RT Journal Article
SR Electronic
T1 Photopigment transmittance imaging of the primate photoreceptor mosaic
JF The Journal of Neuroscience
JO J. Neurosci.
FD Society for Neuroscience
SP 2251
OP 2260
DO 10.1523/JNEUROSCI.16-07-02251.1996
VO 16
IS 7
A1 OS Packer
A1 DR Williams
A1 DG Bensinger
YR 1996
UL http://www.jneurosci.org/content/16/7/2251.abstract
AB We introduce a new technique for classifying many photoreceptors simultaneously in fresh, excised primate retina on the basis of their absorptance spectra. Primate retina is removed from the pigment epithelium and illuminated under a microscope from the same direction as in the intact eye. To facilitate the guiding of light into the receptor outer segments, the optical axes of the photoreceptors are oriented parallel to the optical axis of the microscope. Photoreceptor outer-segment tips are imaged on a charge-coupled device array, which provides radiometric measurements of the light passing through each photoreceptor. These images are acquired sequentially at three wavelengths chosen to maximize the absorptance differences among the three cone photopigments. After the photopigment is bleached, a second set of three images is acquired. The ratios of the images before and after bleaching at each wavelength are photopigment transmittance maps of the retina. These are combined into a single trichromatic image showing the distribution of photopigment if the retina could be viewed directly in white light without bleaching. We have found patches of receptors in peripheral macaque retina where the measured absorptance at the wavelength of maximum absorptance is consistent with the predicted axial absorptance of th photopigment. The cones in these patches cluster into two groups corresponding to the middle wavelength- sensitive (n = 53, mean absorptance = 0.28) and the long wavelength- sensitive (n = 63, mean absorptance = 0.30) cones. The mean absorptances of 273 macaque and 183 human rods were 0.51 and 0.41, respectively.