Abstract
BackgroundThe detection of odorants is mediated by olfactory receptors (ORs). ORs are G-protein coupled receptors that form a remarkably large protein superfamily in vertebrate genomes. We used data that became available through recent sequencing efforts of reptilian and avian genomes to identify the complete OR gene repertoires in a lizard, the green anole (Anolis carolinensis), and in two birds, the chicken (Gallus gallus) and the zebra finch (Taeniopygia guttata).ResultsWe identified 156 green anole OR genes, including 42 pseudogenes. The OR gene repertoire of the two bird species was substantially larger with 479 and 553 OR gene homologs in the chicken and zebra finch, respectively (including 111 and 221 pseudogenes, respectively). We show that the green anole has a higher fraction of intact OR genes (~72%) compared with the chicken (~66%) and the zebra finch (~38%). We identified a larger number and a substantially higher proportion of intact OR gene homologs in the chicken genome than previously reported (214 versus 82 genes and 66% versus 15%, respectively). Phylogenetic analysis showed that lizard and bird OR gene repertoires consist of group α, θ and γ genes. Interestingly, the vast majority of the avian OR genes are confined to a large expansion of a single branch (the so called γ-c clade). An analysis of the selective pressure on the paralogous genes of each γ-c clade revealed that they have been subjected to adaptive evolution. This expansion appears to be bird-specific and not sauropsid-specific, as it is lacking from the lizard genome. The γ-c expansions of the two birds do not intermix, i.e., they are lineage-specific. Almost all (group γ-c) OR genes mapped to the unknown chromosome. The remaining OR genes mapped to six homologous chromosomes plus three to four additional chromosomes in the zebra finch and chicken.ConclusionWe identified a surprisingly large number of potentially functional avian OR genes. Our data supports recent evidence that avian olfactory ability may be better developed than previously thought. We hypothesize that the radiation of the group γ-c OR genes in each bird lineage parallels the evolution of specific olfactory sensory functions.
Highlights
The detection of odorants is mediated by olfactory receptors (ORs)
Composition of the green anole, chicken and zebra finch OR gene repertoires OR genes from the draft genome assemblies of the green anole, zebra finch and chicken were identified by a comprehensive data mining approach
The proportion of intact OR genes varied between 38% and 72% (Table 1)
Summary
The detection of odorants is mediated by olfactory receptors (ORs). ORs are Gprotein coupled receptors that form a remarkably large protein superfamily in vertebrate genomes. One can expect that even closely related species experienced different selection pressures on olfactory abilities This notion was recently supported by the finding that the olfactory receptor gene repertoire of the nocturnal kakapo, Strigops habroptilus, that is known to rely heavily on olfactory cues is larger than that of its related, but diurnal relatives (kea, Nestor notabilis, and kaka, Nestor meridionalis). This result strongly suggests that e.g. ecological niche adaptations such as daily activity patterns can lead to different olfactory abilities in close relatives [8]
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