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Evolutionary insights into umami, sweet, and bitter taste receptors in amphibians
Author(s) -
Zhong Huaming,
Huang Jie,
Shang Shuai,
Yuan Baodong
Publication year - 2021
Publication title -
ecology and evolution
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.17
H-Index - 63
ISSN - 2045-7758
DOI - 10.1002/ece3.8398
Subject(s) - umami , pseudogene , biology , amphibian , repertoire , taste , adaptation (eye) , lernaean hydra , gene , taste receptor , evolutionary biology , ecology , genetics , zoology , genome , food science , neuroscience , microbiology and biotechnology , physics , acoustics
Umami and sweet sensations provide animals with important dietary information for detecting and consuming nutrients, whereas bitter sensation helps animals avoid potentially toxic or harmful substances. Enormous progress has been made toward animal sweet/umami taste receptor (Tas1r) and bitter taste receptor (Tas2r). However, information about amphibians is mainly scarce. This study attempted to delineate the repertoire of Tas1r / Tas2r genes by searching for currently available genome sequences in 14 amphibian species. This study identified 16  Tas1r1 , 9  Tas1r2 , and 9  Tas1r3  genes to be intact and another 17  Tas1r genes to be pseudogenes or absent in the 14 amphibians. According to the functional prediction of Tas1r genes, two species have lost sweet sensation and seven species have lost both umami and sweet sensations. Anurans possessed a large number of intact Tas2rs , ranging from 39 to 178. In contrast, caecilians possessed a contractive bitter taste repertoire, ranging from 4 to 19. Phylogenetic and reconciling analysis revealed that the repertoire of amphibian Tas1rs and Tas2rs was shaped by massive gene duplications and losses. No correlation was found between feeding preferences and the evolution of Tas1rs in amphibians. However, the expansion of Tas2rs may help amphibians adapt to both aquatic and terrestrial habitats. Bitter detection may have played an important role in the evolutionary adaptation of vertebrates in the transition from water to land.

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