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Light-directed generation of the actin-activated ATPase activity of caged heavy meromyosin.

Biochemistry (1996-03-12)
G Marriott, M Heidecker
ABSTRACT

An understanding of the molecular mechanism of muscle contraction will require a complete description of the kinetics of the myosin motor in vitro and in vivo. To this end chemical relaxation studies employing light-directed generation of ATP from caged ATP have provided detailed kinetic information in muscle fibers. A more direct approach would be to trigger the actin-activated ATPase activity from a caged myosin, i.e., myosin whose activity is blocked upon derivatization with a photolabile protection group. Herein we report that a new type of caged reagent can be used to prepare a caged heavy meromyosin by modification of critical thiol groups, i.e., a chemically modified motor without activity that can be reactivated at will using a pulse of near-ultraviolet light. Heavy meromyosin modified at Cys-707 with the thiol reactive reagent 1-(bromomethyl)-2-nitro-4,5-dimethoxybenzene does not exhibit an actin-activated ATPase activity and may be viewed as a caged protein. Absorption spectroscopy showed that the thioether bond linking the cage group to Cys-707 is cleaved following irradiation (340-400 nm) via a transient aci-nitro intermediate which has an absorption maximum at 440 nm and decays with a rate constant of 45.6 s(-1). The in vitro motility assay showed that caged heavy meromyosin cannot generate the force necessary to move actin filaments although following irradiation of the image field with a 30 ms pulse of 340-400 nm light the caged group was removed with the concomitant movement of most filaments at a velocity of 0.5-2 micron/s compared to 3-4 micron/s for unmodified HMM. The specificity and simplicity of labeling myosin with the caged reagent should prove useful in studies of muscle contraction in vivo.

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Sigma-Aldrich
4,5-Dimethoxy-2-nitrobenzyl bromide, 97%