Abstract
BackgroundDo evolutionary specializations lead to evolutionary constraint? This appears plausible, particularly when specialization leads to loss of complex adaptations. In the owl monkey lineage, nocturnality clearly arose from a diurnal ancestor. This behavioural shift was accompanied by morphological changes in the eye and orbit and complete loss of colour vision via missense mutations in the gene encoding the short-wave sensitive visual pigment (SWS opsin). Interestingly, at least one subspecies of owl monkey, Azara’s owl monkey (Aotus azarae azarae), has regained activity in daylight. Given that all primate species that are active in daylight, including primarily diurnal species and species that are active during both day and night, have at least dichromatic colour vision, it seems reasonable to propose that dichromacy would be adaptive in A. a. azarae. With a disabled SWS opsin, the main avenue available for Azara’s owl monkeys to re-evolve colour vision is via a polymorphism in the intact X-linked opsin locus, which commonly occurs in other New World monkeys. To examine this possibility we assayed variation in the X-linked opsin of A. a. azarae, focusing on the three exons (3, 4 and 5) that control spectral sensitivity.ResultsWe found low opsin genetic variation on a population level, and no differences at the three main sites that lead to variation in spectral sensitivity in the opsins of other New World monkeys. Two rare alleles with single amino acid variants are segregating in the population, but previous functional studies indicate that these are unlikely to affect spectral sensitivity.ConclusionsGenetic constraint on the re-evolution of colour vision is likely operating in Azara’s owl monkey, which may affect the niche that this subspecies is able to occupy.
Highlights
Do evolutionary specializations lead to evolutionary constraint? This appears plausible, when specialization leads to loss of complex adaptations
This change would lead to heterozygous females having two functional opsin alleles, and likely a form of dichromacy, whereas homozygous females and hemizygous males would remain monochromatic. This situation would be analogous to the X-linked opsin polymorphism in most other New World monkeys, except that in these species the SW locus is intact resulting in dichromatic males and heterozygous trichromatic females [8]
Variable sites and sites potentially affecting spectral sensitivity are shown in single letter amino acid code, with the three key sites in bold whose middle wavelength sensitive (MW) opsin has an experimentally determined λmax of 539 nm [12]
Summary
Do evolutionary specializations lead to evolutionary constraint? This appears plausible, when specialization leads to loss of complex adaptations. This change would lead to heterozygous females having two functional opsin alleles, and likely a form of dichromacy, whereas homozygous females and hemizygous males would remain monochromatic This situation would be analogous to the X-linked opsin polymorphism in most other New World monkeys, except that in these species the SW locus is intact resulting in dichromatic males and heterozygous trichromatic females [8]. Mutations impacting X-linked opsin sensitivity have occurred repeatedly along multiple lineages during primate evolution [11], so it would not be surprising if Azara’s owl monkeys exhibited such a polymorphism We examine this hypothesis in a wild population of Azara’s owl monkeys by assaying sequence variation in the regions of the MW opsin gene that determine spectral sensitivity
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