Histochemical and biochemical characterization of two slow fiber types in decapod crustacean muscles

Abstract

Myofibrillar proteins in muscles of the claws and abdomen of lobster, Homarus americanus, and the claws of fiddler crab, Uca pugnax, and land crab, Gecarcinus lateralis, have been analyzed with sodium dodecyl sulfate‐polyacrylamide gel electrophoresis. Fibers contained numerous isoforms of structural and regulatory proteins in assemblages correlated with fiber type. One fast (F) and two slow (S₁ and S₂) fibers were identified. All F fibers possessed two isoforms of paramyosin (P₁ and P₂), while all slow fibers, with the exception of Uca major claw, contained only the P₂ variant. S₁ and S₂ fibers were distinguished by the distribution of a large isoform of troponin‐T (T₁; M_r = 55,000); S₂ fibers in all three species contained T₁ in addition to one or two smaller‐molecular‐weight variants usually associated with S₁ fibers. In order to determine whether the slow fibers differed in histochemical properties, land crab claw closer muscle was cryosectioned and stained for myofibrillar ATPase and NADH diaphorase activities. Most S₂ fibers had lower ATPase and higher NADH diaphorase activities than S₁ fibers, which indicated that S₂ fibers had a lower rate of contraction and were more fatigue‐resistant than S₁ fibers. It is proposed that the S₁ and S₂ fibers defined by biochemical and histochemical criteria are identical to the slow‐twitch and tonic fibers, respectively, characterized physiologically.