scholarly article | Q13442814 |
P50 | author | Anindya Dutta | Q37369581 |
P2093 | author name string | Bijan K Dey | |
Jeffrey Gagan | |||
P2860 | cites work | Myocyte enhancer factor 2C and myogenin up-regulate each other's expression and induce the development of skeletal muscle in P19 cells | Q73316712 |
E12 and E47 modulate cellular localization and proteasome-mediated degradation of MyoD and Id1 | Q80353180 | ||
Microrna-221 and microrna-222 modulate differentiation and maturation of skeletal muscle cells | Q21091173 | ||
MyoD1: a nuclear phosphoprotein requiring a Myc homology region to convert fibroblasts to myoblasts | Q24297101 | ||
The Microprocessor complex mediates the genesis of microRNAs | Q24312976 | ||
Reciprocal regulation of microRNA-1 and insulin-like growth factor-1 signal transduction cascade in cardiac and skeletal muscle in physiological and pathological conditions | Q24319987 | ||
Regulation of Pax3 by proteasomal degradation of monoubiquitinated protein in skeletal muscle progenitors | Q24323315 | ||
Phosphorylation of nuclear MyoD is required for its rapid degradation | Q24522630 | ||
MicroRNAs: target recognition and regulatory functions | Q24609584 | ||
microRNA-1 and microRNA-206 regulate skeletal muscle satellite cell proliferation and differentiation by repressing Pax7 | Q24615529 | ||
A long noncoding RNA controls muscle differentiation by functioning as a competing endogenous RNA | Q24630341 | ||
The role of microRNA-1 and microRNA-133 in skeletal muscle proliferation and differentiation | Q24650204 | ||
Signal-dependent activation of the MEF2 transcription factor by dissociation from histone deacetylases | Q24682791 | ||
HES6 acts as a transcriptional repressor in myoblasts and can induce the myogenic differentiation program | Q24685454 | ||
Mammalian microRNAs predominantly act to decrease target mRNA levels | Q27860535 | ||
A cellular function for the RNA-interference enzyme Dicer in the maturation of the let-7 small temporal RNA | Q27860813 | ||
Biogenesis of small RNAs in animals | Q27861013 | ||
Promoter-specific regulation of MyoD binding and signal transduction cooperate to pattern gene expression | Q28212702 | ||
MicroRNA-26a targets the histone methyltransferase Enhancer of Zeste homolog 2 during myogenesis | Q28269041 | ||
Specific requirements of MRFs for the expression of muscle specific microRNAs, miR-1, miR-206 and miR-133 | Q28286875 | ||
An intragenic MEF2-dependent enhancer directs muscle-specific expression of microRNAs 1 and 133 | Q28513095 | ||
Regulation of skeletal muscle sarcomere integrity and postnatal muscle function by Mef2c | Q28513098 | ||
Pax7 is required for the specification of myogenic satellite cells | Q28593927 | ||
Serum response factor regulates a muscle-specific microRNA that targets Hand2 during cardiogenesis | Q29547607 | ||
Satellite cell of skeletal muscle fibers | Q29615148 | ||
A family of microRNAs encoded by myosin genes governs myosin expression and muscle performance | Q29619547 | ||
MicroRNA-378 targets the myogenic repressor MyoR during myoblast differentiation | Q30426550 | ||
miR-206 and -486 induce myoblast differentiation by downregulating Pax7 | Q30431651 | ||
MiR-322/424 and -503 are induced during muscle differentiation and promote cell cycle quiescence and differentiation by down-regulation of Cdc25A. | Q30434790 | ||
Muscle-specific microRNA miR-206 promotes muscle differentiation | Q30441356 | ||
Asymmetric self-renewal and commitment of satellite stem cells in muscle. | Q30489194 | ||
miR-221 and miR-222 expression affects the proliferation potential of human prostate carcinoma cell lines by targeting p27Kip1. | Q31115813 | ||
Regulation of PI3-kinase/Akt signaling by muscle-enriched microRNA-486 | Q33732748 | ||
Opposing early and late effects of insulin-like growth factor I on differentiation and the cell cycle regulatory retinoblastoma protein in skeletal myoblasts | Q33833669 | ||
MicroRNA-206 expression levels correlate with clinical behaviour of rhabdomyosarcomas | Q33906031 | ||
p57(Kip2) stabilizes the MyoD protein by inhibiting cyclin E-Cdk2 kinase activity in growing myoblasts | Q33960187 | ||
Insulin-like growth factor-1 receptor is regulated by microRNA-133 during skeletal myogenesis | Q34110794 | ||
MyoD and the transcriptional control of myogenesis | Q34442774 | ||
IGF-II is regulated by microRNA-125b in skeletal myogenesis | Q34483080 | ||
Myogenic factors that regulate expression of muscle-specific microRNAs | Q34531532 | ||
MiR-221 controls CDKN1C/p57 and CDKN1B/p27 expression in human hepatocellular carcinoma | Q34784133 | ||
p21(CIP1) and p57(KIP2) control muscle differentiation at the myogenin step | Q35186897 | ||
MicroRNA destabilization enables dynamic regulation of the miR-16 family in response to cell-cycle changes | Q35456159 | ||
