Synaptic plasticity and learning and memory: LTP and beyond

be necessary. Second, an "anti-hebbian" form of LTD, in which presynaptic activity that is unable to cause postsynaptic excitation depresses synaptic strength, could serve to improve the signal-to-noise ratio of sensory input activation of stored memories, by maximizing the ductances also confers on

Adenosine is considered an important modulator of the nervous system acting at pre-, post-, and nonsynaptic levels. In models (e.g. the rat neuromuscular junction) where adenosine has only presynaptic (inhibitory, which are Al-receptor mediated; and excitatory, which are A2~-receptor mediated) effec

Memory suppressor genes encode proteins that act as inhibitory constraints to impede memory storage. The study of memory suppressor genes is important not only for understanding the link between synaptic plasticity and learning but also for identifying potential targets for future pharmaceuticals to

Hippocampal cells contribute to memory by rapidly encoding information about the perceptual and behavioral structure of experience. This paper describes two complementary experimental approaches that illustrate two important mechanisms that confer these properties to hippocampal cells: (1) Enduring

## Abstract The present study investigated whether infusion of brain‐derived neurotrophic factor (BDNF) could ameliorate stress‐induced impairments in spatial learning and memory as well as hippocampal long‐term potentiation (LTP) of rats. Chronic immobilization stress (2 h/day × 7 days) significan