Open AccessExperimental and computational aspects of signaling mechanisms of spike‐timing‐dependent plasticity
Author(s) -
Hidetoshi Urakubo,
Masaki Honda,
Keiko Tanaka,
Shinya Kuroda
Publication year - 2009
Publication title -
hfsp journal
Language(s) - English
Resource type - Journals
eISSN - 1955-2068
pISSN - 1955-205X
DOI - 10.2976/1.3137602
Subject(s) - spike timing dependent plasticity , synaptic plasticity , neuroscience , postsynaptic potential , computer science , long term potentiation , spike (software development) , metaplasticity , nonsynaptic plasticity , learning rule , synaptic scaling , synaptic weight , artificial intelligence , biology , artificial neural network , biochemistry , receptor , software engineering
STDP (spike-timing-dependent synaptic plasticity) is thought to be a synaptic learning rule that embeds spike-timing information into a specific pattern of synaptic strengths in neuronal circuits, resulting in a memory. STDP consists of bidirectional long-term changes in synaptic strengths. This process includes long-term potentiation and long-term depression, which are dependent on the timing of presynaptic and postsynaptic spikings. In this review, we focus on computational aspects of signaling mechanisms that induce and maintain STDP as a key step toward the definition of a general synaptic learning rule. In addition, we discuss the temporal and spatial aspects of STDP, and the requirement of a homeostatic mechanism of STDP in vivo.