A data fitting procedure is devised and thoroughly tested to provide self-consistent estimates of the relevant mechanokinetic parameters involved in a plausible scheme underpinning the output of an ensemble of myosin II molecular motors mimicking the contraction of skeletal muscle. The method builds on a stochastic model accounting for the force exerted by the motor ensemble operated both in the low and high force-generating regimes corresponding to different temperature ranges. The proposed interpretative framework is successfully challenged against simulated data, meant to mimic the experimental output of a one-dimensional synthetic nanomachine powered by pure muscle myosin isoforms.
Resolving the kinetics of an ensemble of muscle myosin motors via a temperature-dependent fitting procedure / Buonfiglio, Valentina; Zagli, Niccolò; Pertici, Irene; Lombardi, Vincenzo; Bianco, Pasquale; Fanelli, Duccio. - In: JOURNAL OF THE ROYAL SOCIETY INTERFACE. - ISSN 1742-5662. - ELETTRONICO. - 22:(2025), pp. 2025.0040.0-2025.0040.0. [10.1098/rsif.2025.0040]
Resolving the kinetics of an ensemble of muscle myosin motors via a temperature-dependent fitting procedure
Buonfiglio, Valentina
;Pertici, Irene;Lombardi, Vincenzo;Bianco, Pasquale;Fanelli, Duccio
2025
Abstract
A data fitting procedure is devised and thoroughly tested to provide self-consistent estimates of the relevant mechanokinetic parameters involved in a plausible scheme underpinning the output of an ensemble of myosin II molecular motors mimicking the contraction of skeletal muscle. The method builds on a stochastic model accounting for the force exerted by the motor ensemble operated both in the low and high force-generating regimes corresponding to different temperature ranges. The proposed interpretative framework is successfully challenged against simulated data, meant to mimic the experimental output of a one-dimensional synthetic nanomachine powered by pure muscle myosin isoforms.
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