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寄生海葵取食过程中口张开和咽突出的控制

Control of mouth opening and pharynx protrusion during feeding in the sea anemone Calliactis parasitica.

作者信息

McFarlane I D

出版信息

J Exp Biol. 1975 Dec;63(3):615-26. doi: 10.1242/jeb.63.3.615.

DOI:10.1242/jeb.63.3.615
PMID:2645
Abstract
  1. Activity in all three known conducting systems (the nerve net, SS1, and SS2) may accompany feeding in Calliactis. The most marked response is an increase in pulse frequency in the SS2 (the endodermal slow conducting system) during mouth opening and pharynx protrusion. 2. Electrical stimulation of the SS2 at a frequency of one shock every 5 s elicits mouth opening and pharynx protrusion in the absence of food. 3. A rise in SS2 pulse frequency is also evoked by food extracts, some amino acids, and in particular by the tripeptide reduced glutathione, which produces a response at a concentration of 10(-5) M. 4. Although the SS2 is an endodermal system, the receptors involved in the response to food appear to be ectodermal. 5. The epithelium that lines the pharynx conducts SS1 pulses, but there is some evidence for polarization of conduction.
摘要
  1. 在Calliactis进食过程中,所有三个已知传导系统(神经网、SS1和SS2)的活动可能会伴随出现。最明显的反应是在张口和咽突出过程中,SS2(内胚层慢传导系统)的脉冲频率增加。2. 以每5秒一次电击的频率对SS2进行电刺激,在没有食物的情况下会引发张口和咽突出。3. 食物提取物、一些氨基酸,特别是三肽还原型谷胱甘肽也会引起SS2脉冲频率升高,还原型谷胱甘肽在浓度为10(-5) M时会产生反应。4. 尽管SS2是一个内胚层系统,但参与对食物反应的受体似乎是外胚层的。5. 咽内衬的上皮传导SS1脉冲,但有一些证据表明传导存在极化现象。

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