
doi: 10.1007/bf00194988
The topological distribution of the chemoreceptors to quinine in the membrane of a ciliate Paramecium caudatum were examined by conventional electrophysiological techniques. A CNR-mutant specimen defective in voltage-gated Ca channels produced a transient depolarization followed by a transient hyperpolarization and a sustained depolarization when 1 mM quinine-containing solution was applied to its entirety. A Ni2+-paralyzed CNR-mutant specimen produced a simple membrane depolarization in response to a local application of 1 mM quinine-containing solution to its anterior end, whereas it produced a transient membrane hyperpolarization in response to an application to its posterior end. An anterior half fragment of a CNR specimen produced a membrane depolarization whereas a posterior half fragment of the specimen produced a transient hyperpolarization upon application of 1 mM quinine-containing solution. Both anterior depolarization and posterior hyperpolarization took place prior to the contraction of the cell body. It is concluded that Paramecium caudatum possesses two kinds of chemoreceptors or two kinds of coupling of the same receptor to different signal transduction pathways to quinine which are distributed in different locations on the cell surface. Activation of the anterior receptor produces a sustained depolarizing receptor potential while activation of the posterior receptor produces a transient hyperpolarizing receptor potential.
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