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Biophys J, October 2002, p. 1854-1866, Vol. 83, No. 4
Biochemistry, Molecular Biology, and Biophysics Department, University of Minnesota, Minneapolis, Minnesota 55455 USA
We have developed a computational molecular dynamics
technique to simulate the motions of spin labels bound to the
regulatory domain of scallop myosin. These calculations were then
directly compared with site-directed spin labeling experimental results obtained by preparing seven single-cysteine mutants of the smooth muscle (chicken gizzard) myosin regulatory light chain and performing electron paramagnetic resonance experiments on these spin-labeled regulatory light chains in functional scallop muscle fibers. We determined molecular dynamics simulation conditions necessary for
obtaining a convergent orientational trajectory of the spin label, and
from these trajectories we then calculated correlation times,
orientational distributions, and order parameters. Simulated order
parameters closely match those determined experimentally, validating
our molecular dynamics modeling technique, and demonstrating our
ability to predict preferred sites for labeling by computer simulation.
In several cases, more than one rotational mode was observed within the
14-ns trajectory, suggesting that the spin label samples several local
energy minima. This study uses molecular dynamics simulations of an
experimental system to explore and enhance the site-directed spin
labeling technique.
Biophys J, October 2002, p. 1854-1866, Vol. 83, No. 4
© 2002 by the Biophysical Society 0006-3495/02/10/1854/13 $2.00
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