已鉴定的运动终端在果蝇幼虫的形态和生理上有明显的差异。

Journal of neurobiology Pub Date : 2000-05-01
G A Lnenicka, H Keshishian
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引用次数: 0

摘要

在果蝇中,支配幼虫腹侧纵肌纤维6和7的I型运动末梢是将突触研究与遗传学相结合的最流行的准备。我们进一步表征了这些运动末梢的正常形态和生理特性以及肌肉大小对末梢形态的影响。使用染料注射和生理技术,我们发现供应这些末端的两个轴突具有不同的神经支配模式:轴突1只支配肌肉纤维6和7,而轴突2支配所有腹纵向肌肉纤维。这种神经支配模式的差异使得两个轴突能够被可靠地识别。在肌纤维6和7上由轴突1和2形成的末端具有相同数量的分支;然而,轴突2终端比轴突1终端长约30%,导致轴突2的钮扣数量相应增加。轴突1的钮扣比轴突2的钮扣宽约30%。轴突1产生的兴奋性突触后电位(EPSP)通常小于轴突2产生的,尽管大小分布有相当大的重叠。与脊椎动物的研究一致,肌肉纤维大小与末端大小之间存在相关性。对于单个轴突,末端面积、长度、末端分支数、钮扣数均与肌纤维大小相关,而钮扣大小与肌纤维大小无关。在长时间的重复刺激下,轴突2运动终端显示突触抑制,而轴突1 epsp促进。对重复刺激的反应在轴突的所有运动末端似乎是相似的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Identified motor terminals in Drosophila larvae show distinct differences in morphology and physiology.

In Drosophila, the type I motor terminals innervating the larval ventral longitudinal muscle fibers 6 and 7 have been the most popular preparation for combining synaptic studies with genetics. We have further characterized the normal morphological and physiological properties of these motor terminals and the influence of muscle size on terminal morphology. Using dye-injection and physiological techniques, we show that the two axons supplying these terminals have different innervation patterns: axon 1 innervates only muscle fibers 6 and 7, whereas axon 2 innervates all of the ventral longitudinal muscle fibers. This difference in innervation pattern allows the two axons to be reliably identified. The terminals formed by axons 1 and 2 on muscle fibers 6 and 7 have the same number of branches; however, axon 2 terminals are approximately 30% longer than axon 1 terminals, resulting in a corresponding greater number of boutons for axon 2. The axon 1 boutons are approximately 30% wider than the axon 2 boutons. The excitatory postsynaptic potential (EPSP) produced by axon 1 is generally smaller than that produced by axon 2, although the size distributions show considerable overlap. Consistent with vertebrate studies, there is a correlation between muscle fiber size and terminal size. For a single axon, terminal area and length, the number of terminal branches, and the number of boutons are all correlated with muscle fiber size, but bouton size is not. During prolonged repetitive stimulation, axon 2 motor terminals show synaptic depression, whereas axon 1 EPSPs facilitate. The response to repetitive stimulation appears to be similar at all motor terminals of an axon.

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