Abstract
The mechanical performance of red and white muscle fibres from dogfish was compared during a long series of contractions with sinusoidal movement or under isometric conditions at 12 degrees C (normal in vivo temperature). Power output was measured during sinusoidal movement at 0.75 Hz and peak-to-peak amplitude about 12% L(0). Tetanus duty cycle was 33% (0.44 s) at phase -8% (first stimulus at 0.107 s before shortening started). Initially, the red fibres produced only about one third as much power as the white fibres, 6.57+/-0.63 W kg(-1) wet mass (mean +/- s.e.m.) and 18.3+/-2.3, respectively. Red fibres were better at sustaining power output; it declined rapidly to about 60% of its initial value and then remained relatively steady for up to 450 cycles of movement. Force during shortening declined, but force during stretch did not increase: force always relaxed to a low value before stretch started. By contrast, net power output by white fibres declined rapidly to zero within about 50 cycles. Two changes contributed: decline in force during shortening and an increase in force during stretch because relaxation became progressively less complete during the series of contractions. In isometric series (0.44 s stimulation every 1.33 s, cycle frequency 0.75 Hz), red and white fibres sustained peak isometric force similarly; in the 50th cycle force was 59+/-3% and 56+/-4% of initial values. The time required for force to relax to 10% of its maximum value decreased during the series for red fibres and increased for white fibres.
Highlights
The contractile performance of fast-twitch white fibres and slowtwitch red fibres that make up the myotomal muscle of fish have been extensively studied from the point of view of their role in swimming of intact fish and the underlying biochemical and energetic processes
We report an investigation of the power output of muscle fibres from the dogfish, Scyliorhinus canicula, when performing long series of contractions with sinusoidal movement
We found as expected that red fibres maintained performance better than white fibres
Summary
The contractile performance of fast-twitch white fibres and slowtwitch red fibres that make up the myotomal muscle of fish have been extensively studied from the point of view of their role in swimming of intact fish and the underlying biochemical and energetic processes. Most of these observations were made during a few cycles of movement and stimulation of fully rested fibres. We report an investigation of the power output of muscle fibres from the dogfish, Scyliorhinus canicula, when performing long series of contractions with sinusoidal movement. Corresponding series of isometric tetani were done to see how movement influences progressive changes in mechanical performance
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