Estimating the dissipative factors of synaptic exocytosis in Drosophila using a filter based reverse engineering method
作者: Jian-Qin Liu , Haruhiko Nishimura
DOI: 10.1016/J.NANCOM.2016.09.005
关键词:
摘要: Abstract The SNARE-regulated exocytosis is an important molecular level mechanism for the persistent inter-neuronal communication via plasticity of neurons. Without considering dissipation synaptic vesicle, explanation neurons in existing models cannot fully account persistence neuronal plasticity. In this paper dissipative factors CPX and SYT corresponding to unbinding neurotransmitters fused with membrane are estimated using a reverse engineering method where dynamic flux embedded filtering model transmission. With regulation being estimated, function vesicle explicitly expressed.
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