机械感受器中的感觉转导机制。蜕皮周期中钟形感器的功能阶段。
The mechanism of sensory transduction in a mechanoreceptor. Functional stages in campaniform sensilla during the molting cycle.
作者信息
Moran D T, Rowley J C, Zill S N, Varela F G
出版信息
J Cell Biol. 1976 Dec;71(3):832-47. doi: 10.1083/jcb.71.3.832.
Abstract
This paper describes the ultrastructural modifications that cockroach campaniform sensilla undergo at three major stages in the molting cycle and finds that the sensilla are physiological functional at all developmental stages leading to ecdysis. Late stage animals on the verge of ecdysis have two completely separate cuticles. The campaniform sensillum sends a 220-mum extension of the sensory process through a hole in its cap in the new (inner) cuticle across a fluid-filled molting space to its functional insertion in the cap in the old (outer) cuticle. Mechanical stimulation of the old cap excites the sensillum. The ultrastructural geometry of late stage sensilla, coupled with the observation they are physiolgically functional, supports the hypotheses (a) that sensory transduction occurs at the tip of the sensory process, and (b) that cap identation causes the cap cuticle to pinch the tip of the sensory process, thereby stimulating the sensillum.
摘要
本文描述了蟑螂钟形感器在蜕皮周期三个主要阶段所经历的超微结构变化,并发现这些感器在导致蜕皮的所有发育阶段均具有生理功能。处于蜕皮边缘的后期动物有两个完全分离的表皮。钟形感器通过其在新(内层)表皮中的帽上的一个孔,将感觉突起延伸220微米,穿过充满液体的蜕皮间隙,到达其在旧(外层)表皮帽中的功能插入点。对旧帽的机械刺激会激发感器。后期感器的超微结构几何形状,以及它们具有生理功能的观察结果,支持了以下假设:(a)感觉转导发生在感觉突起的尖端;(b)帽的凹陷导致帽表皮挤压感觉突起的尖端,从而刺激感器。
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The fine structure of cockroach campaniform sensilla.蟑螂钟形感器的精细结构。
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