Researchers enjoy bitter taste of success.Taste has been the most elusive of the five senses. Now, genetic work is revealing how taste buds handle the chemical information that washes over them. Researchers have discovered a large family of taste-cell proteins that seem to latch onto bitter chemicals, the first step in perceiving the flavor. The team also presents the first molecular genetic evidence for differences in taste perception, says Nicholas Ryba of the National Institutes of Health in Bethesda, Md. Scientists from NIH "Not invented here." See digispeak. NIH - The United States National Institutes of Health. and the University of California, San Diego UCSD is consistently ranked among the top ten public universities for undergraduate education in the United States by U.S. News & World Report.[3] It is a Public Ivy. [1] For graduate studies, most of UCSD's Ph.D. (UCSD UCSD University of California, San Diego (La Jolla, California) UCSD User Centered System Design UCSD Urbana-Champaign Sanitary District (Illinois) UCSD Ultra Cool Sexy Dudes ) describe these findings in the March 17 CELL. The report comes soon after the first identification of a functioning taste receptor. It detects umami--the meaty flavor of monosodium glutamate and parmesan cheese (SN: 1/29/00, p. 68). The team looking for bitter-flavor receptors had previously found two candidates (SN: 2/27/99, p. 132). However, those proteins weren't made by the taste cells that produce the signaling protein, called gustducin, that's known to be important for recognizing bitterness, says Ryba. So, he, Charles S. Zuker of UCSD, and their team had to look again for the bitter receptors. Geneticists have known for a long time that some people can taste a bitter chemical called 6-n-propyl-2-thiouracil, or PROP, while others are oblivious to it (SN: 7/12/97, p. 24). When other researchers pinpointed a region of the human genome where the gene for PROP tasting lies, the NIH-UCSD group examined the area's DNA sequence. They found a gene there that encodes a protein similar to receptors in the nose that recognize odors. By searching human DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. databases, the group turned up 25 similar genes. Some of these had been linked to the taste of certain bitter compounds like quinine quinine (kwī`nīn', kwĭnēn`), white crystalline alkaloid with a bitter taste. Before the development of more effective synthetic drugs such as quinacrine, chloroquine, and primaquine, quinine was the specific agent in the treatment of and cycloheximide cycloheximide an antibiotic produced by Streptomyces griseus that inhibits protein synthesis. It is too toxic and nonselective for common clinical use, but is used in treatment of cancers and management of graft-versus-host reactions following transplantation. . People may have 40 to 80 genes for bitter-recognizing proteins, Ryba estimates. Fruit flies also have a family of taste-receptor genes, Yale University researchers report in the March 10 SCIENCE. Cells that make any of the newly found mammalian receptor proteins also produce all the others and gustducin. However, not all gustducin-producing cells make bitter receptors. Those cells may be involved in detecting sweetness, suggests taste researcher Nirupa Chaudhari of the University of Miami This article is about the university in Coral Gables, Florida. For the university in Oxford, Ohio, see Miami University. The University of Miami (also known as Miami of Florida,[2] UM,[3] or just The U . When mixed with a bitter chemical in a test tube, the receptor proteins link to gustducin to trigger the next step in taste signaling, the NIH-UCSD team finds. "Taste is something that's more than just a test-tube reaction. It's a sensation," Ryba says. "So, in the end, you have to relate everything back to an animal model." The researchers used two strains of laboratory mice--only one of which tastes cycloheximide. Mice that perceive the chemical all have one form of a bitter receptor called T2R T2R Trouble to Resolve T2R Trusted Transaction Roaming Platform 5, while nontasting mice had another. The new research gives a much more complete picture of how taste cells identify flavors, says Sue C. Kinnamon, a neuroscientist at Colorado State University Colorado State University, at Fort Collins; land-grant with state and federal support; chartered 1870, opened 1879 as an agricultural college, assumed present name in 1957. There is a veterinary teaching hospital, an agricultural campus, and a research campus. in Fort Collins. "What they've done is a major tour de force in the field of taste," she says. The characterizations of the family of bitter receptors and the umami For the record label, see . Umami (Japanese: 旨み、旨味、うまみ) is one of the five basic tastes sensed by specialized receptor cells present on the human tongue. receptor have paved the way for scientists to finally understand how taste works, says Steven D. Roper of the University of Miami, a codiscoverer of the umami receptor. "We've finally gotten a foot in the door, and the door is starting to open," he says. The NIH and UCSD researchers say in their article that they hope to identify chemicals that will block bitter receptors "and in a small but significant way, eliminate bitterness from the world." |
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