This review summarizes our present state of knowledge about spectrally diff
erent photoreceptor cell types in the Xenopus retina. The classification of
the photoreceptors was based on morphology, combined with immunolabelling
with various anti-visual pigment antibodies and other molecular probes on s
emithin sections and retinal wholemounts. The majority of photoreceptors is
represented by rods. Altogether 97-98% of the total rod population consist
s of the principal ("red") rods that are selectively labeled by N-terminal
specific anti-bovine rhodopsin monoclonal antibodies (mAbs) and are maximal
ly sensitive to green light. The other, rare, blue-sensitive rod type ("gre
en rod") is thinner, not stained by these antibodies but binds C-terminal s
pecific anti-rhodopsin mAbs. The major representatives of the cones are red
-sensitive and consist of a morphologically heterogeneous group comprising
both (principal and accessory) members of double cones, as well as large si
ngle cones. Outer segments in this group are selectively labeled by mAb COS
-l, specific to the L/M group of cone visual pigments. Another, relatively
rare cone type is similar in size, but slightly smaller than the large sing
le cone and is not labeled by mAb COS-1. This cone type is assumed to have
a blue-sensitive cone visual pigment. The third, least abundant, and immuno
cytochemically distinct cone type is a small single (miniature) cone, which
binds mAb OS-2 relatively strongly, and anti-rhodopsin mAbs 4B4 and 1D4 we
akly. By exclusion, this small single cone may be identical with the W-sens
itive cone. Further studies are needed, however, to identify the color sens
itivity of the latter two cone types. (C) 2000 Wiley-Liss. Inc.