Investigation of thin filament near-neighbour regulatory unit interactions during force development in skinned cardiac and skeletal muscle. - Wikidata - wikimedia - TriplyDB

Investigation of thin filament near-neighbour regulatory unit interactions during force development in skinned cardiac and skeletal muscle.

Investigation of thin filament near-neighbour regulatory unit interactions during force development in skinned cardiac and skeletal muscle.

http://www.wikidata.org/entity/Q52577226

about

Cardiac MyBP-C regulates the rate and force of contraction in mammalian myocardium Structural basis for the in situ Ca(2+) sensitization of cardiac troponin C by positive feedback from force-generating myosin cross-bridges Filament compliance influences cooperative activation of thin filaments and the dynamics of force production in skeletal muscle Regulation of fibre contraction in a rat model of myocardial ischemia.Hypertrophic Cardiomyopathy Cardiac Troponin C Mutations Differentially Affect Slow Skeletal and Cardiac Muscle Regulation.Myofilament length dependent activation Coupling of adjacent tropomyosins enhances cross-bridge-mediated cooperative activation in a markov model of the cardiac thin filament.Comparative biomechanics of thick filaments and thin filaments with functional consequences for muscle contraction.Cardiac remodeling in fish: strategies to maintain heart function during temperature Change In situ time-resolved FRET reveals effects of sarcomere length on cardiac thin-filament activation.Electron microscopy and persistence length analysis of semi-rigid smooth muscle tropomyosin strands.PKA phosphorylation of cardiac troponin I modulates activation and relaxation kinetics of ventricular myofibrils.The role of thin filament cooperativity in cardiac length-dependent calcium activation.Persistence length of human cardiac α-tropomyosin measured by single molecule direct probe microscopy.Calcium binding kinetics of troponin C strongly modulate cooperative activation and tension kinetics in cardiac muscle A Spatially Detailed Model of Isometric Contraction Based on Competitive Binding of Troponin I Explains Cooperative Interactions between Tropomyosin and Crossbridges.Cooperative cross-bridge activation of thin filaments contributes to the Frank-Starling mechanism in cardiac muscle.The rates of Ca2+ dissociation and cross-bridge detachment from ventricular myofibrils as reported by a fluorescent cardiac troponin C.Structural and functional consequences of the cardiac troponin C L48Q Ca(2+)-sensitizing mutation.Contributions of Ca2+-Independent Thin Filament Activation to Cardiac Muscle Function.Enhanced Ca2+ binding of cardiac troponin reduces sarcomere length dependence of contractile activation independently of strong crossbridges.Significance of troponin dynamics for Ca2+-mediated regulation of contraction and inherited cardiomyopathy.Prevascularized microtemplated fibrin scaffolds for cardiac tissue engineering applications The tropomyosin binding region of cardiac troponin T modulates crossbridge recruitment dynamics in rat cardiac muscle fibers.Functional and evolutionary relationships of troponin C.Slowed Dynamics of Thin Filament Regulatory Units Reduces Ca(2+)-Sensitivity of Cardiac Biomechanical Function.Molecule specific effects of PKA-mediated phosphorylation on rat isolated heart and cardiac myofibrillar function Cardiac function and modulation of sarcomeric function by length.Kinetic mechanism of Ca²⁺-controlled changes of skeletal troponin I in psoas myofibrils.Tropomyosin flexural rigidity and single ca(2+) regulatory unit dynamics: implications for cooperative regulation of cardiac muscle contraction and cardiomyocyte hypertrophy.Familial hypertrophic cardiomyopathy related E180G mutation increases flexibility of human cardiac α-tropomyosin.N-terminal phosphorylation of cardiac troponin-I reduces length-dependent calcium sensitivity of contraction in cardiac muscle.Local control in thin filament activation of cardiac muscle.Dissecting the role of the myofilament in diaphragm dysfunction during the development of heart failure in mice.Length dependence of force generation exhibit similarities between rat cardiac myocytes and skeletal muscle fibres.

P2860

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P2860

Investigation of thin filament near-neighbour regulatory unit interactions during force development in skinned cardiac and skeletal muscle.

http://www.wikidata.org/entity/Q52577226

description

2007 nî lūn-bûn

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2007年の論文

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2007年学术文章

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2007年学术文章

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2007年学术文章

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2007年学术文章

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2007年学术文章

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2007年学术文章

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2007年學術文章

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2007年學術文章

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name

Investigation of thin filament ...... d cardiac and skeletal muscle.

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Investigation of thin filament ...... d cardiac and skeletal muscle.

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type

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Investigation of thin filament ...... d cardiac and skeletal muscle.

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Investigation of thin filament ...... d cardiac and skeletal muscle.

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Investigation of thin filament ...... d cardiac and skeletal muscle.

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Investigation of thin filament ...... d cardiac and skeletal muscle.

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JPHYSIOL.2007.128975

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The Journal of Physiology

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Investigation of thin filament ...... d cardiac and skeletal muscle.

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P2093

Anthony J Rivera

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Donald A Martyn

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Michael Regnier

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Todd E Gillis

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P2860

Binding of cardiac troponin-I147-163 induces a structural opening in human cardiac troponin-C

Structure of the C-domain of human cardiac troponin C in complex with the Ca2+ sensitizing drug EMD 57033

Structures of the troponin C regulatory domains in the apo and calcium-saturated states

Structural based insights into the role of troponin in cardiac muscle pathophysiology

Variations in cross-bridge attachment rate and tension with phosphorylation of myosin in mammalian skinned skeletal muscle fibers. Implications for twitch potentiation in intact muscle

Ca2+ - and cross-bridge-dependent changes in N- and C-terminal structure of troponin C in rat cardiac muscle.

Influence of length on force and activation-dependent changes in troponin c structure in skinned cardiac and fast skeletal muscle.

Kinetic studies of calcium binding to the regulatory site of troponin C from cardiac muscle

Effects of cardiac thin filament Ca2+: statistical mechanical analysis of a troponin C site II mutant.

Regulation of contraction in striated muscle

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10.1113/JPHYSIOL.2007.128975

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Pt. 2

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