2002
DOI: 10.1016/s0006-3495(02)73974-x
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Relaxation Kinetics Following Sudden Ca2+ Reduction in Single Myofibrils from Skeletal Muscle

Abstract: To investigate the roles of cross-bridge dissociation and cross-bridge-induced thin filament activation in the time course of muscle relaxation, we initiated force relaxation in single myofibrils from skeletal muscles by rapidly (approximately 10 ms) switching from high to low [Ca(2+)] solutions. Full force decay from maximal activation occurs in two phases: a slow one followed by a rapid one. The latter is initiated by sarcomere "give" and dominated by inter-sarcomere dynamics (see the companion paper, Stehle… Show more

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Cited by 124 publications
(315 citation statements)
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“…Similar to, as indicated in de Tombe's paper (see Tables 1 and 2 in Ref. 6), studies on skeletal myofibrils (33), cardiac trabeculae (23), and cardiac myofibrils (29,30,26) revealed, that under all conditions investigated, k act is similar to the rate constant of force redevelopment (k tr ) following a mechanical slack-restretch maneuver during steady Ca 2ϩ activation. This implies that the Ca 2ϩ -induced switch on of the regulatory system occurs before the rise in force and does not rate limit Ca 2ϩ -induced force development.…”
supporting
confidence: 82%
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“…Similar to, as indicated in de Tombe's paper (see Tables 1 and 2 in Ref. 6), studies on skeletal myofibrils (33), cardiac trabeculae (23), and cardiac myofibrils (29,30,26) revealed, that under all conditions investigated, k act is similar to the rate constant of force redevelopment (k tr ) following a mechanical slack-restretch maneuver during steady Ca 2ϩ activation. This implies that the Ca 2ϩ -induced switch on of the regulatory system occurs before the rise in force and does not rate limit Ca 2ϩ -induced force development.…”
supporting
confidence: 82%
“…Reduced inhibitory function of hcTnI by the R145G mutation and likewise by the truncation of hcTnI to hcTnI1-192, the predominant degradation product in the stunned myocardium, inevitably slows down relaxation kinetics manifesting in a delayed onset and decreased rate constant of the fast relaxation phase (12,22). That these two relaxation parameters are very sensitively affected by only slight, persistent activation is in agreement with the similar effects in native myofibrils following a slight incomplete Ca 2ϩ removal (33).…”
supporting
confidence: 72%
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