Browsing University of Bergen Library by Subject "Neurosciences"
Now showing items 1-6 of 6
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Dendritic morphology of an inhibitory retinal interneuron enables simultaneous local and global synaptic integration
(Journal article; Peer reviewed, 2022) -
Differential contribution of gap junctions to the membrane properties of ON- and OFF-bipolar cells of the rat retina
(Journal article; Peer reviewed, 2021)Gap junctions are ubiquitous within the retina, but in general, it remains to be determined whether gap junction coupling between specific cell types is sufficiently strong to mediate functionally relevant coupling via ... -
Functional properties of GABAA receptors of AII amacrine cells of the rat retina
(Journal article, 2023-04-05)Amacrine cells are a highly diverse group of inhibitory retinal interneurons that sculpt the responses of bipolar cells, ganglion cells, and other amacrine cells. They integrate excitatory inputs from bipolar cells and ... -
Inhibitory inputs to an inhibitory interneuron: Spontaneous postsynaptic currents and GABA_A receptors of A17 amacrine cells in the rat retina
(Journal article; Peer reviewed, 2022)Amacrine cells constitute a large and heterogeneous group of inhibitory interneurons in the retina. The A17 amacrine plays an important role for visual signalling in the rod pathway microcircuit of the mammalian retina. ... -
Morphological properties of the axon initial segment-like process of AII amacrine cells in the rat retina
(Journal article; Peer reviewed, 2021)Signal processing within the retina is generally mediated by graded potentials, whereas output is conveyed by action potentials transmitted along optic nerve axons. Among retinal neurons, amacrine cells seem to be an ... -
The mosaic of AII amacrine cell bodies in rat retina is indistinguishable from a random distribution
(Journal article; Peer reviewed, 2022)The vertebrate retina contains a large number of different types of neurons that can be distinguished by their morphological properties. Assuming that no location should be without a contribution from the circuitry and ...