Dynamic behaviour of half-sarcomeres during and after stretch in activated rabbit psoas myofibrils: sarcomere asymmetry but no 'sarcomere popping'.
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Poorly understood aspects of striated muscle contractionA mathematical model of muscle containing heterogeneous half-sarcomeres exhibits residual force enhancementThe role of sarcomere length non-uniformities in residual force enhancement of skeletal muscle myofibrils.Inter-sarcomere coordination in muscle revealed through individual sarcomere response to quick stretch.Force produced after stretch in sarcomeres and half-sarcomeres isolated from skeletal muscles.Magnitude of sarcomere extension correlates with initial sarcomere length during lengthening of activated single fibers from soleus muscle of ratsNon-uniform distribution of strain during stretch of relaxed skeletal muscle fibers from rat soleus muscleIncreased residual force enhancement in older adults is associated with a maintenance of eccentric strength.Why stretched muscles hurt--is there a role for half-sarcomere dynamics?Force enhancement in lengthening contractions of cat soleus muscle in situ: transient and steady-state aspects.Phosphorylation of myosin regulatory light chain has minimal effect on kinetics and distribution of orientations of cross bridges of rabbit skeletal muscle.Physiological Mechanisms of Eccentric Contraction and Its Applications: A Role for the Giant Titin Protein.Mechanisms Of Residual Force Enhancement In Skeletal Muscle: Insights From Experiments And Mathematical Models.Hamstring strain injuries: factors that lead to injury and re-injury.Residual force enhancement after stretch in striated muscle. A consequence of increased myofilament overlap?Residual force enhancement in skeletal muscles: one sarcomere after the other.Muscle residual force enhancement: a brief review.Eccentric exercise training: modalities, applications and perspectives.Contraction induced muscle injury: towards personalized training and recovery programs.Sarcomere mechanics in striated muscles: from molecules to sarcomeres to cells.Microfluidic perfusion shows intersarcomere dynamics within single skeletal muscle myofibrils.A continuum-mechanical skeletal muscle model including actin-titin interaction predicts stable contractions on the descending limb of the force-length relation.Force enhancement after stretch in mammalian muscle fiber: no evidence of cross-bridge involvement.Sarcomere lengths in human extensor carpi radialis brevis measured by microendoscopy.Reply from K. A. P. Edman.The mechanical behavior of individual sarcomeres of myofibrils isolated from rabbit psoas muscle.The mechanisms of the residual force enhancement after stretch of skeletal muscle: non-uniformity in half-sarcomeres and stiffness of titin.Is titin a 'winding filament'? A new twist on muscle contraction.Basic science and clinical use of eccentric contractions: History and uncertaintiesTitin-mediated thick filament activation stabilizes myofibrils on the descending limb of their force-length relationship
P2860
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P2860
Dynamic behaviour of half-sarcomeres during and after stretch in activated rabbit psoas myofibrils: sarcomere asymmetry but no 'sarcomere popping'.
description
2006 nî lūn-bûn
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2006年の論文
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2006年学术文章
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2006年学术文章
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2006年学术文章
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Dynamic behaviour of half-sarc ...... ry but no 'sarcomere popping'.
@en
Dynamic behaviour of half-sarc ...... ry but no 'sarcomere popping'.
@nl
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label
Dynamic behaviour of half-sarc ...... ry but no 'sarcomere popping'.
@en
Dynamic behaviour of half-sarc ...... ry but no 'sarcomere popping'.
@nl
prefLabel
Dynamic behaviour of half-sarc ...... ry but no 'sarcomere popping'.
@en
Dynamic behaviour of half-sarc ...... ry but no 'sarcomere popping'.
@nl
P2093
P2860
P1476
Dynamic behaviour of half-sarc ...... ry but no 'sarcomere popping'.
@en
P2093
P2860
P304
P356
10.1113/JPHYSIOL.2006.105809
P407
P577
2006-03-09T00:00:00Z