Molecular bases of rod and cone differences.

In the vertebrate retina, rods and cones both detect light, but they differ in functional aspects such as light sensitivity and temporal resolution, and in some cell biological aspects. For functional aspects, both types of photoreceptors use a phototransduction cascade, consisting of a series of enzymatic reactions, to convert photon capture to an electrical signal. To understand the mechanisms underlying the functional differences between rods and cones at the molecular level, we compared biochemically, each of the reactions in the phototransduction cascades of rods and cones using the cells isolated and purified from carp retina. Although the cascade proteins are identical or are functionally similar between rods and cones, their activities together with their expression levels are mostly different. In general, reactions that generate a response are somewhat less effective in cones than in rods, but each of the reactions for termination and recovery of a response are much more effective in cones. These findings explain lower light sensitivity and briefer light responses in cones than in rods. In addition, our considerations suggest that a Ca2+-binding protein, S-modulin or recoverin, has a currently unnoticed role in shaping light responses. Upon comparison of the expression levels of proteins and/or mRNAs using purified cells, several proteins were found to be specifically or predominantly expressed in cones. These proteins will be of interest in future studies aimed at characterizing the differences between rods and cones.