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W2001057465 abstract "The molluscan neuron, because of its large size and accessibility, has been an important model for studying the electrophysiology of nerve cells. This review catalogs data about specific molluscan neurons, but the greater importance of this material is in the broad picture of how a neuronal membrane maintains internal potential and is responsive to changes in the environment. Electrical properties of the membrane. The mechanisms which contribute to the resting potential in molluscan neurons can be separated into ionic and metabolic components. When the electrogenic sodium pump is eliminated experimentally, the ionic component of the potential follows the constant field equation quite closely. Many of the constants and parameters which characterize the membrane of molluscan neurons are actually variables which depend upon temperature, ionic environment, and membrane potential. The evaluation of the electrical parameters is complicated by extensive infoldings of the somatic membrane, and by large axons which drain current from the soma. Most molluscan neurons have a very high specific membrane resistance and a correspondingly low potassium permeability. Membrane capacitance is close to the 1 microF/cm2 value which characterizes biological membranes. The current-voltage relation of molluscan neurons may be complicated by inward-going rectification, but if that is inhibited the I-V curve follows the prediction of either the constant field equation or a simple electrical model. Factors which modify membrane behavior. The resting potential of molluscan neurons is very sensitive to changes in temperature and Ko, through a combination of effects upon the electrogenic sodium pump, inward-going rectification, and the membrane parameters. Inward-going rectification depends upon a rectifying K conductance, and can be eliminated by cold or the removal of Ko. Strong or prolonged currents have time-dependent effects upon the membrane, and excessive polarization leads to a high conductance state. The underlying (non-rectifying) K permeability of the membrane is relatively insensitive to temperature and ionic changes, whereas the Na permeability increases with warming. Membrane resistance varies with both temperature and ions (because the I-V curve is sensitive to these conditions) but membrane capacitance is relatively insensitive to external factors. Electrogenic sodium transport. Sodium transport is electrogenic in molluscan neurons. It can be stimulated by warm temperatures and an excess of substrate (e.g. high Nai); it can be inhibited by cold, by an absence of substrate (e.g. low Ko), or by pharmacologic agents such as cyanide or ouabain.(ABSTRACT TRUNCATED AT 400 WORDS)" @default.
W2001057465 created "2016-06-24" @default.
W2001057465 creator A5078702547 @default.
W2001057465 date "1975-01-01" @default.
W2001057465 modified "2023-09-27" @default.
W2001057465 title "The membrane of giant molluscan neurons: electrophysiologic properties and the origin of the resting potential" @default.
W2001057465 cites W1523552429 @default.
W2001057465 cites W1849732852 @default.
W2001057465 cites W1965721419 @default.
W2001057465 cites W1968051845 @default.
W2001057465 cites W1969584830 @default.
W2001057465 cites W1969797078 @default.
W2001057465 cites W1971173956 @default.
W2001057465 cites W1974910903 @default.
W2001057465 cites W1976179539 @default.
W2001057465 cites W1983208802 @default.
W2001057465 cites W1986477955 @default.
W2001057465 cites W1986975392 @default.
W2001057465 cites W1996763476 @default.
W2001057465 cites W2010842181 @default.
W2001057465 cites W2016138205 @default.
W2001057465 cites W2019549306 @default.
W2001057465 cites W2022819117 @default.
W2001057465 cites W2023729097 @default.
W2001057465 cites W2034483688 @default.
W2001057465 cites W2034961830 @default.
W2001057465 cites W2035967913 @default.
W2001057465 cites W2036311031 @default.
W2001057465 cites W2036558653 @default.
W2001057465 cites W2037168648 @default.
W2001057465 cites W2039200907 @default.
W2001057465 cites W2042776884 @default.
W2001057465 cites W2044097680 @default.
W2001057465 cites W2046181556 @default.
W2001057465 cites W2046214522 @default.
W2001057465 cites W2055912261 @default.
W2001057465 cites W2058328086 @default.
W2001057465 cites W2067312729 @default.
W2001057465 cites W2068318542 @default.
W2001057465 cites W2073897393 @default.
W2001057465 cites W2075352227 @default.
W2001057465 cites W2078721905 @default.
W2001057465 cites W2084719890 @default.
W2001057465 cites W2085161493 @default.
W2001057465 cites W2086577950 @default.
W2001057465 cites W2086993969 @default.
W2001057465 cites W2087670973 @default.
W2001057465 cites W2088932125 @default.
W2001057465 cites W2089280756 @default.
W2001057465 cites W2094318053 @default.
W2001057465 cites W2097400197 @default.
W2001057465 cites W2100436967 @default.
W2001057465 cites W2101319292 @default.
W2001057465 cites W2103099836 @default.
W2001057465 cites W2104323866 @default.
W2001057465 cites W2105257841 @default.
W2001057465 cites W2109963077 @default.
W2001057465 cites W2116724089 @default.
W2001057465 cites W2125819852 @default.
W2001057465 cites W2128804853 @default.
W2001057465 cites W2133937444 @default.
W2001057465 cites W2138873138 @default.
W2001057465 cites W2139271884 @default.
W2001057465 cites W2145586667 @default.
W2001057465 cites W2147142035 @default.
W2001057465 cites W2147413889 @default.
W2001057465 cites W2153192653 @default.
W2001057465 cites W2157670684 @default.
W2001057465 cites W2160589786 @default.
W2001057465 cites W2161987469 @default.
W2001057465 cites W2346465549 @default.
W2001057465 cites W2395812697 @default.
W2001057465 cites W2397663984 @default.
W2001057465 cites W2407826597 @default.
W2001057465 cites W2412863663 @default.
W2001057465 cites W2413098141 @default.
W2001057465 cites W2418028561 @default.
W2001057465 cites W2911774600 @default.
W2001057465 cites W4250921424 @default.
W2001057465 doi "https://doi.org/10.1016/0301-0082(75)90018-0" @default.
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