The Croonian Lecture, 1977. Stretch activation of muscle: function and mechanism. - Wikidata - awgldk - TriplyDB

The Croonian Lecture, 1977. Stretch activation of muscle: function and mechanism.

The Croonian Lecture, 1977. Stretch activation of muscle: function and mechanism.

http://www.wikidata.org/entity/Q38994388

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Electron tomography of cryofixed, isometrically contracting insect flight muscle reveals novel actin-myosin interactions Structure of myosin filaments from relaxed Lethocerus flight muscle by cryo-EM at 6 Å resolution.Solution Structure of the Apo C-Terminal Domain of the Lethocerus F1 Troponin C Isoform Acceleration of stretch activation in murine myocardium due to phosphorylation of myosin regulatory light chain Inhibitory motoneurons in arthropod motor control: organisation, function, evolution Actin filaments as tension sensors.X-ray diffraction evidence for myosin-troponin connections and tropomyosin movement during stretch activation of insect flight muscle Calcium signalling indicates bilateral power balancing in the Drosophila flight muscle during manoeuvring flight.Biomechanical basis of wing and haltere coordination in flies.The earliest molecular response to stretch of insect flight muscle as revealed by fast X-ray diffraction recording.Spontaneous oscillation of tension and sarcomere length in skeletal myofibrils. Microscopic measurement and analysis The mechanical properties of Drosophila jump muscle expressing wild-type and embryonic Myosin isoforms.Identification and localization of high molecular weight proteins in insect flight and leg muscle.Comparative biomechanics of thick filaments and thin filaments with functional consequences for muscle contraction.The effect of removing the N-terminal extension of the Drosophila myosin regulatory light chain upon flight ability and the contractile dynamics of indirect flight muscle Drosophila muscle regulation characterized by electron microscopy and three-dimensional reconstruction of thin filament mutants.Ca-activation and stretch-activation in insect flight muscle.Tension recovery in permeabilized rat soleus muscle fibers after rapid shortening and restretch.Steric blocking mechanism explains stretch activation in insect flight muscle.The stretch-activation response may be critical to the proper functioning of the mammalian heart.The roles of troponin C isoforms in the mechanical function of Drosophila indirect flight muscle The molecular elasticity of the insect flight muscle proteins projectin and kettin Binding properties of the calcium-activated F2 isoform of Lethocerus troponin C.Measuring myosin cross-bridge attachment time in activated muscle fibers using stochastic vs. sinusoidal length perturbation analysis Millisecond-scale biochemical response to change in strain.Two-state model of acto-myosin attachment-detachment predicts C-process of sinusoidal analysis Characterization of the gene for mp20: a Drosophila muscle protein that is not found in asynchronous oscillatory flight muscle Flightin, a novel myofibrillar protein of Drosophila stretch-activated muscles.Both synchronous and asynchronous muscle isoforms of projectin (the Drosophila bent locus product) contain functional kinase domains.Alterations in flight muscle ultrastructure and function in Drosophila tropomyosin mutants Activation dependence of stretch activation in mouse skinned myocardium: implications for ventricular function Functions of stretch activation in heart muscle Elastic proteins in the flight muscle of Manduca sexta.Interplay between passive tension and strong and weak binding cross-bridges in insect indirect flight muscle. A functional dissection by gelsolin-mediated thin filament removal The function of the M-line protein obscurin in controlling the symmetry of the sarcomere in the flight muscle of Drosophila.Perturbations of Drosophila alpha-actinin cause muscle paralysis, weakness, and atrophy but do not confer obvious nonmuscle phenotypes.Myosin light chain-2 mutation affects flight, wing beat frequency, and indirect flight muscle contraction kinetics in Drosophila.Reverse actin sliding triggers strong myosin binding that moves tropomyosin.An inverse power-law distribution of molecular bond lifetimes predicts fractional derivative viscoelasticity in biological tissue.Two Drosophila melanogaster tropomyosin genes: structural and functional aspects.

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P2860

The Croonian Lecture, 1977. Stretch activation of muscle: function and mechanism.

http://www.wikidata.org/entity/Q38994388

description

1978 nî lūn-bûn

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1978年の論文

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1978年論文

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1978年論文

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1978年論文

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1978年論文

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1978年論文

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1978年论文

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1978年论文

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1978年论文

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The Croonian Lecture, 1977. Stretch activation of muscle: function and mechanism.

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The Croonian Lecture, 1977. Stretch activation of muscle: function and mechanism.

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The Croonian Lecture, 1977. Stretch activation of muscle: function and mechanism.

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Proceedings of the Royal Society of London. Series B, Biological sciences

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The Croonian Lecture, 1977. Stretch activation of muscle: function and mechanism.

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J W Pringle

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