Mismatches between feeding ecology and taste receptor evolution: an inconvenient truth.

Comparative and evolutionary biology can not only verify laboratory findings of gene functions but also provide insights into their physiological roles in nature that are sometimes difficult to discern in the laboratory. Specifically, if our understanding of the physiological function of a gene is complete and accurate, the gene should be inactivated or pseudogenized in and only in organisms in which the presumed function of the gene has become useless or harmful. On the basis of multiple independent pseudogenizations of the sweet taste receptor gene Tas1r2 in obligated carnivores and piscivores (fish eaters) and similar independent pseudogenizations of the umami taste receptor gene Tas1r1 in marine mammals, Jiang et al. (1) concluded that " loss of taste receptor function " is " directly related to feeding specializations. " We believe that this conclusion is unwarranted. Jiang et al. (1) contended that obligated carnivores and pi-scivores need not sense sweet because meat contains little carbohydrate. Although pseudogenized Tas1r2 was indeed found only in obligated carnivores and piscivores among 18 studied species of Carnivora, two obligated carnivores they examined (ferret and Canadian otter) still possess an intact Tas1r2 (1). There is no indication that the current feeding ecology of these two species appeared so recently in evolution that neutral null mutations have not had time to fix in their Tas1r2. The three pinnipeds studied share a common ancestry of obligated meat-eating, yet no single null mutation of Tas1r2 is shared between them, suggesting that the pseudogenizations are not closely related to their diet. Outside Carnivora, vampire bats lack an intact Tas1r2 despite the presence of carbohydrates in blood, their sole diet (2). It is probable that the pseudogenization of Tas1r2 in vampire bats is related to the narrowness of their diet rather than the specific diet they use. Tas1r2 is also missing in the genome sequences of the herbivorous horse and omnivorous pig, but no satisfactory explanation exists (2). Furthermore, Tas1r2 is absent in all bird genomes sequenced thus far (2), irrespective of their diet. Jiang et al. (1) further contended that sea lions and dolphins need not sense the umami taste because they swallow food whole. Although it is true that Tas1r1 is pseudogenized in these two species, the authors ignore the previous finding that Tas1r1 is also pseudogenized or missing in all bats examined, regardless of their diet (fruits, insects, or blood) (3). Although the pseu-dogenization of Tas1r1 in the …