Phosphocreatine as an energy source for actin cytoskeletal rearrangements during myoblast fusion. - Wikidata - wikimedia - TriplyDB

Phosphocreatine as an energy source for actin cytoskeletal rearrangements during myoblast fusion.

Phosphocreatine as an energy source for actin cytoskeletal rearrangements during myoblast fusion.

http://www.wikidata.org/entity/Q46638345

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Nap1-mediated actin remodeling is essential for mammalian myoblast fusion.Spatial and functional restriction of regulatory molecules during mammalian myoblast fusion.Regulation of myotube formation by the actin-binding factor drebrin.Creatine kinase B is necessary to limit myoblast fusion during myogenesis.Proliferation of Human Primary Myoblasts Is Associated with Altered Energy Metabolism in Dependence on Ageing In Vivo and In Vitro Metabolic compartmentation - a system level property of muscle cells: real problems of diffusion in living cells.The Human Skeletal Muscle Transcriptome in Response to Oral Shilajit Supplementation.Muscle creatine kinase deficiency triggers both actin depolymerization and desmin disorganization by advanced glycation end products in dilated cardiomyopathy.Creatine kinase in cell cycle regulation and cancer.Arachidonic acid supplementation enhances in vitro skeletal muscle cell growth via a COX-2-dependent pathway.Normal muscle regeneration requires tight control of muscle cell fusion by tetraspanins CD9 and CD81.The phosphocreatine-creatine kinase system helps to shape muscle cells and keep them healthy and alive.Creatine in combination with resistance training and improvement in muscle strength: evaluation of a health claim pursuant to Article 13(5) of Regulation (EC) No 1924/2006 Glucocorticoids Improve Myogenic Differentiation In Vitro by Suppressing the Synthesis of Versican, a Transitional Matrix Protein Overexpressed in Dystrophic Skeletal Muscles.Regulation of Skeletal Myoblast Differentiation by Drebrin.Disturbed energy metabolism and muscular dystrophy caused by pure creatine deficiency are reversible by creatine intake.Expression and localization of creatine kinase in the preimplantation embryo.

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Phosphocreatine as an energy source for actin cytoskeletal rearrangements during myoblast fusion.

http://www.wikidata.org/entity/Q46638345

description

2008 nî lūn-bûn

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2008年の論文

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2008年学术文章

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2008年学术文章

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2008年学术文章

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2008年学术文章

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2008年學術文章

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2008年學術文章

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name

Phosphocreatine as an energy s ...... ements during myoblast fusion.

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Phosphocreatine as an energy s ...... ements during myoblast fusion.

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type

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Phosphocreatine as an energy s ...... ements during myoblast fusion.

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Phosphocreatine as an energy s ...... ements during myoblast fusion.

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Phosphocreatine as an energy s ...... ements during myoblast fusion.

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Phosphocreatine as an energy s ...... ements during myoblast fusion.

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JPHYSIOL.2008.151027

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The Journal of Physiology

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Phosphocreatine as an energy s ...... ements during myoblast fusion.

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Craig M Steeds

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Grace K Pavlath

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Robert W Wiseman

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Roddy S O'Connor

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P2860

Sir2 regulates skeletal muscle differentiation as a potential sensor of the redox state

Intracellular compartmentation, structure and function of creatine kinase isoenzymes in tissues with high and fluctuating energy demands: the 'phosphocreatine circuit' for cellular energy homeostasis

Creatine supplementation augments the increase in satellite cell and myonuclei number in human skeletal muscle induced by strength training

A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding

Cellular motility driven by assembly and disassembly of actin filaments

High rates of actin filament turnover in budding yeast and roles for actin in establishment and maintenance of cell polarity revealed using the actin inhibitor latrunculin-A.

Actin-latrunculin A structure and function. Differential modulation of actin-binding protein function by latrunculin A

Creatine and creatinine metabolism

Oral creatine supplementation facilitates the rehabilitation of disuse atrophy and alters the expression of muscle myogenic factors in humans

Dietary creatine monohydrate supplementation increases satellite cell mitotic activity during compensatory hypertrophy

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2841-2853

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