Literature DB >> 12192402

Directionally selective calcium signals in dendrites of starburst amacrine cells.

Thomas Euler1, Peter B Detwiler, Winfried Denk.   

Abstract

The detection of image motion is fundamental to vision. In many species, unique classes of retinal ganglion cells selectively respond to visual stimuli that move in specific directions. It is not known which retinal cell first performs the neural computations that give rise to directional selectivity in the ganglion cell. A prominent candidate has been an interneuron called the 'starburst amacrine cell'. Using two-photon optical recordings of intracellular calcium concentration, here we find that individual dendritic branches of starburst cells act as independent computation modules. Dendritic calcium signals, but not somatic membrane voltage, are directionally selective for stimuli that move centrifugally from the cell soma. This demonstrates that direction selectivity is computed locally in dendritic branches at a stage before ganglion cells.

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Year:  2002        PMID: 12192402     DOI: 10.1038/nature00931

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  221 in total

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Review 5.  Direction selectivity in the retina: symmetry and asymmetry in structure and function.

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6.  GABA-mediated spatial and temporal asymmetries that contribute to the directionally selective light responses of starburst amacrine cells in retina.

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8.  Subthreshold membrane conductances enhance directional selectivity in vertebrate sensory neurons.

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10.  Cone signals in monostratified and bistratified amacrine cells of adult zebrafish retina.

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