Twarog B M
J Gen Physiol. 1967 Jul;50(6):Suppl:157-69. doi: 10.1085/jgp.50.6.157.
Molluscan catch muscles are smooth muscles. As with mammalian smooth muscles, there is no transverse ordering of filaments or dense bodies. In contrast to mammalian smooth muscles, two size ranges of filaments are present. The thick filaments are long as well as large in diameter and contain paramyosin. The thin filaments contain actin and appear to run into and join the dense bodies. Vesicles are present which may be part of a sarcoplasmic reticulum. Neural activation of contraction in Mytilus muscle is similar to that observed in mammalian smooth muscles, and in some respects to frog striated muscle. The relaxing nerves, which reduce catch, are unique to catch muscles. 5-Hydroxytryptamine, which appears to mediate relaxation, specifically blocks catch tension but increases the ability of the muscle to fire spikes. It is speculated that Mytilus muscle actomyosin is activated by a Ca(++)-releasing mechanism, and that 5-hydroxytryptamine may reduce catch and increase excitability by influencing the rate of removal of intracellular free Ca(++).
软体动物的捕捉肌是平滑肌。与哺乳动物的平滑肌一样,不存在细丝或致密体的横向排列。与哺乳动物的平滑肌不同,存在两种大小范围的细丝。粗丝既长且直径大,并且含有副肌球蛋白。细丝含有肌动蛋白,似乎延伸并连接到致密体。存在一些小泡,它们可能是肌浆网的一部分。贻贝肌肉收缩的神经激活与哺乳动物平滑肌中观察到的情况相似,在某些方面与青蛙的横纹肌相似。减少捕捉的舒张神经是捕捉肌所特有的。5-羟色胺似乎介导舒张,它特异性地阻断捕捉张力,但增加肌肉产生动作电位的能力。据推测,贻贝肌肉的肌动球蛋白是由一种释放Ca(++)的机制激活的,并且5-羟色胺可能通过影响细胞内游离Ca(++)的清除速率来降低捕捉并增加兴奋性。