Lineage analysis of the avian dermomyotome sheet reveals the existence of single cells with both dermal and muscle progenitor fates.
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Epithelial-Mesenchymal Transitions during Neural Crest and Somite DevelopmentTime-lapse analysis and mathematical characterization elucidate novel mechanisms underlying muscle morphogenesisWnt11 is required for oriented migration of dermogenic progenitor cells from the dorsomedial lip of the avian dermomyotomeHanging on for the ride: adhesion to the extracellular matrix mediates cellular responses in skeletal muscle morphogenesis and diseaseNeural crest regulates myogenesis through the transient activation of NOTCHATOH8, a regulator of skeletal myogenesis in the hypaxial myotome of the trunkAsymmetric self-renewal and commitment of satellite stem cells in muscle.Transcriptome analyses based on genetic screens for Pax3 myogenic targets in the mouse embryo.Satellite cells and the muscle stem cell nicheExtrinsic regulation of satellite cell specificationBuilding muscle: molecular regulation of myogenesis.Fss/Tbx6 is required for central dermomyotome cell fate in zebrafish.A Pax3/Pax7-dependent population of skeletal muscle progenitor cells.The myogenic transcriptional networkA novel genetic hierarchy functions during hypaxial myogenesis: Pax3 directly activates Myf5 in muscle progenitor cells in the limb.Retrograde migration of pectoral girdle muscle precursors depends on CXCR4/SDF-1 signaling.Life-Long Transgene Expression in Skeletal Muscle Without Transduction of Satellite Cells Following Embryonic Myogenic Progenitor Transduction by Lentivirus Administered in Utero.Pax3 and Pax7 have distinct and overlapping functions in adult muscle progenitor cells.Distinct roles for Pax7 and Pax3 in adult regenerative myogenesis.Reciprocal inhibition between Pax7 and muscle regulatory factors modulates myogenic cell fate determination.Myostatin promotes the terminal differentiation of embryonic muscle progenitors.The transition from differentiation to growth during dermomyotome-derived myogenesis depends on temporally restricted hedgehog signaling.Stem cells and plasticity of skeletal muscle cell differentiation: potential application to cell therapy for degenerative muscular diseases.Cellular dynamics of regeneration reveals role of two distinct Pax7 stem cell populations in larval zebrafish muscle repairSkeletal muscle as a paradigm for regenerative biology and medicine.Marking the tempo for myogenesis: Pax7 and the regulation of muscle stem cell fate decisionsNeural crest and somitic mesoderm as paradigms to investigate cell fate decisions during development.The myotomal basement membrane: insight into laminin-111 function and its control by Sonic hedgehog signaling.A myogenic precursor cell that could contribute to regeneration in zebrafish and its similarity to the satellite cell.Syndecans in skeletal muscle development, regeneration and homeostasis.Distinct contextual roles for Notch signalling in skeletal muscle stem cellsSignals and myogenic regulatory factors restrict pax3 and pax7 expression to dermomyotome-like tissue in zebrafish.Axial and limb muscle development: dialogue with the neighbourhood.Teashirt-3, a novel regulator of muscle differentiation, associates with BRG1-associated factor 57 (BAF57) to inhibit myogenin gene expressionIdentification and characterization of subpopulations of Pax3 and Pax7 expressing cells in developing chick somites and limb budsTime course and side-by-side analysis of mesodermal, pre-myogenic, myogenic and differentiated cell markers in the chicken model for skeletal muscle formation.Does the grass snake (Natrix natrix) (Squamata: Serpentes: Natricinae) fit the amniotes-specific model of myogenesis?Pax3 regulation of FGF signaling affects the progression of embryonic progenitor cells into the myogenic program.Sympathetic neurons and chromaffin cells share a common progenitor in the neural crest in vivo.The epigenetic regulation of embryonic myogenesis and adult muscle regeneration by histone methylation modification
P2860
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P2860
Lineage analysis of the avian dermomyotome sheet reveals the existence of single cells with both dermal and muscle progenitor fates.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh-hant
name
Lineage analysis of the avian ...... l and muscle progenitor fates.
@en
Lineage analysis of the avian ...... l and muscle progenitor fates.
@nl
type
label
Lineage analysis of the avian ...... l and muscle progenitor fates.
@en
Lineage analysis of the avian ...... l and muscle progenitor fates.
@nl
prefLabel
Lineage analysis of the avian ...... l and muscle progenitor fates.
@en
Lineage analysis of the avian ...... l and muscle progenitor fates.
@nl
P356
P1433
P1476
Lineage analysis of the avian ...... l and muscle progenitor fates.
@en
P2093
Chaya Kalcheim
Raz Ben-Yair
P304
P356
10.1242/DEV.01617
P407
P577
2005-01-19T00:00:00Z