Fine structural differences in "fast" and "slow" muscle fibers of the crab.

Abstract

AbstractThe muscle fibers in the accessory flexor muscle of the crab were examined with the electron microscope. The limiting membrane of the muscle fiber invaginates at many points to form an internal extrafibrillar membranous system between the muscle fibrils. Two types of muscle fiber were found. In one, the fibrils are well separated from each other by an extensive membranous system, the sarcomere lengths are short, and the filaments in the A band are thick. This muscle fiber is the same as the fast fiber previously found physiologically. The other type of muscle fiber has large fibrils poorly separated by a relatively scant system of internal membranes. It has relatively long sarcomeres and comparatively thin filaments in the A band. This type of fiber is the same as the slow fibers described physiologically. Fibers intermediate in type are also found. Nerve terminals with typical synaptic vesicles occur and appear similar on both types of muscle fiber under the electron microscope. Membrane thickenings of nerve ending and muscle fiber also occur at the terminals on both types of muscle fiber. The nerve terminals on the fast fiber are much more easily found and hence more numerous than on the slow fiber. A comparison is made between the invertebrate and vertebrate fast and slow fibers, and some physiological implications of these findings are discussed.