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Expression Studies of Other Unconventional Myosins

$716,548ZIAFY2021HLNIH

National Heart, Lung, And Blood Institute

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Abstract

In collaboration with Philipp Kukura of Oxford University, we have used a light microscopy based interferometric scattering technique to examine the processive movement of myosin 5 HMM on actin. By attaching a 20 nm gold particle to the amino-terminus of myosin 5a we are able to measure the movement at sampling rates up to 1000 Hz and follow the movement of the unattached labeled myosin head. Using super resolution methods, we have been able to resolve the single stepping behavior of this myosin into 8 peaks representing individual steps ranging from 11-17 actin monomers with starting head separations of 11, 13, 15, or 17 actin monomers. If the gold bead is placed on the tail of the myosin 5a HMM, we see that the tail transiently moves forward to a position that is further along the actin filament before relaxing back to its rest position. We have begun to analyze the structure and stepping pattern of myosin-6, a processive myosin which moves in the opposite direction on actin compared to other myosins. EM studies show that the angle between the two heads is more variable than in most myosins and that when bound to actin, the motors can be spaced at 13 actins (preferred) or 11 or 15 actin monomers apart. Optical trapping and EM studies demonstrate that the molecule can sometimes take an inchworm like step where the two heads occupy closely spaced binding sites. We have expressed full length mammalian myosin 7a and find that it is autoinhibited, similiar to what we found with its Drosophila homolog. We are examining whether known binding partners can relieve this inhibition.

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