Different pathways regulate expression of the skeletal myosin heavy chain genes. - Wikidata - wikimedia - TriplyDB

Different pathways regulate expression of the skeletal myosin heavy chain genes.

Different pathways regulate expression of the skeletal myosin heavy chain genes.

http://www.wikidata.org/entity/Q40781174

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IIb or not IIb? Regulation of myosin heavy chain gene expression in mice and men The role of calcium and calcium/calmodulin-dependent kinases in skeletal muscle plasticity and mitochondrial biogenesis NFAT: ubiquitous regulator of cell differentiation and adaptation Calcineurin activation influences muscle phenotype in a muscle-specific fashion Thyroid hormones and skeletal muscle--new insights and potential implications Myh7b/miR-499 gene expression is transcriptionally regulated by MRFs and Eos Inhibition of atrogin-1/MAFbx mediated MyoD proteolysis prevents skeletal muscle atrophy in vivo Activity-dependent repression of muscle genes by NFAT NF-kappaB mediates the transcription of mouse calsarcin-1 gene, but not calsarcin-2, in C2C12 cells Dystrophin deficiency in canine X-linked muscular dystrophy in Japan (CXMDJ) alters myosin heavy chain expression profiles in the diaphragm more markedly than in the tibialis cranialis muscle.MyoD- and nerve-dependent maintenance of MyoD expression in mature muscle fibres acts through the DRR/PRR element.Functional diversity among a family of human skeletal muscle myosin motors.Pharmacological activation of PPARbeta promotes rapid and calcineurin-dependent fiber remodeling and angiogenesis in mouse skeletal muscle Sarcomeric myosin expression in the tongue body of humans, macaques and rats Modular organization of phylogenetically conserved domains controlling developmental regulation of the human skeletal myosin heavy chain gene family.Adenylate kinase 1 deficiency induces molecular and structural adaptations to support muscle energy metabolism.Regulation of jaw-specific isoforms of myosin-binding protein-C and tropomyosin in regenerating cat temporalis muscle innervated by limb fast and slow motor nerves.Down-regulation of MyoD gene expression in rat diaphragm muscle with heart failure.Molecular regulation of individual skeletal muscle fibre types.Excitation-transcription coupling in skeletal muscle: the molecular pathways of exercise.Expression of the myosin heavy chain IIB gene in porcine skeletal muscle: the role of the CArG-Box promoter response element Calcineurin and skeletal muscle growth.Differential expression of caveolins and myosin heavy chains in response to forced exercise in rats Lineage-based primary muscle fiber type diversification independent of MEF2 and NFAT in chick embryos Role of Ca2+/calmodulin-dependent kinases in skeletal muscle plasticity.Skeletal myosin heavy chain function in cultured lung myofibroblasts Intergenic bidirectional promoter and cooperative regulation of the IIx and IIb MHC genes in fast skeletal muscle.Mechanisms of muscle gene regulation in the electric organ of Sternopygus macrurus.NFAT is a nerve activity sensor in skeletal muscle and controls activity-dependent myosin switching.Modulation of Muscle Fiber Compositions in Response to Hypoxia via Pyruvate Dehydrogenase Kinase-1.Nutritional strategies to counteract muscle atrophy caused by disuse and to improve recovery.The STARS signaling pathway: a key regulator of skeletal muscle function.Exercise-induced signal transduction and gene regulation in skeletal muscle.Myostatin, activin receptor IIb, and follistatin-like-3 gene expression are altered in adipose tissue and skeletal muscle of obese mice.Myocyte enhancer factor-2 and serum response factor binding elements regulate fast Myosin heavy chain transcription in vivo.Regulation of STARS and its downstream targets suggest a novel pathway involved in human skeletal muscle hypertrophy and atrophy.Fine-mapping of genes determining extrafusal fiber properties in murine soleus muscle.Myosin heavy chain mRNA isoforms are expressed in two distinct cohorts during C2C12 myogenesis.Properties of skeletal muscle in the teleost Sternopygus macrurus are unaffected by short-term electrical inactivity.SOCS-3 induces myoblast differentiation.

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P2860

Different pathways regulate expression of the skeletal myosin heavy chain genes.

http://www.wikidata.org/entity/Q40781174

description

2001 nî lūn-bûn

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2001年の論文

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2001年学术文章

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2001年学术文章

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2001年学术文章

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2001年学术文章

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2001年学术文章

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2001年學術文章

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2001年學術文章

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2001年學術文章

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Different pathways regulate expression of the skeletal myosin heavy chain genes.

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Different pathways regulate expression of the skeletal myosin heavy chain genes.

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Different pathways regulate expression of the skeletal myosin heavy chain genes.

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Journal of Biological Chemistry

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Different pathways regulate expression of the skeletal myosin heavy chain genes

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Allen DL

http://www.w3.org/2001/XMLSchema#string

Sartorius CA

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Sycuro LK

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P2860

From head to toes: the multiple facets of Sox proteins

MatInd and MatInspector: new fast and versatile tools for detection of consensus matches in nucleotide sequence data

Fiber-type-specific transcription of the troponin I slow gene is regulated by multiple elements

Thyroid hormone regulates expression of a transfected alpha-myosin heavy-chain fusion gene in fetal heart cells.

MEF2 responds to multiple calcium-regulated signals in the control of skeletal muscle fiber type.

A calcineurin-dependent transcriptional pathway controls skeletal muscle fiber type

Growth and muscle defects in mice lacking adult myosin heavy chain genes.

Common core sequences are found in skeletal muscle slow- and fast-fiber-type-specific regulatory elements

DNA-binding site for two skeletal actin promoter factors is important for expression in muscle cells.

Duplicated CArG box domains have positive and mutually dependent regulatory roles in expression of the human alpha-cardiac actin gene.

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43524-43533

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scholarly article

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10.1074/JBC.M108017200

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47

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276

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Leslie Leinwand

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2001-09-10T00:00:00Z

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11551968

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