Phosphorylation-dependent power output of transgenic flies: an integrated study.

Phosphorylation-dependent power output of transgenic flies: an integrated study.

M H Dickinson, C J Hyatt, F O Lehmann, J R Moore, M C Reedy, A Simcox, R Tohtong, J O Vigoreaux, H Yamashita and D W Maughan

Department of Integrative Biology, University of California, Berkeley 94720, USA.

ABSTRACT

We examine how the structure and function of indirect flightmuscle (IFM) and the entire flight system of Drosophila melanogasterare affected by phosphorylation of the myosin regulatory lightchain (MLC2). This integrated study uses site-directed mutagenesisto examine the relationship between removal of the myosin lightchain kinase (MLCK) phosphorylation site, in vivo function ofthe flight system (flight tests, wing kinematics, metabolism,power output), isolated IFM fiber mechanics, MLC2 isoform pattern,and sarcomeric ultrastructure. The MLC2 mutants exhibit gradedimpairment of flight ability that correlates with a reductionin both IFM and flight system power output and a reduction inthe constitutive level of MLC2 phosphorylation. The MLC2 mutantshave wild-type IFM sarcomere and cross-bridge structures, rulingout obvious changes in the ultrastructure as the cause of thereduced performance. We describe a viscoelastic model of cross-bridgedynamics based on sinusoidal length perturbation analysis (Nyquistplots) of skinned IFM fibers. The sinusoidal analysis suggeststhe high power output of Drosophila IFM required for flightresults from a phosphorylation-dependent recruitment of power-generatingcross-bridges rather than a change in kinetics of the powergenerating step. The reduction in cross-bridge number appearsto affect the way mutant flies generate flight forces of sufficientmagnitude to keep them airborne. In two MLC2 mutant strainsthat exhibit a reduced IFM power output, flies appear to compensateby lowering wingbeat frequency and by elevating wingstroke amplitude(and presumably muscle strain). This behavioral alteration isnot seen in another mutant strain in which the power outputand estimated number of recruited cross-bridges is similar tothat of wild type.

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