The transition from proliferation to differentiation is delayed in satellite cells from mice lacking MyoD.
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The cell adhesion molecule M-cadherin is not essential for muscle development and regenerationMyostatin negatively regulates satellite cell activation and self-renewalAnalyses of the differentiation potential of satellite cells from myoD-/-, mdx, and PMP22 C22 mice.Skeletal muscle stem cellsRole of heat shock proteins in stem cell behaviorImpaired skeletal muscle regeneration in the absence of fibrosis during hibernation in 13-lined ground squirrelsA role for nephrin, a renal protein, in vertebrate skeletal muscle cell fusionStress-induced C/EBP homology protein (CHOP) represses MyoD transcription to delay myoblast differentiationStructural and regulatory roles of muscle ankyrin repeat protein family in skeletal muscleLamin A/C and emerin are critical for skeletal muscle satellite cell differentiationDown-regulation of MyoD by calpain 3 promotes generation of reserve cells in C2C12 myoblastsThe small chromatin-binding protein p8 coordinates the association of anti-proliferative and pro-myogenic proteins at the myogenin promoterMyoD- and nerve-dependent maintenance of MyoD expression in mature muscle fibres acts through the DRR/PRR element.A distinct profile of myogenic regulatory factor detection within Pax7+ cells at S phase supports a unique role of Myf5 during posthatch chicken myogenesis.Activation of Cdc6 by MyoD is associated with the expansion of quiescent myogenic satellite cells.MicroRNAs in Muscle: Characterizing the Powerlifter Phenotype.The depletion of skeletal muscle satellite cells with age is concomitant with reduced capacity of single progenitors to produce reserve progeny.Satellite cells and the muscle stem cell nicheExpression of CD34 and Myf5 defines the majority of quiescent adult skeletal muscle satellite cells.Preparation of primary myogenic precursor cell/myoblast cultures from basal vertebrate lineagesPower training and postmenopausal hormone therapy affect transcriptional control of specific co-regulated gene clusters in skeletal muscle.Abcg2 expression marks tissue-specific stem cells in multiple organs in a mouse progeny tracking model.The role of stem cells in skeletal and cardiac muscle repair.Defective cranial skeletal development, larval lethality and haploinsufficiency in Myod mutant zebrafish.Are human and mouse satellite cells really the same?G-protein coupled receptor 56 promotes myoblast fusion through serum response factor- and nuclear factor of activated T-cell-mediated signalling but is not essential for muscle development in vivoCRABP2 promotes myoblast differentiation and is modulated by the transcription factors MyoD and Sp1 in C2C12 cells.Cdkn1c drives muscle differentiation through a positive feedback loop with Myod.A rat model for muscle regeneration in the soft palateProblems and solutions in myoblast transfer therapy.Critical activities of Rac1 and Cdc42Hs in skeletal myogenesis: antagonistic effects of JNK and p38 pathways.MyoD is functionally linked to the silencing of a muscle-specific regulatory gene prior to skeletal myogenesisSkeletal muscle satellite cells are committed to myogenesis and do not spontaneously adopt nonmyogenic fates.Myogenic-specific ablation of Fgfr1 impairs FGF2-mediated proliferation of satellite cells at the myofiber niche but does not abolish the capacity for muscle regenerationLeucine Promotes Proliferation and Differentiation of Primary Preterm Rat Satellite Cells in Part through mTORC1 Signaling Pathway.Defining the transcriptional signature of skeletal muscle stem cells.MASTR directs MyoD-dependent satellite cell differentiation during skeletal muscle regenerationReflections on lineage potential of skeletal muscle satellite cells: do they sometimes go MAD?The skeletal muscle satellite cell: still young and fascinating at 50Identification of a new hybrid serum response factor and myocyte enhancer factor 2-binding element in MyoD enhancer required for MyoD expression during myogenesis
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The transition from proliferation to differentiation is delayed in satellite cells from mice lacking MyoD.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on June 1999
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
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name
The transition from proliferat ...... cells from mice lacking MyoD.
@en
The transition from proliferat ...... cells from mice lacking MyoD.
@nl
type
label
The transition from proliferat ...... cells from mice lacking MyoD.
@en
The transition from proliferat ...... cells from mice lacking MyoD.
@nl
prefLabel
The transition from proliferat ...... cells from mice lacking MyoD.
@en
The transition from proliferat ...... cells from mice lacking MyoD.
@nl
P2093
P2860
P356
P1476
The transition from proliferat ...... cells from mice lacking MyoD.
@en
P2093
A J Rivera
J E Anderson
M A Rudnicki
P Natanson
Z Yablonka-Reuveni
P2860
P304
P356
10.1006/DBIO.1999.9284
P407
P577
1999-06-01T00:00:00Z