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An amino-acid taste receptor

Author

Listed:
  • Greg Nelson

    (University of California at San Diego)

  • Jayaram Chandrashekar

    (University of California at San Diego)

  • Mark A. Hoon

    (National Institute of Dental and Craniofacial Research, National Institutes of Health)

  • Luxin Feng

    (University of California at San Diego)

  • Grace Zhao

    (University of California at San Diego)

  • Nicholas J. P. Ryba

    (National Institute of Dental and Craniofacial Research, National Institutes of Health)

  • Charles S. Zuker

    (University of California at San Diego)

Abstract

The sense of taste provides animals with valuable information about the nature and quality of food. Mammals can recognize and respond to a diverse repertoire of chemical entities, including sugars, salts, acids and a wide range of toxic substances1. Several amino acids taste sweet or delicious (umami) to humans, and are attractive to rodents and other animals2. This is noteworthy because l-amino acids function as the building blocks of proteins, as biosynthetic precursors of many biologically relevant small molecules, and as metabolic fuel. Thus, having a taste pathway dedicated to their detection probably had significant evolutionary implications. Here we identify and characterize a mammalian amino-acid taste receptor. This receptor, T1R1+3, is a heteromer of the taste-specific T1R1 and T1R3 G-protein-coupled receptors. We demonstrate that T1R1 and T1R3 combine to function as a broadly tuned l-amino-acid sensor responding to most of the 20 standard amino acids, but not to their d-enantiomers or other compounds. We also show that sequence differences in T1R receptors within and between species (human and mouse) can significantly influence the selectivity and specificity of taste responses.

Suggested Citation

  • Greg Nelson & Jayaram Chandrashekar & Mark A. Hoon & Luxin Feng & Grace Zhao & Nicholas J. P. Ryba & Charles S. Zuker, 2002. "An amino-acid taste receptor," Nature, Nature, vol. 416(6877), pages 199-202, March.
    • Handle: RePEc:nat:nature:v:416:y:2002:i:6877:d:10.1038_nature726
    DOI: 10.1038/nature726
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    Cited by:

    1. Junjun Gao & Song Zhang & Pan Deng & Zhigang Wu & Bruno Lemaitre & Zongzhao Zhai & Zheng Guo, 2024. "Dietary L-Glu sensing by enteroendocrine cells adjusts food intake via modulating gut PYY/NPF secretion," Nature Communications, Nature, vol. 15(1), pages 1-22, December.

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