Three identical myosin heavy chain isoforms were detected across five muscular tissues of the squid Doryteuthis pealeii, suggesting contractile speeds are tuned by muscle ultrastructure.
The study suggests that differences in muscle ultrastructure, rather than myosin ATPase activity, tune contractile speeds in squid muscular tissues.
The speed of muscle contraction is largely controlled at the sarcomere level by the ATPase activity of the motor protein myosin. Differences in amino acid sequence in catalytically important regions of myosin yield different myosin isoforms with varying ATPase activities and resulting differences in cross-bridge cycling rates and interfilamentary sliding velocities. Modulation of whole-muscle performance by changes in myosin isoform ATPase activity is regarded as a universal mechanism to tune contractile properties, especially in vertebrate muscles. Invertebrates such as squid, however, may exhibit an alternative mechanism to tune contractile properties that is based on differences in muscle ultrastructure, including variable myofilament and sarcomere lengths. To determine definitively whether contractile properties of squid muscles are regulated via different myosin isoforms (i.e. different ATPase activities), the nucleotide and amino acid sequences of the myosin heavy chain from the squid Doryteuthis pealeii were determined from the mantle, arm, tentacle, fin and funnel retractor musculature. We identified three myosin heavy chain isoforms in squid muscular tissues, with differences arising at surface loop 1 and the carboxy terminus. All three isoforms were detected in all five tissues studied. These results suggest that the muscular tissues of D. pealeii express identical myosin isoforms, and it is likely that differences in muscle ultrastructure, not myosin ATPase activity, represent the most important mechanism for tuning contractile speeds.
Shaffer et al. (Wed,) reported a other. Three identical myosin heavy chain isoforms were detected across five muscular tissues of the squid Doryteuthis pealeii, suggesting contractile speeds are tuned by muscle ultrastructure.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: