Evolution of myogenesis in fish: a sturgeon view of the mechanisms of muscle development.

Anatomy and Embryology Pub Date : 2006-08-01 Epub Date: 2006-02-28 DOI:10.1007/s00429-006-0082-4

P Steinbacher, J R Haslett, A M Sänger, W Stoiber

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引用次数: 17

Abstract

Patterns of initial muscle formation are well documented for teleost fish. Here, attention is focused upon sturgeons, which arose close to the base of the actinopterygian radiation and whose early development has remained largely unresearched. We demonstrate that some features of muscle development are common to both groups of fish, the most important being the origin and form of migration of adaxial cells to establish the superficial slow fibre layer. This, together with information on initial innervation and capillarisation, strongly suggests a common basis for muscle developmental mechanisms among fish. An important feature that is different between sturgeons and teleosts is that sturgeons lack any cellular dorsal-ventral separation of the myotome that involves the insertion of muscle pioneer (MP)-like cells at the site of the future horizontal septum. This, and information from other fish and from sarcopterygians, permits the supposition that such MP-defined dorsal-ventral separation is a teleost apomorphism. These and other findings are discussed in relation to their significance for the evolution of fish muscle developmental patterns.

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鱼类肌肉形成的进化:肌肉发育机制的鲟鱼观点。

硬骨鱼的初始肌肉形成模式有很好的文献记载。在这里，人们的注意力集中在鲟鱼身上，鲟鱼是在放射线辐射的基础附近出现的，其早期发育在很大程度上仍未得到研究。我们证明了两种鱼类肌肉发育的一些特征是共同的，最重要的是近轴细胞的起源和迁移形式，以建立浅表慢纤维层。这一点，连同关于初始神经支配和毛细化的信息，有力地表明了鱼类肌肉发育机制的共同基础。鲟鱼和硬骨鱼之间的一个重要区别是，鲟鱼没有任何细胞背腹分离的肌组，这涉及到在未来水平隔膜的位置插入肌肉先锋(MP)样细胞。这一点，以及来自其他鱼类和肉鳍动物的信息，允许这样一种假设，即这种由mp定义的背-腹分离是硬骨鱼的拟态。这些和其他研究结果讨论了它们对鱼类肌肉发育模式进化的意义。

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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Anatomy and Embryology

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