA-99C1-86FB0B85E887Q42425524-344C276E-3CCA-4443-9A7B-0F4632F6BE85Q42611054-9DDBD2A4-D881-43FF-A1B3-2C466BAC5A9FQ51840632-BA8CC33B-54A4-40DB-9182-6596D3DD32A5Q53126707-334773F8-0A22-4AD7-8582-FE43101309A9Q54289703-8529D980-FE22-4433-AAC9-32E4B61A3067Q56264870-958EF84E-417A-42F4-BEEC-42FC046619DBQ56266929-A1C054CE-E93A-4C63-8DB5-892F99CF36AAQ56323188-CEA15405-E625-4682-B4BE-A8B191350073
P2860
FGFR3 promotes synchondrosis closure and fusion of ossification centers through the MAPK pathway
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 15 October 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
FGFR3 promotes synchondrosis c ...... nters through the MAPK pathway
@en
FGFR3 promotes synchondrosis c ...... ters through the MAPK pathway.
@nl
type
label
FGFR3 promotes synchondrosis c ...... nters through the MAPK pathway
@en
FGFR3 promotes synchondrosis c ...... ters through the MAPK pathway.
@nl
prefLabel
FGFR3 promotes synchondrosis c ...... nters through the MAPK pathway
@en
FGFR3 promotes synchondrosis c ...... ters through the MAPK pathway.
@nl
P2093
P2860
P356
P1476
FGFR3 promotes synchondrosis c ...... nters through the MAPK pathway
@en
P2093
Aya Kawanami
David Givol
Gener Balmes
Hülya Bükülmez
Isakichi Yamaura
Kazuyuki Otani
Matthew L Warman
Pertchoui B Mekikian
Shunichi Murakami
Takehiko Matsushita
P2860
P304
P356
10.1093/HMG/DDN339
P50
P577
2008-10-15T00:00:00Z