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The Work of Titin Protein Folding as a Major Driver in Muscle Contraction.


ABSTRACT: Single-molecule atomic force microscopy and magnetic tweezers experiments have demonstrated that titin immunoglobulin (Ig) domains are capable of folding against a pulling force, generating mechanical work that exceeds that produced by a myosin motor. We hypothesize that upon muscle activation, formation of actomyosin cross bridges reduces the force on titin, causing entropic recoil of the titin polymer and triggering the folding of the titin Ig domains. In the physiological force range of 4-15 pN under which titin operates in muscle, the folding contraction of a single Ig domain can generate 200% of the work of entropic recoil and occurs at forces that exceed the maximum stalling force of single myosin motors. Thus, titin operates like a mechanical battery, storing elastic energy efficiently by unfolding Ig domains and delivering the charge back by folding when the motors are activated during a contraction. We advance the hypothesis that titin folding and myosin activation act as inextricable partners during muscle contraction.

SUBMITTER: Eckels EC 

PROVIDER: S-EPMC5957538 | biostudies-literature | 2018 Feb

REPOSITORIES: biostudies-literature

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The Work of Titin Protein Folding as a Major Driver in Muscle Contraction.

Eckels Edward C EC   Tapia-Rojo Rafael R   Rivas-Pardo Jamie Andrés JA   Fernández Julio M JM  

Annual review of physiology 20180201


Single-molecule atomic force microscopy and magnetic tweezers experiments have demonstrated that titin immunoglobulin (Ig) domains are capable of folding against a pulling force, generating mechanical work that exceeds that produced by a myosin motor. We hypothesize that upon muscle activation, formation of actomyosin cross bridges reduces the force on titin, causing entropic recoil of the titin polymer and triggering the folding of the titin Ig domains. In the physiological force range of 4-15  ...[more]

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