Add to ORKGThe starburst amacrine cell in the mouse retina presents an opportunity to examine the precise role of sensory input location on neuronal computations. Using visual receptive field mapping, glutamate uncaging, two-photon Ca(2+) imaging, and genetic labeling of putative synapses, we identify a unique arrangement of excitatory inputs and neurotransmitter release sites on starburst amacrine cell dendrites: the excitatory input distribution is skewed away from the release sites. By comparing computational simulations with Ca(2+) transients recorded near release sites, we show that this anatomical arrangement of inputs and outputs supports a dendritic mechanism for computing motion direction. Direction-selective Ca(2+) transients persist in the ...
The detection of image motion is fundamental to vision. In many species, unique classes of retinal g...
The detection of image motion is fundamental to vision. In many species, unique classes of retinal g...
The ability to sense motion, both self-motion and motion in the environment, is crucial for animal b...
Summary: Dendrites in many neurons actively compute information. In retinal starburst amacrine cells...
Detection of image motion direction begins in the retina, with starburst amacrine cells (SACs) playi...
Detection of image motion direction begins in the retina, with starburst amacrine cells (SACs) playi...
Neuronal circuits in the retina analyze images according to qualitative aspects such as color or mot...
The mouse brain contains over 70 million neurons that form around a trillion connections, or synapse...
Neuronal circuits in the retina analyze images according to qualitative aspects such as color or mot...
Detection of image motion direction begins in the retina, with starburst amacrine cells (SACs) playi...
The retina in our eyes is full of tiny neuronal computers, cells with diversely elaborate dendritic ...
Retinal ganglion cells (RGCs) represent the output computations of the visual world. In the mouse, t...
Neuronal circuits in the retina analyze images according to qualitative aspects such as color or mot...
Neuronal circuits in the retina analyze images according to qualitative aspects such as color or mot...
The detection of image motion is fundamental to vision. In many species, unique classes of retinal g...
The detection of image motion is fundamental to vision. In many species, unique classes of retinal g...
The detection of image motion is fundamental to vision. In many species, unique classes of retinal g...
The ability to sense motion, both self-motion and motion in the environment, is crucial for animal b...
Summary: Dendrites in many neurons actively compute information. In retinal starburst amacrine cells...
Detection of image motion direction begins in the retina, with starburst amacrine cells (SACs) playi...
Detection of image motion direction begins in the retina, with starburst amacrine cells (SACs) playi...
Neuronal circuits in the retina analyze images according to qualitative aspects such as color or mot...
The mouse brain contains over 70 million neurons that form around a trillion connections, or synapse...
Neuronal circuits in the retina analyze images according to qualitative aspects such as color or mot...
Detection of image motion direction begins in the retina, with starburst amacrine cells (SACs) playi...
The retina in our eyes is full of tiny neuronal computers, cells with diversely elaborate dendritic ...
Retinal ganglion cells (RGCs) represent the output computations of the visual world. In the mouse, t...
Neuronal circuits in the retina analyze images according to qualitative aspects such as color or mot...
Neuronal circuits in the retina analyze images according to qualitative aspects such as color or mot...
The detection of image motion is fundamental to vision. In many species, unique classes of retinal g...
The detection of image motion is fundamental to vision. In many species, unique classes of retinal g...
The detection of image motion is fundamental to vision. In many species, unique classes of retinal g...
The ability to sense motion, both self-motion and motion in the environment, is crucial for animal b...