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W2110547545 endingPage "550" @default.
W2110547545 startingPage "537" @default.
W2110547545 abstract "Electrogenic communication appears to have evolved independently in a variety of animal and plant lineages. Considered here are metazoan cells as disparate as the loose three-dimensional parenchyma of glass sponges, the two-dimensional epithelial sheets of hydrozoan jellyfish and the egg cell membranes of the ctenophore Beroe ovata, all of which are capable of generating electrical impulses. Neuronal electrogenesis may have evolved independently in ctenophores and cnidarians but the dearth of electrophysiological data relating to ctenophore nerves means that our attention is focused on the Cnidaria, whose nervous systems have been the subject of extensive study. The aim here is to show how their active and passive neuronal properties interact to give integrated behaviour. Neuronal electrogenesis, goes beyond simply relaying ‘states of excitement’ and utilizes the equivalent of a set of basic electrical ‘apps’ to integrate incoming sensory information with internally generated pacemaker activity. A small number of membrane-based processes make up these analogue applications. Passive components include the decremental spread of current determined by cellular anatomy; active components include ion channels specified by their selectivity and voltage dependence. A recurring theme is the role of inactivating potassium channels in regulating performance. Although different aspects of cnidarian behaviour are controlled by separate neuronal systems, integrated responses and coordinated movements depend on interactions between them. Integrative interactions discussed here include those between feeding and swimming, between tentacle contraction and swimming and between slow and fast swimming in the hydrozoan jellyfish Aglantha digitale." @default.
W2110547545 created "2016-06-24" @default.
W2110547545 creator A5016478912 @default.
W2110547545 date "2015-02-15" @default.
W2110547545 modified "2023-10-18" @default.
W2110547545 title "Electrogenesis in the lower Metazoa and implications for neuronal integration" @default.
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W2110547545 doi "https://doi.org/10.1242/jeb.111955" @default.
W2110547545 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4334145" @default.
W2110547545 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25696817" @default.
W2110547545 hasPublicationYear "2015" @default.
W2110547545 type Work @default.
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