Figures and data in Bitter taste receptors confer diverse

Por um escritor misterioso

Descrição

Insects and other animals use their sense of taste to tell if their food is safe to eat. Plant toxins, for example, often have a bitter flavor that animals can detect and avoid. Fruit flies have many bitter-sensitive nerve cells, but it is not known how the receptors on these nerve cells signal the detection of bitter-flavored compounds. Delventhal and Carlson have now used fruit flies to investigate how taste receptors of the so-called Gustatory receptor family detect bitter flavors. The experimental approach involved genetically modifying four different types of nerve cells that sense bitter compounds so that they produced higher levels of particular taste receptors than normal. Then, the flies were exposed to a range of bitter compounds while the electrical activity of each cell was measured. The analysis involved about 600 combinations of receptors, nerve cells and compounds. In some bitter-sensing nerve cells, increasing the number of taste receptors increased the cell’s responsiveness to bitter compounds. However, in other nerve cells, similar modifications suppressed an existing response or resulted in a new response. Delventhal and Carlson propose that these results suggest the specific response of a bitter-sensing nerve cell depends on the interactions between its different taste receptors. Furthermore, the ability of receptors to compete, inhibit or activate each other in different ways could have implications for evolution. For example, such flexible interactions might allow a taste system to evolve new, enhanced or diminished responses to new food sources and tastes in a changing environment. It now remains to be investigated how such receptor interactions take place at a molecular level.
Expression of Drosophila bitter receptors in taste neurons produced increased, decreased, or novel responses, supporting a model in which the response profile is determined by activation, inhibition, or competition among receptors.
Figures and data in Bitter taste receptors confer diverse
Functional divergence of bitter taste receptors in a nectar-feeding bird
Figures and data in Bitter taste receptors confer diverse
Bitter taste receptors confer diverse functions to neurons
Figures and data in Bitter taste receptors confer diverse
Figures and data in Bitter taste receptors confer diverse functions to neurons
Figures and data in Bitter taste receptors confer diverse
Cancers, Free Full-Text
Figures and data in Bitter taste receptors confer diverse
Putative Mammalian Taste Receptors: Cell
Figures and data in Bitter taste receptors confer diverse
The endocrinology of taste receptors
Figures and data in Bitter taste receptors confer diverse
IJMS, Free Full-Text
Figures and data in Bitter taste receptors confer diverse
An update on extra-oral bitter taste receptors, Journal of Translational Medicine
Figures and data in Bitter taste receptors confer diverse
Frontiers G Protein-Coupled Receptors in Taste Physiology and Pharmacology
Figures and data in Bitter taste receptors confer diverse
Taste receptors influencing effective modalities in human health – A cutting edge update on TAS1R and TAS2R receptor polymorphisms in taste perception and disease risk - Crystal Sara Shaji, Radha Saraswathy, 2023
Figures and data in Bitter taste receptors confer diverse
Bitter Taste Receptors
Figures and data in Bitter taste receptors confer diverse
Frontiers G Protein-Coupled Receptors in Taste Physiology and Pharmacology
Figures and data in Bitter taste receptors confer diverse
Selective integration of diverse taste inputs within a single taste modality
Figures and data in Bitter taste receptors confer diverse
Frontiers The Hidden One: What We Know About Bitter Taste Receptor 39
de por adulto (o preço varia de acordo com o tamanho do grupo)