Muscle type-specific myosin isoforms in crustacean muscles.

Journal of Experimental Zoology Pub Date : 2000-01-01

W A LaFramboise, B Griffis, P Bonner, W Warren, D Scalise, R D Guthrie, R L Cooper

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Abstract

Differential expression of multiple myosin heavy chain (MyHC) genes largely determines the diversity of critical physiological, histochemical, and enzymatic properties characteristic of skeletal muscle. Hypotheses to explain myofiber diversity range from intrinsic control of expression based on myoblast lineage to extrinsic control by innervation, hormones, and usage. The unique innervation and specialized function of crayfish (Procambarus clarkii) appendicular and abdominal musculature provide a model to test these hypotheses. The leg opener and superficial abdominal extensor muscles are innervated by tonic excitatory motoneurons. High resolution SDS-PAGE revealed that these two muscles express the same MyHC profile. In contrast, the deep abdominal extensor muscles, innervated by phasic motoneurons, express MyHC profiles different from the tonic profiles. The claw closer muscles are dually innervated by tonic and phasic motoneurons and a mixed phenotype was observed, albeit biased toward the phasic profile seen in the closer muscle. These results indicate that multiple MyHC isoforms are present in the crayfish and that differential expression is associated with diversity of muscle type and function.

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甲壳类动物肌肉中肌肉类型特异性肌球蛋白同种异构体。

多种肌球蛋白重链(MyHC)基因的差异表达在很大程度上决定了骨骼肌关键生理、组织化学和酶特性的多样性。解释肌纤维多样性的假说范围从基于成肌细胞谱系的内在表达控制到神经支配、激素和使用的外在控制。克氏原螯虾(Procambarus clarkii)阑尾和腹部肌肉的独特神经支配和特殊功能为验证这些假设提供了一个模型。张腿肌和浅表腹伸肌受紧张性兴奋运动神经元支配。高分辨率SDS-PAGE显示这两块肌肉表达相同的MyHC谱。相比之下，由相位运动神经元支配的腹深伸肌表达与强直肌不同的MyHC谱。紧爪肌由强直运动神经元和相位运动神经元双重支配，观察到混合表型，尽管偏向于紧爪肌的相位轮廓。这些结果表明，在小龙虾中存在多种MyHC亚型，并且差异表达与肌肉类型和功能的多样性有关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Experimental Zoology

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