Synaptic metaplasticity underlies tetanic potentiation in Lymnaea: a novel paradigm.

Synaptic metaplasticity underlies tetanic potentiation in Lymnaea: a novel paradigm.

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We present a mathematical model that explains and ACTIVATED CHARCOAL TOOTHPASTE PEPPERMINT interprets a novel form of short-term potentiation, which was found to be use-, but not time-dependent, in experiments done on Lymnaea neurons.The high degree of potentiation is explained using a model of synaptic metaplasticity, while the use-dependence (which is critically reliant on the presence of kinase in the experiment) Ski de fond - Accessoires - Tuques is explained using a model of a stochastic and bistable biological switch.