Related Articles |
Massive expansion of bitter taste receptors in blind cavefish, Astyanax mexicanus.
Chem Senses. 2018 Oct 05;:
Authors: Shiriagin V, Korsching SI
Abstract
A sensory deficit both at the individual and the species level can be compensated by increased acuity in other senses. The loss of vision in blind cavefish, Astyanaxmexicanus appears to be partially counterbalanced by enhanced chemosensory perception. Whether such improvement also involves adaptive changes in chemosensory receptor repertoires was unknown. The typical bitter taste receptor repertoire of teleost fishes is reported as three to five genes, much smaller than that of many terrestrial species. Interestingly, several fish species, e.g. mudskipper, have evolved a terrestric life style, but again it was unknown, whether this change in habitat is reflected in the size of gustatory receptor repertoires. We have searched the genomes of fifteen fish species and performed a thorough phylogenetic analysis to delineate their bitter taste receptor repertoires. We report no adaptation for four mudskipper species, which exhibit 3-4 bitter taste receptor genes, and thus a typical teleost repertoire, shaped by few gene losses and minor gene duplications from an ancestral repertoire of four genes. However, and in sharp contrast to all other teleost fish species analysed, blind cavefish possess over twenty intact bitter taste receptors plus several pseudogenes, rivalling the complexity of the human bitter taste receptor repertoire. The gene duplications giving rise to the current cavefish bitter taste receptor repertoire appear to have occurred well before the loss of vision, consistent with this increase in repertoire size constituting a preadaptive trait that conceivably could compensate to some extent for the lack of visual cues.
PMID: 30295711 [PubMed - as supplied by publisher]
from #ΓεύσηΌσφρηση via xlomafota13 on Inoreader https://ift.tt/2y8zts3
Δεν υπάρχουν σχόλια:
Δημοσίευση σχολίου