Mitsuo Anraku scite author profile

Mitsuo Anraku

3Publications

47Citation Statements Received

69Citation Statements Given

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Affiliations

Kagoshima University, University at Albany, State University of New York

Publications

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Permeability of the endplate membrane activated by acetylcholine to some organic cations

1977

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The ability of various organic cations to depolarize the ACh-activated endplate membrane in the absence of Na ions was examined on frog sartorius muscle by measuring the endplate potential on the muscle surface with the moving electrode technique. The ACh-activated endplate membrane was very permeable to ammonium and its methyl and hydroxy derivatives, and moderately permeable to guanidine derivatives and Tris (hydroxymethyl) aminomethane. The permeability of alkylol derivatives of ammonium diminished progressively with increase in molecular size. The present results suggested that the endplate ionic channels can be represented by a pore of about 6.4 A in diameter.

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Tetrodotoxin-unaffected depolarization of frog muscles induced by the venom of jellyfish (genus Aurelia).

et al. 1988

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In the isolated frog muscle, the proteinaceous venom extracted from jellyfish (genus Aurelia) produced 1) a complete and irreversible block of indirectly and directly elicited muscle twitch and 2) an irreversible depolarization of the muscle membrane. This venom-induced depolarization was effectively reversed or prevented by the substitution of choline for sodium in Ringer solution, but not by the introduction of tetrodotoxin (TTX), a sodium channel blocker. The mechanism of muscle membrane depolarization appears to involve probably an increase in membrane permeability to sodium ion as shown by the decrease in membrane resistance. These results suggest that the venom forms a pore which has sodium selectivity or activates a TTX-insensitive sodium channel which is different from the known sodium channel.

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Nitric oxide donors inhibit the acetylcholine-induced Cl? current in identifiedOnchidium neurons

1998

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Mitsuo Anraku

Permeability of the endplate membrane activated by acetylcholine to some organic cations

Tetrodotoxin-unaffected depolarization of frog muscles induced by the venom of jellyfish (genus Aurelia).

Nitric oxide donors inhibit the acetylcholine-induced Cl? current in identifiedOnchidium neurons

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