A calcineurin-dependent transcriptional pathway controls skeletal muscle fiber type - Wikidata - awgldk - TriplyDB

A calcineurin-dependent transcriptional pathway controls skeletal muscle fiber type

A calcineurin-dependent transcriptional pathway controls skeletal muscle fiber type

http://www.wikidata.org/entity/Q35207780

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Calsarcins, a novel family of sarcomeric calcineurin-binding proteins Calsarcin-3, a novel skeletal muscle-specific member of the calsarcin family, interacts with multiple Z-disc proteins The role of calcium and calcium/calmodulin-dependent kinases in skeletal muscle plasticity and mitochondrial biogenesis Phosphorylation of calcipressin 1 increases its ability to inhibit calcineurin and decreases calcipressin half-life Phosphorylation of NFATc4 by p38 mitogen-activated protein kinases Integration of calcium and cyclic AMP signaling pathways by 14-3-3 Six1 and Eya1 expression can reprogram adult muscle from the slow-twitch phenotype into the fast-twitch phenotype Integration of calcineurin and MEF2 signals by the coactivator p300 during T-cell apoptosis The transcriptional corepressor RIP140 regulates oxidative metabolism in skeletal muscle Cholecystokinin activates pancreatic calcineurin-NFAT signaling in vitro and in vivo Mechanotransduction in skeletal muscle Histone deacetylase degradation and MEF2 activation promote the formation of slow-twitch myofibers Transducer of regulated CREB-binding proteins (TORCs) induce PGC-1alpha transcription and mitochondrial biogenesis in muscle cells Transcription enhancer factor 1 binds multiple muscle MEF2 and A/T-rich elements during fast-to-slow skeletal muscle fiber type transitions Skeletal muscle fiber type: influence on contractile and metabolic properties Calcineurin activation influences muscle phenotype in a muscle-specific fashion Exercise and health: can biotechnology confer similar benefits?Muscular expressions: profiling genes in complex tissues Sarcopenia and liver transplant: The relevance of too little muscle mass Impact of oxidative stress on exercising skeletal muscle Calcineurin inhibition and new-onset diabetes mellitus after transplantation Muscle function in COPD: a complex interplay Ca2+-dependent regulations and signaling in skeletal muscle: from electro-mechanical coupling to adaptation Structure of the MADS-box/MEF2 Domain of MEF2A Bound to DNA and Its Implication for Myocardin Recruitment A conserved family of calcineurin regulators.hMusTRD1alpha1 represses MEF2 activation of the troponin I slow enhancer Inactivation of the myocyte enhancer factor-2 repressor histone deacetylase-5 by endogenous Ca(2+) //calmodulin-dependent kinase II promotes depolarization-mediated cerebellar granule neuron survival Characterization of general transcription factor 3, a transcription factor involved in slow muscle-specific gene expression Activation of MEF2 by muscle activity is mediated through a calcineurin-dependent pathway Calcineurin regulates slow myosin, but not fast myosin or metabolic enzymes, during fast-to-slow transformation in rabbit skeletal muscle cell culture Modulatory calcineurin-interacting proteins 1 and 2 function as calcineurin facilitators in vivo Calcineurin is necessary for the maintenance but not embryonic development of slow muscle fibers.A histone deacetylase 4/myogenin positive feedback loop coordinates denervation-dependent gene induction and suppression Regulation of skeletal muscle sarcomere integrity and postnatal muscle function by Mef2c Expression of utrophin A mRNA correlates with the oxidative capacity of skeletal muscle fiber types and is regulated by calcineurin/NFAT signaling Electrical stimulation of neonatal cardiac myocytes activates the NFAT3 and GATA4 pathways and up-regulates the adenylosuccinate synthetase 1 gene Calcineurin initiates smooth muscle differentiation in neural crest stem cells Maintenance of muscle mass is not dependent on the calcineurin-NFAT pathway Transcription factors in muscle atrophy caused by blocked neuromuscular transmission and muscle unloading in rats A protein kinase B-dependent and rapamycin-sensitive pathway controls skeletal muscle growth but not fiber type specification.

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P2860

A calcineurin-dependent transcriptional pathway controls skeletal muscle fiber type

http://www.wikidata.org/entity/Q35207780

description

1998 nî lūn-bûn

@nan

1998 թուականի Օգոստոսին հրատարակուած գիտական յօդուած

@hyw

1998 թվականի օգոստոսին հրատարակված գիտական հոդված

@hy

1998年の論文

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1998年論文

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1998年論文

@zh-hant

1998年論文

@zh-hk

1998年論文

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1998年論文

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1998年论文

@wuu

name

A calcineurin-dependent transcriptional pathway controls skeletal muscle fiber type

@ast

A calcineurin-dependent transcriptional pathway controls skeletal muscle fiber type

@en

type

label

A calcineurin-dependent transcriptional pathway controls skeletal muscle fiber type

@ast

A calcineurin-dependent transcriptional pathway controls skeletal muscle fiber type

@en

prefLabel

A calcineurin-dependent transcriptional pathway controls skeletal muscle fiber type

@ast

A calcineurin-dependent transcriptional pathway controls skeletal muscle fiber type

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Genes & Development

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A calcineurin-dependent transcriptional pathway controls skeletal muscle fiber type

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C Humphries

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E N Olson

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E R Chin

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H Wu

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J A Richardson

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Q Yang

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R Bassel-Duby

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R S Williams

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W Zhu

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P2860

A novel FK506 binding protein can mediate the immunosuppressive effects of FK506 and is associated with the cardiac ryanodine receptor

Isolation of two new members of the NF-AT gene family and functional characterization of the NF-AT proteins

Combinatorial control of muscle development by basic helix-loop-helix and MADS-box transcription factors

NF-AT components define a family of transcription factors targeted in T-cell activation

Transcription factors of the NFAT family: regulation and function

Elements regulating cardiomyocyte expression of the human sarcomeric mitochondrial creatine kinase gene in transgenic mice

A calcineurin-dependent transcriptional pathway for cardiac hypertrophy

Calcineurin associated with the inositol 1,4,5-trisphosphate receptor-FKBP12 complex modulates Ca2+ flux

Selective inhibition of NFAT activation by a peptide spanning the calcineurin targeting site of NFAT

Molecular diversity of myofibrillar proteins: gene regulation and functional significance

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2499-2509

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10.1101/GAD.12.16.2499

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16

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P478

12

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1998-08-01T00:00:00Z

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13569802

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9716403

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317085

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