Cardiomyocyte overexpression of miR-27b induces cardiac hypertrophy and dysfunction in mice | Q35796850 | ||
Pax3 and Pax7 have distinct and overlapping functions in adult muscle progenitor cells. | Q36116755 | ||
Reciprocal inhibition between Pax7 and muscle regulatory factors modulates myogenic cell fate determination | Q36118440 | ||
MyoD inhibits Fstl1 and Utrn expression by inducing transcription of miR-206 | Q36118939 | ||
MyoD and E-protein heterodimers switch rhabdomyosarcoma cells from an arrested myoblast phase to a differentiated state. | Q37141809 | ||
Id3 is a direct transcriptional target of Pax7 in quiescent satellite cells | Q37262194 | ||
The muscle-specific microRNA miR-206 blocks human rhabdomyosarcoma growth in xenotransplanted mice by promoting myogenic differentiation | Q37286651 | ||
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 | ||
MicroRNA control of signal transduction | Q37706077 | ||
PI3 kinase regulation of skeletal muscle hypertrophy and atrophy | Q37769163 | ||
Genome-wide MyoD binding in skeletal muscle cells: a potential for broad cellular reprogramming. | Q38344633 | ||
Pax-3 is necessary for migration but not differentiation of limb muscle precursors in the mouse | Q38361129 | ||
PI3K/AKT signaling determines a dynamic switch between distinct KSRP functions favoring skeletal myogenesis | Q39480671 | ||
Circulating muscle-specific microRNA, miR-206, as a potential diagnostic marker for rhabdomyosarcoma | Q39669508 | ||
Effect of microRNA modulation on bioartificial muscle function | Q39673871 | ||
The insulin-like growth factor-phosphatidylinositol 3-kinase-Akt signaling pathway regulates myogenin expression in normal myogenic cells but not in rhabdomyosarcoma-derived RD cells | Q40749592 | ||
Mediation of IGF-1-induced skeletal myotube hypertrophy by PI(3)K/Akt/mTOR and PI(3)K/Akt/GSK3 pathways. | Q40767544 | ||
Inhibition of myogenic differentiation in proliferating myoblasts by cyclin D1-dependent kinase | Q41368684 | ||
Correlation of terminal cell cycle arrest of skeletal muscle with induction of p21 by MyoD. | Q41368691 | ||
Adult satellite cells and embryonic muscle progenitors have distinct genetic requirements | Q42131094 | ||
Muscle satellite cells adopt divergent fates: a mechanism for self-renewal? | Q42465353 | ||
MicroRNA-206 delays ALS progression and promotes regeneration of neuromuscular synapses in mice | Q42722532 | ||
Pax-3 expression in segmental mesoderm marks early stages in myogenic cell specification | Q46458507 | ||
MicroRNA-1 and microRNA-206 improve differentiation potential of human satellite cells: a novel approach for tissue engineering of skeletal muscle. | Q54340069 | ||
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | microRNA | Q310899 |
P304 | page(s) | 383-388 | |
P577 | publication date | 2012-03-02 | |
P1433 | published in | Current Opinion in Pharmacology | Q3007702 |
P1476 | title | MicroRNAs regulate and provide robustness to the myogenic transcriptional network | |
P478 | volume | 12 |
Q38466186 | Dynamics of gene expression patterns during early development of the European seabass (Dicentrarchus labrax). |
Q38084243 | Encoding anatomy: developmental gene regulatory networks and morphogenesis |
Q26999187 | Epigenetic deregulation of microRNAs in rhabdomyosarcoma and neuroblastoma and translational perspectives |
Q35275266 | Evolution and genomic organization of muscle microRNAs in fish genomes |
Q58994827 | Gene Networks during Skeletal Myogenesis |
Q39001797 | Inhibition of myogenic microRNAs 1, 133, and 206 by inflammatory cytokines links inflammation and muscle degeneration in adult inflammatory myopathies. |
Q30301152 | Long non-coding RNAs as emerging regulators of differentiation, development, and disease |
Q30301294 | MUNC, a long noncoding RNA that facilitates the function of MyoD in skeletal myogenesis |
Q37331613 | MiRNAs confer phenotypic robustness to gene networks by suppressing biological noise. |
Q33613370 | MicroRNA-30a regulates zebrafish myogenesis through targeting the transcription factor Six1 |
Q35201822 | MicroRNA-499 expression distinctively correlates to target genes sox6 and rod1 profiles to resolve the skeletal muscle phenotype in Nile tilapia |
Q26991500 | Non-coding RNAs in muscle dystrophies |
Q30416251 | Notch3 and Mef2c proteins are mutually antagonistic via Mkp1 protein and miR-1/206 microRNAs in differentiating myoblasts |
Q33619521 | The RNA-binding protein TDP-43 selectively disrupts microRNA-1/206 incorporation into the RNA-induced silencing complex. |
Q41833851 | Unacylated ghrelin promotes skeletal muscle regeneration following hindlimb ischemia via SOD-2-mediated miR-221/222 expression |
Q30421569 | miR-26a is required for skeletal muscle differentiation and regeneration in mice |
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