scholarly article | Q13442814 |
P356 | DOI | 10.1155/2013/348704 |
P2093 | author name string | Chrissa Kioussi | |
Diana Eng | |||
Hsiao-Yen Ma | |||
Michael K. Gross | |||
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Mammalian microRNAs predominantly act to decrease target mRNA levels | Q27860535 | ||
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MicroRNA-26a targets the histone methyltransferase Enhancer of Zeste homolog 2 during myogenesis | Q28269041 | ||
Differential roles of p300 and PCAF acetyltransferases in muscle differentiation | Q28276083 | ||
Pitx2 defines alternate pathways acting through MyoD during limb and somitic myogenesis | Q28296753 | ||
Ectopic Pax-3 activates MyoD and Myf-5 expression in embryonic mesoderm and neural tissue | Q28307252 | ||
Divergent functions of murine Pax3 and Pax7 in limb muscle development | Q28505611 | ||
Pitx2 regulates lung asymmetry, cardiac positioning and pituitary and tooth morphogenesis | Q28507650 | ||
Nfix regulates fetal-specific transcription in developing skeletal muscle | Q28509498 | ||
MyoD or Myf-5 is required for the formation of skeletal muscle | Q28510042 | ||
Expression pattern of the homeodomain transcription factor Pitx2 during muscle development. | Q50473480 | ||
Pitx2c modulates Pax3+/Pax7+ cell populations and regulates Pax3 expression by repressing miR27 expression during myogenesis. | Q51861214 | ||
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A Tcf4-positive mesodermal population provides a prepattern for vertebrate limb muscle patterning. | Q52096454 | ||
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Early mesodermal phenotypes in splotch suggest a role for Pax3 in the formation of epithelial somites. | Q52126462 | ||
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Ectopic expression of Sonic hedgehog alters dorsal-ventral patterning of somites. | Q52212312 | ||
Inactivation of MyoD in mice leads to up-regulation of the myogenic HLH gene Myf-5 and results in apparently normal muscle development. | Q52229612 | ||
Dicer is essential for mouse development | Q28511142 | ||
Function of Rieger syndrome gene in left-right asymmetry and craniofacial development | Q28511353 | ||
Six1 and Six4 gene expression is necessary to activate the fast-type muscle gene program in the mouse primary myotome | Q28585316 | ||
Muscle deficiency and neonatal death in mice with a targeted mutation in the myogenin gene | Q28592173 | ||
Eya1 and Eya2 proteins are required for hypaxial somitic myogenesis in the mouse embryo | Q28592591 | ||
Six1 and Six4 homeoproteins are required for Pax3 and Mrf expression during myogenesis in the mouse embryo | Q28593548 | ||
Dysregulation of microRNAs after myocardial infarction reveals a role of miR-29 in cardiac fibrosis | Q29619873 | ||
MicroRNA-378 targets the myogenic repressor MyoR during myoblast differentiation | Q30426550 | ||
miR-206 and -486 induce myoblast differentiation by downregulating Pax7 | Q30431651 | ||
Pax7 activates myogenic genes by recruitment of a histone methyltransferase complex. | Q33309162 | ||
Pitx2-dependent occupancy by histone deacetylases is associated with T-box gene regulation in mammalian abdominal tissue | Q33799595 | ||
Satellite cells and the muscle stem cell niche | Q33816665 | ||
Mammalian target of rapamycin regulates miRNA-1 and follistatin in skeletal myogenesis | Q33950260 | ||
Regulation of motility of myogenic cells in filling limb muscle anlagen by Pitx2. | Q34256759 | ||
A Pax3/Pax7-dependent population of skeletal muscle progenitor cells | Q34412889 | ||
Redefining the genetic hierarchies controlling skeletal myogenesis: Pax-3 and Myf-5 act upstream of MyoD. | Q34420945 | ||
Visualization, documentation, analysis, and communication of large-scale gene regulatory networks | Q34816969 | ||
Regulation of myogenic differentiation in the developing limb bud. | Q35066908 | ||
Effective fiber hypertrophy in satellite cell-depleted skeletal muscle. | Q35154989 | ||
MyoD inhibits Fstl1 and Utrn expression by inducing transcription of miR-206 | Q36118939 | ||
The genetics of vertebrate myogenesis | Q37219522 | ||
Muscle stem cell behavior is modified by microRNA-27 regulation of Pax3 expression. | Q37304065 | ||
NF-kappaB-YY1-miR-29 regulatory circuitry in skeletal myogenesis and rhabdomyosarcoma | Q37311506 | ||
Essential role for Dicer during skeletal muscle development. | Q37365745 | ||
Mir-214-dependent regulation of the polycomb protein Ezh2 in skeletal muscle and embryonic stem cells | Q37385808 | ||
An eye on the head: the development and evolution of craniofacial muscles | Q37879310 | ||
Origin of vertebrate limb muscle: the role of progenitor and myoblast populations | Q37881289 | ||
Muscle-specific transcriptional activation by MyoD | Q38334158 | ||
MIR-206 regulates connexin43 expression during skeletal muscle development | Q39081907 | ||
Early stages of chick somite development. | Q40454242 | ||
Acetylation of MyoD directed by PCAF is necessary for the execution of the muscle program | Q40908837 | ||
Patterning of mammalian somites by surface ectoderm and notochord: evidence for sclerotome induction by a hedgehog homolog | Q41407222 | ||
Embryonic and fetal limb myogenic cells are derived from developmentally distinct progenitors and have different requirements for beta-catenin | Q41769558 | ||
Adult satellite cells and embryonic muscle progenitors have distinct genetic requirements | Q42131094 | ||
Interaction and functional collaboration of p300/CBP and bHLH proteins in muscle and B-cell differentiation | Q42808711 | ||
Pax3/Pax7 mark a novel population of primitive myogenic cells during development | Q42863008 | ||
Targeted inactivation of the muscle regulatory gene Myf-5 results in abnormal rib development and perinatal death | Q43409060 | ||
P275 | copyright license | Creative Commons Attribution 3.0 Unported | Q14947546 |
P6216 | copyright status | copyrighted | Q50423863 |
P304 | page(s) | 1-8 | |
P577 | publication date | 2013-01-01 | |
P1476 | title | Gene Networks during Skeletal Myogenesis | |
P478 | volume | 2013 |
Q42778069 | Dynamic transcriptomic analysis in hircine longissimus dorsi muscle from fetal to neonatal development stages |
Q36109753 | Genome-wide identification and characterization of long non-coding RNAs in developmental skeletal muscle of fetal goat |
Q35379199 | The role of TORC1 in muscle development in Drosophila |