Smooth muscle and skeletal muscle myosins produce similar unitary forces and displacements in the laser trap.

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Smooth muscle and skeletal muscle myosins produce similar unitary forces and displacements in the laser trap.

W H Guilford, D E Dupuis, G Kennedy, J Wu, J B Patlak and D M Warshaw

Department of Molecular Physiology and Biophysics, University of Vermont, Burlington 05405, USA.

ABSTRACT

Purified smooth muscle myosin in the in vitro motility assaypropels actin filaments at 1/10 the velocity, yet produces 3-4times more force than skeletal muscle myosin. At the level ofa single myosin molecule, these differences in force and actinfilament velocity may be reflected in the size and durationof single motion and force-generating events, or in the kineticsof the cross-bridge cycle. Specifically, an increase in eitherunitary force or duty cycle may explain the enhanced force-generatingcapacity of smooth muscle myosin. Similarly, an increase inattached time or decrease in unitary displacement may explainthe reduced actin filament velocity of smooth muscle myosin.To discriminate between these possibilities, we used a lasertrap to measure unitary forces and displacements from singlesmooth and skeletal muscle myosin molecules. We analyzed ourdata using mean-variance analysis, which does not rely on scoringindividual events by eye, and emphasizes periods in the datawith constant properties. Both myosins demonstrated multiplebut similar event populations with discrete peaks at approximately+11 and -11 nm in displacement, and 1.5 and 3.5 pN in force.Mean attached times for smooth muscle myosin were longer thanfor skeletal-muscle myosin. These results explain much of thedifference in actin filament velocity between these myosins,and suggest that an increased duty cycle is responsible forthe enhanced force-generating capacity of smooth over skeletal-musclemyosin.

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				N. M. Kad, S. Kim, D. M. Warshaw, P. VanBuren, and J. E. Baker Single-myosin crossbridge interactions with actin filaments regulated by troponin-tropomyosin PNAS, November 22, 2005; 102(47): 16990 - 16995. [Abstract] [Full Text] [PDF]

				P. Graceffa and A. Mazurkie Effect of Caldesmon on the Position and Myosin-induced Movement of Smooth Muscle Tropomyosin Bound to Actin J. Biol. Chem., February 11, 2005; 280(6): 4135 - 4143. [Abstract] [Full Text] [PDF]

				W. Steffen and J. Sleep Repriming the actomyosin crossbridge cycle PNAS, August 31, 2004; 101(35): 12904 - 12909. [Abstract] [Full Text] [PDF]

				J. J. Sherwood, G. S. Waller, D. M. Warshaw, and S. Lowey A point mutation in the regulatory light chain reduces the step size of skeletal muscle myosin PNAS, July 27, 2004; 101(30): 10973 - 10978. [Abstract] [Full Text] [PDF]

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				J. E. Baker, C. Brosseau, P. Fagnant, and D. M. Warshaw The Unique Properties of Tonic Smooth Muscle Emerge from Intrinsic as Well as Intermolecular Behaviors of Myosin Molecules J. Biol. Chem., August 1, 2003; 278(31): 28533 - 28539. [Abstract] [Full Text] [PDF]

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				J. R. Moore, E. B. Krementsova, K. M. Trybus, and D. M. Warshaw Myosin V exhibits a high duty cycle and large unitary displacement J. Cell Biol., November 12, 2001; 155(4): 625 - 636. [Abstract] [Full Text] [PDF]

				P. C. Geiger, M. J. Cody, R. L. Macken, M. E. Bayrd, Y.-H. Fang, and G. C. Sieck Plasticity in Skeletal, Cardiac, and Smooth Muscle: Selected Contribution: Mechanisms underlying increased force generation by rat diaphragm muscle fibers during development J Appl Physiol, January 1, 2001; 90(1): 380 - 388. [Abstract] [Full Text] [PDF]

				M. J. Tyska, E. Hayes, M. Giewat, C. E. Seidman, J. G. Seidman, and D. M. Warshaw Single-Molecule Mechanics of R403Q Cardiac Myosin Isolated From the Mouse Model of Familial Hypertrophic Cardiomyopathy Circ. Res., April 14, 2000; 86(7): 737 - 744. [Abstract] [Full Text] [PDF]

				P. VanBuren, K. A. Palmiter, and D. M. Warshaw Tropomyosin directly modulates actomyosin mechanical performance at the level of a single actin filament PNAS, October 26, 1999; 96(22): 12488 - 12493. [Abstract] [Full Text] [PDF]

				A. D. Mehta, M. Rief, and J. A. Spudich Biomechanics, One Molecule at a Time J. Biol. Chem., May 21, 1999; 274(21): 14517 - 14520. [Full Text] [PDF]

				M. J. Tyska, D. E. Dupuis, W. H. Guilford, J. B. Patlak, G. S. Waller, K. M. Trybus, D. M. Warshaw, and S. Lowey Two heads of myosin are better than one for generating force and motion PNAS, April 13, 1999; 96(8): 4402 - 4407. [Abstract] [Full Text] [PDF]

				T. A.�J. Duke Molecular model of muscle contraction PNAS, March 16, 1999; 96(6): 2770 - 2775. [Abstract] [Full Text] [PDF]

				A. D. Mehta, M. Rief, J. A. Spudich, D. A. Smith, and R. M. Simmons Single-Molecule Biomechanics with Optical Methods Science, March 12, 1999; 283(5408): 1689 - 1695. [Abstract] [Full Text]

				D. M. Warshaw, E. Hayes, D. Gaffney, A.-M. Lauzon, J. Wu, G. Kennedy, K. Trybus, S. Lowey, and C. Berger Myosin conformational states determined by single fluorophore polarization PNAS, July 7, 1998; 95(14): 8034 - 8039. [Abstract] [Full Text] [PDF]

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