Molecular mechanics of two smooth muscle heavy meromyosin constructs that differ by an insert in the motor domain

Abstract

Phasic and tonic smooth muscles express two myosin heavy chain isoforms that differ by only a seven amino acid insert in a flexible surface loop located near the nucleotide‐binding site. The inserted isoform found predominantly in phasic muscle has two times the actin‐activated ATPase activity and in vitro actin filament velocity as the non‐insert isoform found mainly in tonic muscle (Kelley, C.A., Takahashi, M., Yu, J.H. & Adelstein, R.S. 1993. J Biol Chem268, 12848, Rovner, A.S., Freyzon, Y. & Trybus, K.M. 1997. J Musc Res Cell Motil18, 103). We used a laser trap to characterize the molecular mechanics of the inserted isoform [(+)insert] and of a mutant lacking the insert [(−)insert], which is analogous to the isoform found in tonic muscles. The constructs were expressed in the baculovirus/insect cell system. Unitary displacements (D_uni) were similar for both the constructs (≈10 nm) but the attachment time (t_on) for the (−)insert was two times that of the (+)insert. These data suggest that the insert in the nucleotide‐binding loop does not affect the inherent mechanics of the myosin molecule but rather the kinetics of the cross‐bridge cycle.