1
|
The circadian clock in the retina controls rod-cone coupling.
|
Neuron
|
2008
|
1.79
|
2
|
Lateral interactions in the outer retina.
|
Prog Retin Eye Res
|
2012
|
1.58
|
3
|
Dendritic compartmentalization of chloride cotransporters underlies directional responses of starburst amacrine cells in retina.
|
Proc Natl Acad Sci U S A
|
2006
|
1.33
|
4
|
Cation--chloride cotransporters mediate neural computation in the retina.
|
Proc Natl Acad Sci U S A
|
2003
|
1.28
|
5
|
A circadian clock and light/dark adaptation differentially regulate adenosine in the mammalian retina.
|
J Neurosci
|
2005
|
1.10
|
6
|
Dopamine mediates circadian clock regulation of rod and cone input to fish retinal horizontal cells.
|
J Physiol
|
2002
|
1.06
|
7
|
A circadian clock in the fish retina regulates dopamine release via activation of melatonin receptors.
|
J Physiol
|
2003
|
1.00
|
8
|
Identification of a circadian clock-controlled neural pathway in the rabbit retina.
|
PLoS One
|
2010
|
0.95
|
9
|
A model of direction selectivity in the starburst amacrine cell network.
|
J Comput Neurosci
|
2010
|
0.91
|
10
|
Absence of circadian clock regulation of horizontal cell gap junctional coupling reveals two dopamine systems in the goldfish retina.
|
J Comp Neurol
|
2003
|
0.87
|
11
|
Suppression by zinc of AMPA receptor-mediated synaptic transmission in the retina.
|
J Neurophysiol
|
2002
|
0.86
|
12
|
Retinal pH reflects retinal energy metabolism in the day and night.
|
J Neurophysiol
|
2004
|
0.83
|
13
|
Multiple functions of cation-chloride cotransporters in the fish retina.
|
Vis Neurosci
|
2007
|
0.82
|
14
|
Electrical feedback in the cone pedicle: a computational analysis.
|
J Neurophysiol
|
2005
|
0.80
|
15
|
Tracer coupling between fish rod horizontal cells: modulation by light and dopamine but not the retinal circadian clock.
|
Vis Neurosci
|
2007
|
0.79
|
16
|
Cut-loading: a useful tool for examining the extent of gap junction tracer coupling between retinal neurons.
|
J Vis Exp
|
2012
|
0.78
|
17
|
GABA-mediated spatial and temporal asymmetries that contribute to the directionally selective light responses of starburst amacrine cells in retina.
|
J Physiol
|
2012
|
0.75
|