Velocity of myosin-based actin sliding depends on attachment and detachment kinetics and reaches a maximum when myosin-binding sites on actin saturate
Molecular motors such as kinesin and myosin often work in groups to generate the directed movements and forces critical for many biological processes. Although much is known about how individual motors generate force and movement, surprisingly, little is known about the mechanisms underlying the mac...
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| Published in: | The Journal of biological chemistry Vol. 297; no. 5; p. 101178 |
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| Abstract | Molecular motors such as kinesin and myosin often work in groups to generate the directed movements and forces critical for many biological processes. Although much is known about how individual motors generate force and movement, surprisingly, little is known about the mechanisms underlying the macroscopic mechanics generated by multiple motors. For example, the observation that a saturating number, N, of myosin heads move an actin filament at a rate that is influenced by actin–myosin attachment and detachment kinetics is accounted for neither experimentally nor theoretically. To better understand the emergent mechanics of actin–myosin mechanochemistry, we use an in vitro motility assay to measure and correlate the N-dependence of actin sliding velocities, actin-activated ATPase activity, force generation against a mechanical load, and the calcium sensitivity of thin filament velocities. Our results show that both velocity and ATPase activity are strain dependent and that velocity becomes maximized with the saturation of myosin-binding sites on actin at a value that is 40% dependent on attachment kinetics and 60% dependent on detachment kinetics. These results support a chemical thermodynamic model for ensemble motor mechanochemistry and imply molecularly explicit mechanisms within this framework, challenging the assumption of independent force generation. |
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| AbstractList | Molecular motors such as kinesin and myosin often work in groups to generate the directed movements and forces critical for many biological processes. Although much is known about how individual motors generate force and movement, surprisingly, little is known about the mechanisms underlying the macroscopic mechanics generated by multiple motors. For example, the observation that a saturating number, N, of myosin heads move an actin filament at a rate that is influenced by actin-myosin attachment and detachment kinetics is accounted for neither experimentally nor theoretically. To better understand the emergent mechanics of actin-myosin mechanochemistry, we use an in vitro motility assay to measure and correlate the N-dependence of actin sliding velocities, actin-activated ATPase activity, force generation against a mechanical load, and the calcium sensitivity of thin filament velocities. Our results show that both velocity and ATPase activity are strain dependent and that velocity becomes maximized with the saturation of myosin-binding sites on actin at a value that is 40% dependent on attachment kinetics and 60% dependent on detachment kinetics. These results support a chemical thermodynamic model for ensemble motor mechanochemistry and imply molecularly explicit mechanisms within this framework, challenging the assumption of independent force generation. Molecular motors such as kinesin and myosin often work in groups to generate the directed movements and forces critical for many biological processes. Although much is known about how individual motors generate force and movement, surprisingly, little is known about the mechanisms underlying the macroscopic mechanics generated by multiple motors. For example, the observation that a saturating number, N , of myosin heads move an actin filament at a rate that is influenced by actin–myosin attachment and detachment kinetics is accounted for neither experimentally nor theoretically. To better understand the emergent mechanics of actin–myosin mechanochemistry, we use an in vitro motility assay to measure and correlate the N -dependence of actin sliding velocities, actin-activated ATPase activity, force generation against a mechanical load, and the calcium sensitivity of thin filament velocities. Our results show that both velocity and ATPase activity are strain dependent and that velocity becomes maximized with the saturation of myosin-binding sites on actin at a value that is 40% dependent on attachment kinetics and 60% dependent on detachment kinetics. These results support a chemical thermodynamic model for ensemble motor mechanochemistry and imply molecularly explicit mechanisms within this framework, challenging the assumption of independent force generation. |
| ArticleNumber | 101178 |
| Author | Dugan, Sam P. Murthy, Vidya Baker, Josh E. Stewart, Travis J. |
| Author_xml | – sequence: 1 givenname: Travis J. surname: Stewart fullname: Stewart, Travis J. organization: Department of Pharmacology, University of Nevada, Reno School of Medicine, Reno, Nevada, USA – sequence: 2 givenname: Vidya surname: Murthy fullname: Murthy, Vidya organization: Department of Biomedical Engineering, University of Nevada, Reno, Nevada, USA – sequence: 3 givenname: Sam P. surname: Dugan fullname: Dugan, Sam P. organization: Department of Pharmacology, University of Nevada, Reno School of Medicine, Reno, Nevada, USA – sequence: 4 givenname: Josh E. orcidid: 0000-0002-2101-5215 surname: Baker fullname: Baker, Josh E. email: jebaker@unr.edu organization: Department of Pharmacology, University of Nevada, Reno School of Medicine, Reno, Nevada, USA |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/34508779$$D View this record in MEDLINE/PubMed |
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| Keywords | myosin collective force actin mechanics velocity TRITC |
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| SubjectTerms | actin Actin Cytoskeleton - chemistry Actin Cytoskeleton - metabolism Actins - chemistry Actins - metabolism Animals Binding Sites collective force Kinetics mechanics Muscle Contraction myosin Myosins - chemistry Myosins - metabolism Rabbits velocity |
| Title | Velocity of myosin-based actin sliding depends on attachment and detachment kinetics and reaches a maximum when myosin-binding sites on actin saturate |
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