2012
DOI: 10.1074/jbc.m111.321752
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G146V Mutation at the Hinge Region of Actin Reveals a Myosin Class-specific Requirement of Actin Conformations for Motility

Abstract: Background:The roles of conformational changes of actin in myosin motility are unclear. Results: A G146V mutation in actin, which perturbed its conformation, impaired force generation by myosin II, but not by myosin V. Conclusion: Conformational changes of actin involving Gly-146 have critical roles in motility of myosin II, but not of myosin V. Significance: The mechanism of motility may be different between myosin types.

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Cited by 18 publications
(21 citation statements)
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References 41 publications
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“…It is noteworthy that Rng2CHD did not inhibit actin filament movement on myosin V HMM, which is well established to move actin filaments processively with a lever arm swing (Forkey et al, 2003, Kodera et al, 2010. In line with this finding, two actin mutations, M47A (Kubota et al, 2009) and G146V (Noguchi et al, 2012), both of which likely perturb conformational changes of actin filaments, inhibit actin movements on myosin II, but not on myosin V. We suggest that the movement by myosin II, which is a fast and non-processive motor, requires some unidentified structural property of actin filaments which is dispensable for the slow and processive myosin V involving the lever arm swing. Further studies are needed to understand the mechanism by which actin filaments structurally altered by Rng2CHD fails to move on myosin II.…”
Section: The Mechanism By Which Structural Changes Of Actin Filamentssupporting
confidence: 66%
“…It is noteworthy that Rng2CHD did not inhibit actin filament movement on myosin V HMM, which is well established to move actin filaments processively with a lever arm swing (Forkey et al, 2003, Kodera et al, 2010. In line with this finding, two actin mutations, M47A (Kubota et al, 2009) and G146V (Noguchi et al, 2012), both of which likely perturb conformational changes of actin filaments, inhibit actin movements on myosin II, but not on myosin V. We suggest that the movement by myosin II, which is a fast and non-processive motor, requires some unidentified structural property of actin filaments which is dispensable for the slow and processive myosin V involving the lever arm swing. Further studies are needed to understand the mechanism by which actin filaments structurally altered by Rng2CHD fails to move on myosin II.…”
Section: The Mechanism By Which Structural Changes Of Actin Filamentssupporting
confidence: 66%
“…In this scenario, the on state has a higher FRET efficiency than the off state, and the G146V mutant actin does not easily take the on state, either kinetically or thermodynamically. Consistent with this hypothesis, our earlier biochemical study suggests that the motility defect of G146V actin filaments with myosin II derives from two defects; i.e., slower transition from the weakly bound state to the strongly bound state and the lower affinity during the strongly bound state [ 29 ].…”
Section: Resultsmentioning
confidence: 65%
“…The buffer contained 20 mM HEPES (pH 7.8), 5 mM MgCl 2 , 25 mM KCl, 1 mM EGTA, 0.5 mM DTT, 0.5 mM ATP, and 1.2-fold molar excess of phalloidin (Sigma). Phalloidin has no effect on the motility defect of sk MII HMM with G146V mutation [ 29 ].…”
Section: Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…Finally, Uyeda presented effects of point mutations in actin expected to perturb conformational dynamics within or between actin molecules. When tested with in vitro motility assays these mutations inhibit the sliding velocity of actin filaments by myosin II immobilized on glass, but not by immobilized myosin V (Kubota, Mikhailenko, Okabe, Taguchi, & Ishiwata, ; Noguchi et al, ). These results indicate that myosin II requires conformational dynamics of actin protomers or the propagation of conformational changes along an actin filament to work as an assembled system, but the processive myosin V motor does not.…”
Section: Bodymentioning
confidence: 99%