Diversity of mechanical responses and their possible underlying mechanisms in the proboscis muscles ofBusycon canaliculatum |
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Authors: | Huddart H. Brooks D. D. Hill R. B. Lennard R. |
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Affiliation: | (1) Department of Zoology, The University of Rhode Island, Biological Sciences Building, 02881 Kingston, Rhode Island, USA;(2) Present address: Division of Biological Sciences, Institute of Environmental and Biological Sciences, University of Lancaster, LA1 4YO Lancaster, England;(3) Present address: School of Applied Biology, The Lancashire Polytechnic, PR1 2TQ Preston, England |
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Abstract: | Summary Mechanical responses of the radular protractor and retractor, the odontophore retractor and the radular sac muscles ofBusycon canaliculatum were compared. The radular protractor responded to both ACh and high K salines with similar slow, smooth contractures showing no evidence of fast twitch activity. The radular sac, odontophore retractor, and radular retractor muscles responded to low K salines with bursts of fast twitches at a mechanical threshold below that for responses in the radular protractor. With high K salines these three muscles showed inactivation of fast twitch activity and replacement by slow maintained tonic force. With rare exceptions, the ACh responses of all four muscles consisted of slow, maintained tonic contractures with no fast twitch activity, although individual muscles differed in their ACh sensitivity. A scheme is presented to explain the mechanical modus operandi of this complex organ by the co-operative actions of these four physiologically diverse muscles. It is proposed that fast twitch responses depend upon the activity of fast transient Ca channels showing strong voltage sensitivity and ready voltage inactivation. It is proposed that maintained tonic contractures in all the muscles depends upon the activity of slow long-lasting voltage-dependent Ca channels which only open with substantial membrane depolarization. It is suggested that K-induced and ACh-induced responses may activate a similar cellular Ca pool but by different membrane transduction routes. |
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Keywords: | Busycon canaliculatum Proboscis muscles K-induced responses ACh-induced responses Calcium dependency |
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