1. Corrigendum: Gap Junctions in A8 Amacrine Cells Are Made of Connexin36 but Are Differently Regulated Than Gap Junctions in AII Amacrine Cells
- Author
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Shubhash C. Yadav, Stephan Tetenborg, and Karin Dedek
- Subjects
electrical synapse ,0301 basic medicine ,retina ,genetic structures ,lcsh:RC321-571 ,Amacrine cell ,gap junction ,03 medical and health sciences ,Cellular and Molecular Neuroscience ,0302 clinical medicine ,connexin36 ,medicine ,Electrical synapse ,lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry ,Molecular Biology ,Original Research ,Retina ,Gap junction ,Correction ,Inner plexiform layer ,Cell biology ,bipolar cell ,Coupling (electronics) ,030104 developmental biology ,Electrical Synapses ,medicine.anatomical_structure ,Life sciences, biology ,GABAergic ,sense organs ,dopamine ,amacrine cell ,030217 neurology & neurosurgery ,Neuroscience - Abstract
In the mammalian retina, amacrine cells represent the most diverse cell class and are involved in the spatio-temporal processing of visual signals in the inner plexiform layer. They are connected to bipolar, other amacrine and ganglion cells, forming complex networks via electrical and chemical synapses. The small-field A8 amacrine cell was shown to receive non-selective glutamatergic input from OFF and ON cone bipolar cells at its bistratified dendrites in sublamina 1 and 4 of the inner plexiform layer. Interestingly, it was also shown to form electrical synapses with ON cone bipolar cells, thus resembling the rod pathway-specific AII amacrine cell. In contrast to the AII cell, however, the electrical synapses of A8 cells are poorly understood. Therefore, we made use of the Ier5-GFP mouse line, in which A8 cells are labeled by GFP, to study the gap junction composition and frequency in A8 cells. We found that A8 cells form
- Published
- 2019
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