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A vertebrate-wide catalogue of T1R receptors reveals diversity in taste perception

Hidenori Nishihara, Yasuka Toda, Tae Kuramoto, Kota Kamohara, Azusa Goto, Kyoko Hoshino, Shinji Okada, Shigehiro Kuraku, Masataka Okabe, Yoshiro Ishimaru

2023Nature Ecology & Evolution24 citationsDOIOpen Access PDF

Abstract

Taste is a vital chemical sense for feeding behaviour. In mammals, the umami and sweet taste receptors comprise three members of the taste receptor type 1 (T1R/TAS1R) family: T1R1, T1R2 and T1R3. Because their functional homologues exist in teleosts, only three TAS1R genes generated by gene duplication are believed to have been inherited from the common ancestor of bony vertebrates. Here, we report five previously uncharacterized TAS1R members in vertebrates, TAS1R4, TAS1R5, TAS1R6, TAS1R7 and TAS1R8, based on genome-wide survey of diverse taxa. We show that mammalian and teleost fish TAS1R2 and TAS1R3 genes are paralogues. Our phylogenetic analysis suggests that the bony vertebrate ancestor had nine TAS1Rs resulting from multiple gene duplications. Some TAS1Rs were lost independently in descendent lineages resulting in retention of only three TAS1Rs in mammals and teleosts. Combining functional assays and expression analysis of non-teleost fishes we show that the novel T1Rs form heterodimers in taste-receptor cells and recognize a broad range of ligands such as essential amino acids, including branched-chain amino acids, which have not been previously considered as T1R ligands. This study reveals diversity of taste sensations in both modern vertebrates and their ancestors, which might have enabled vertebrates to adapt to diverse habitats on Earth.

Topics & Concepts

VertebrateDiversity (politics)Evolutionary biologyTasteTaste receptorBiologyPerceptionReceptorComputational biologyCommunicationGeneticsNeurosciencePsychologySociologyAnthropologyGeneBiochemical Analysis and Sensing TechniquesOlfactory and Sensory Function StudiesAdvanced Chemical Sensor Technologies