Nature：与视觉有关的第二种自适应机制

Nature 449, 603-606 (4 October 2007) | doi:10.1038/nature06150; Received 27 June 2007; Accepted 6 August 2007; Published online 12 September 2007

Light adaptation in cone vision involves switching between receptor and post-receptor sites

Felice A. Dunn1, Martin J. Lankheet4 & Fred Rieke2,3

Correspondence to: Fred Rieke2,3 Correspondence and requests for materials should be addressed to F.R. (Email: rieke@u.washington.edu).

We see over an enormous range of mean light levels, greater than the range of output signals retinal neurons can produce. Even highlights and shadows within a single visual scene can differ 10,000-fold in intensity—exceeding the range of distinct neural signals by a factor of 100. The effectiveness of daylight vision under these conditions relies on at least two retinal mechanisms that adjust sensitivity in the 200 ms intervals between saccades1. One mechanism is in the cone photoreceptors (receptor adaptation)2, 3, 4, 5 and the other is at a previously unknown location within the retinal circuitry that benefits from convergence of signals from multiple cones (post-receptor adaptation)6, 7. Here we find that post-receptor adaptation occurs as signals are relayed from cone bipolar cells to ganglion cells. Furthermore, we find that the two adaptive mechanisms are essentially mutually exclusive: as light levels increase the main site of adaptation switches from the circuitry to the cones. These findings help explain how human cone vision encodes everyday scenes, and, more generally, how sensory systems handle the challenges posed by a diverse physical environment.

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