It has long been hypothesized that the visual systems of animals are
evolutionarily adapted to their visual environment. The entrance many
millions of years ago of mammals into the sea gave these new aquatic
mammals completely novel visual surroundings with respect to light
availability and predominant wavelengths. This study examines the cone
opsins of marine mammals, hypothesizing, based on previous studies
[Fasick et al. (1998) and Levenson &
Dizon (2003)], that the deep-dwelling
marine mammals would not have color vision because the pressure to
maintain color vision in the dark monochromatic ocean environment has been
relaxed. Short-wavelength-sensitive (SWS) and long-wavelength-sensitive
(LWS) cone opsin genes from two orders (Cetacea and
Sirenia) and an additional suborder (Pinnipedia) of
aquatic mammals were amplified from genomic DNA (for SWS) and cDNA (for
LWS) by PCR, cloned, and sequenced. All animals studied from the order
Cetacea have SWS pseudogenes, whereas a representative from the
order Sirenia has an intact SWS gene, for which the corresponding
mRNA was found in the retina. One of the pinnipeds studied (harp seal) has
an SWS pseudogene, while another species (harbor seal) appeared to have an
intact SWS gene. However, no SWS cone opsin mRNA was found in the harbor
seal retina, suggesting a promoter or splice site mutation preventing
transcription of the gene. The LWS opsins from the different species were
expressed in mammalian cells and reconstituted with the
11-cis-retinal chromophore in order to determine maximal
absorption wavelengths (λmax) for each. The deeper dwelling
Cetacean species had blue shifted λmax values compared to
shallower-dwelling aquatic species. Taken together, these findings support
the hypothesis that in the monochromatic oceanic habitat, the pressure to
maintain color vision has been relaxed and mutations are retained in the
SWS genes, resulting in pseudogenes. Additionally, LWS opsins are retained
in the retina and, in deeper-dwelling animals, are blue shifted in
λmax.
FORAMEN OVALE AND DUCTUS ARTERIOSUS BOTALLI IN AQUATIC MAMMALS
