The Role of Electrical Coupling in Rhythm Generation in Small Networks
Document Type
Syllabus
Publication Date
4-18-2017
Abstract
Generation of rhythmic activity in numerous systems has been shown to depend on electrical coupling. Small networks provide a strong advantage for studying electrical coupling because, thanks to the accessibility and limited number of neurons, their role in network activity and even behavior can be determined accurately and rigorously. We discuss the known role of electrical coupling in the generation of rhythmic activity, describing experimental and theoretical work. Interestingly, a large body of work indicates that electrical coupling-based rhythmogenesis may be prevalent during early development. The best known effect of electrical coupling in rhythmic networks is the regulation of synchronization and pattern generation, which we describe in the context of electrical coupling, both rectifying and nonrectifying, and its interactions with chemical synaptic coupling. Finally, we discuss the important issue of neuromodulation of gap junctions and its role in regulation of pattern generation and behavior.
Identifier
85062934985 (Scopus)
ISBN
[9780128034712, 9780128034996]
Publication Title
Network Functions and Plasticity Perspectives from Studying Neuronal Electrical Coupling in Microcircuits
External Full Text Location
https://doi.org/10.1016/B978-0-12-803471-2.00004-7
First Page
51
Last Page
78
Recommended Citation
Nadim, F.; Li, X.; Gray, M.; and Golowasch, J., "The Role of Electrical Coupling in Rhythm Generation in Small Networks" (2017). Faculty Publications. 9627.
https://digitalcommons.njit.edu/fac_pubs/9627
