Influence of myosin isoforms on contractile properties of intact muscle fibers from Rana pipiens

The myosin heavy chain (MHC) andmyosin light chain (MLC) isoforms in skeletal muscle of Ranapipiens have been well characterized. We measured theforce-velocity (F-V) properties of single intact fast-twitchfibers from R. pipiens that contained MHC types 1 or 2 (MHC1or MHC2) or coexpressed MHC1 and MHC2 isoforms. Velocities weremeasured between two surface markers that spanned most of the fiberlength. MHC and MLC isoform content was quantified after mechanicsanalysis by SDS-PAGE. Maximal shortening velocity(V_max) and velocity at half-maximal tension(V_P 50) increased with percentage of MHC1(%MHC1). Maximal specific tension (P_o/CSA, whereP_o is isometric tension and CSA is fiber cross-sectional area) and maximal mechanical power (W_max) alsoincreased with %MHC1. MHC concentration was not significantlycorrelated with %MHC1, indicating that the influence of %MHC1 onP_o/CSA and W_max was due to intrinsicdifferences between MHC isoforms and not to concentration. TheMLC3-to-MLC1 ratio was not significantly correlated withV_max, V_P 50,P_o/CSA, or W_max. These data demonstrate the powerful relationship between MHC isoforms and F-V properties of the two most common R. pipiensfiber types.