Taste and odorant receptors of the coelacanth—A gene repertoire in transition

Publisher: John Wiley & Sons Inc

E-ISSN: 1552-5015|322|6|403-414

ISSN: 1552-5007

Source: Journal Of Experimental Zoology. Part B: Molecular And Developmental Evolution, Vol.322, Iss.6, 2014-09, pp. : 403-414

Disclaimer: Any content in publications that violate the sovereignty, the constitution or regulations of the PRC is not accepted or approved by CNPIEC.

Previous Menu Next

Abstract

ABSTRACTG‐protein coupled chemosensory receptors (GPCR‐CRs) aid in the perception of odors and tastes in vertebrates. So far, six GPCR‐CR families have been identified that are conserved in most vertebrate species. Phylogenetic analyses indicate differing evolutionary dynamics between teleost fish and tetrapods. The coelacanth Latimeria chalumnae belongs to the lobe‐finned fishes, which represent a phylogenetic link between these two groups. We searched the genome of L. chalumnae for GPCR‐CRs and found that coelacanth taste receptors are more similar to those in tetrapods than in teleost fish: two coelacanth T1R2s co‐segregate with the tetrapod T1R2s that recognize sweet substances, and our phylogenetic analyses indicate that the teleost T1R2s are closer related to T1R1s (umami taste receptors) than to tetrapod T1R2s. Furthermore, coelacanths are the first fish with a large repertoire of bitter taste receptors (58 T2Rs). Considering current knowledge on feeding habits of coelacanths the question arises if perception of bitter taste is the only function of these receptors. Similar to teleost fish, coelacanths have a variety of olfactory receptors (ORs) necessary for perception of water‐soluble substances. However, they also have seven genes in the two tetrapod OR subfamilies predicted to recognize airborne molecules. The two coelacanth vomeronasal receptor families are larger than those in teleost fish, and similar to tetrapods and form V1R and V2R monophyletic clades. This may point to an advanced development of the vomeronasal organ as reported for lungfish. Our results show that the intermediate position of Latimeria in the phylogeny is reflected in its GPCR‐CR repertoire. J. Exp. Zool. (Mol. Dev. Evol.) 322B: 403–414, 2014. © 2013 Wiley Periodicals, Inc.