Translational suppression of atrophic regulators by microRNA-23a integrates resistance to skeletal muscle atrophy. - Wikidata - thesis-toulmin - TriplyDB

Translational suppression of atrophic regulators by microRNA-23a integrates resistance to skeletal muscle atrophy.

Translational suppression of atrophic regulators by microRNA-23a integrates resistance to skeletal muscle atrophy.

http://www.wikidata.org/entity/Q30424122

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Noncoding RNAs, Emerging Regulators of Skeletal Muscle Development and Diseases The Signature of MicroRNA Dysregulation in Muscle Paralyzed by Spinal Cord Injury Includes Downregulation of MicroRNAs that Target Myostatin Signaling Microgravity-Induced Transcriptome Adaptation in Mouse Paraspinal longissimus dorsi Muscle Highlights Insulin Resistance-Linked Genes.Positive radionuclide imaging of miRNA expression using RILES and the human sodium iodide symporter as reporter gene is feasible and supports a protective role of miRNA-23a in response to muscular atrophy Food restriction increase the expression of mTORC1 complex genes in the skeletal muscle of juvenile pacu (Piaractus mesopotamicus).Imperfect centered miRNA binding sites are common and can mediate repression of target mRNAs miR-29b contributes to multiple types of muscle atrophy.MicroRNAs in Muscle: Characterizing the Powerlifter Phenotype.Mega roles of microRNAs in regulation of skeletal muscle health and disease miR-182 attenuates atrophy-related gene expression by targeting FoxO3 in skeletal muscle Skeletal muscle atrophy and the E3 ubiquitin ligases MuRF1 and MAFbx/atrogin-1 T lymphocytes are not required for the development of fatty degeneration after rotator cuff tear.Atomoxetine prevents dexamethasone-induced skeletal muscle atrophy in mice Mechanisms of muscle wasting in chronic kidney disease Profiling of circulating microRNAs after a bout of acute resistance exercise in humans miR-206 represses hypertrophy of myogenic cells but not muscle fibers via inhibition of HDAC4 Integrative analysis of porcine microRNAome during skeletal muscle development.The regulation of muscle mass by endogenous glucocorticoids.The miRNA Transcriptome Directly Reflects the Physiological and Biochemical Differences between Red, White, and Intermediate Muscle Fiber Types.Analysis of MicroRNA Expression Profiles in Weaned Pig Skeletal Muscle after Lipopolysaccharide Challenge.Rotator cuff tear reduces muscle fiber specific force production and induces macrophage accumulation and autophagy MicroRNA-208b progressively declines after spinal cord injury in humans and is inversely related to myostatin expression.The role of microRNAs in skeletal muscle health and disease Regulation of IRS1/Akt insulin signaling by microRNA-128a during myogenesis.Transcriptional activation of muscle atrophy promotes cardiac muscle remodeling during mammalian hibernation.Role of microRNAs in skeletal muscle hypertrophy.Calcineurin: a poorly understood regulator of muscle mass.miR-23a is decreased during muscle atrophy by a mechanism that includes calcineurin signaling and exosome-mediated export.MicroRNA in myogenesis and muscle atrophy miRNAs, polyphenols, and chronic disease.Deciphering microRNA code in pain and inflammation: lessons from bladder pain syndrome.Muscle wasting from kidney failure-a model for catabolic conditions.Mechanisms modulating skeletal muscle phenotype.MicroRNA in skeletal muscle development, growth, atrophy, and disease.F-BOX proteins in cancer cachexia and muscle wasting: Emerging regulators and therapeutic opportunities.Recombinant myostatin reduces highly expressed microRNAs in differentiating C2C12 cells.Heat Stress Modulates Both Anabolic and Catabolic Signaling Pathways Preventing Dexamethasone-Induced Muscle Atrophy In Vitro Muscle-specific and age-related changes in protein synthesis and protein degradation in response to hindlimb unloading in rats.Noncoding RNAs in the regulation of skeletal muscle biology in health and disease.Regulation of miRNAs in human skeletal muscle following acute endurance exercise and short-term endurance training.

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Translational suppression of atrophic regulators by microRNA-23a integrates resistance to skeletal muscle atrophy.

http://www.wikidata.org/entity/Q30424122

description

2011 nî lūn-bûn

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2011 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած

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2011 թվականի սեպտեմբերին հրատարակված գիտական հոդված

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2011年の論文

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2011年論文

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2011年論文

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2011年論文

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2011年論文

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2011年論文

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name

Translational suppression of a ...... ce to skeletal muscle atrophy.

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Translational suppression of a ...... ce to skeletal muscle atrophy.

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type

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Translational suppression of a ...... ce to skeletal muscle atrophy.

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Translational suppression of a ...... ce to skeletal muscle atrophy.

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Translational suppression of a ...... ce to skeletal muscle atrophy.

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Translational suppression of a ...... ce to skeletal muscle atrophy.

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JBC.M111.271270

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Journal of Biological Chemistry

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Translational suppression of a ...... nce to skeletal muscle atrophy

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Hiroshi Asahara

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Mitsuharu Okutsu

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Shigeru Miyaki

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Shogo Wada

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Takashi Ushida

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Takayuki Akimoto

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Yoshio Kato

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Zhen Yan

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P2860

Cooperative control of striated muscle mass and metabolism by MuRF1 and MuRF2.

The initiation factor eIF3-f is a major target for atrogin1/MAFbx function in skeletal muscle atrophy

Atrogin-1, a muscle-specific F-box protein highly expressed during muscle atrophy

MicroRNA genes are transcribed by RNA polymerase II

Antagonism of microRNA-122 in mice by systemically administered LNA-antimiR leads to up-regulation of a large set of predicted target mRNAs in the liver

The role of microRNA-1 and microRNA-133 in skeletal muscle proliferation and differentiation

The impact of microRNAs on protein output

Myosin accumulation and striated muscle myopathy result from the loss of muscle RING finger 1 and 3

A signature pattern of stress-responsive microRNAs that can evoke cardiac hypertrophy and heart failure

A microRNA signature of hypoxia

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Stefano Schiaffino

Katsuhiko Suzuki

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