Mechanochemical properties of ordinary and dark muscle myosins from seawater fish

Myosin was isolated from two types of muscle, ordinary and dark muscles, of three species of fish living in sea water. The compositions of light chains were visualized by sodium dodecylsulfate–polyacrylamide gel electrophoresis (SDS‐PAGE), and the mechanochemical activity was examined by in vitro mo...

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Veröffentlicht in:Fisheries science 2007-02, Vol.73 (1), p.184-188
Hauptverfasser: OKAGAKI, Tsuyoshi, YANG, Lin, OOI, Atsushi
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YANG, Lin
OOI, Atsushi
description Myosin was isolated from two types of muscle, ordinary and dark muscles, of three species of fish living in sea water. The compositions of light chains were visualized by sodium dodecylsulfate–polyacrylamide gel electrophoresis (SDS‐PAGE), and the mechanochemical activity was examined by in vitro motility and ATPase assays. Ordinary muscle myosin of either species had three species of light chain, whereas dark muscle myosin had another two species of light chain judged by SDS‐PAGE. Sliding velocity of ordinary muscle myosin was in the range of 4.92–6.89 μm/s, whereas that of dark muscle myosin was in the range of 3.07–4.25 μm/s. Therefore, ordinary muscle myosin showed 1.26–1.95 times higher sliding velocity than dark muscle myosin in either species. The ratios of Vmax of actin‐activated Mg2+‐ATPase activity of ordinary to dark muscle myosins were correlated quite well to the ratios of sliding velocity. Activity of ordinary muscle myosin was comparable to that of mammalian fast muscle myosin, but that of dark muscle myosin was twice of that of mammalian slow muscle myosin. These results may reflect the essential role of fish dark muscle myosin always used in slow cruising.
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The compositions of light chains were visualized by sodium dodecylsulfate–polyacrylamide gel electrophoresis (SDS‐PAGE), and the mechanochemical activity was examined by in vitro motility and ATPase assays. Ordinary muscle myosin of either species had three species of light chain, whereas dark muscle myosin had another two species of light chain judged by SDS‐PAGE. Sliding velocity of ordinary muscle myosin was in the range of 4.92–6.89 μm/s, whereas that of dark muscle myosin was in the range of 3.07–4.25 μm/s. Therefore, ordinary muscle myosin showed 1.26–1.95 times higher sliding velocity than dark muscle myosin in either species. The ratios of Vmax of actin‐activated Mg2+‐ATPase activity of ordinary to dark muscle myosins were correlated quite well to the ratios of sliding velocity. Activity of ordinary muscle myosin was comparable to that of mammalian fast muscle myosin, but that of dark muscle myosin was twice of that of mammalian slow muscle myosin. These results may reflect the essential role of fish dark muscle myosin always used in slow cruising.</abstract><cop>Melbourne, Australia</cop><pub>Blackwell Publishing Asia</pub><doi>10.1111/j.1444-2906.2007.01317.x</doi><tpages>5</tpages></addata></record>
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subjects Chemical analysis
dark muscle
Electrophoresis
fast muscle
Fish
Lateolabrax japonicus
Mammals
Marine
motility assay
Muscles
myosin
ordinary muscle
Seawater
Seriola dumerili
slow muscle
Sodium
Trachurus japonicus
Velocity
Water analysis
title Mechanochemical properties of ordinary and dark muscle myosins from seawater fish
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