1. Drosophila Sugar Receptors in Sweet Taste Perception, Olfaction, and Internal Nutrient Sensing

    Current Biology 25(5):621 (2015) PMID 25702577

    Identification of nutritious compounds is dependent on expression of specific taste receptors in appropriate taste-cell types [1]. In contrast to mammals, which rely on a single, broadly tuned heterodimeric sugar receptor [2], the Drosophila genome harbors a small subfamily of eight, c...
  2. Drosophila sugar receptors in sweet taste perception, olfaction, and internal nutrient sensing.

    Current Biology 25(5):621 (2015) PMID 25702577

    Identification of nutritious compounds is dependent on expression of specific taste receptors in appropriate taste-cell types [1]. In contrast to mammals, which rely on a single, broadly tuned heterodimeric sugar receptor [2], the Drosophila genome harbors a small subfamily of eight, closely rel...
  3. A genetic tool kit for cellular and behavioral analyses of insect sugar receptors.

    Fly 8(4):189 (2014) PMID 25984594

    Arthropods employ a large family of up to 100 putative taste or gustatory receptors (Grs) for the recognition of a wide range of non-volatile chemicals. In Drosophila melanogaster, a small subfamily of 8 Gr genes is thought to mediate the detection of sugars, the fly's major nutritional source. ...