Teams find probable gene for sweet sense.Two scientific groups tasted victory this week in a race to identify a candidate gene for controlling our proverbial sweet tooth. The two teams pulled ahead of several others scrambling to describe the genetic basis of sweet-taste perception in mammals. "It's been a kind of dogfight," says Danielle R. Reed, a behavioral geneticist ge·net·i·cist n. A specialist in genetics. geneticist a specialist in genetics. geneticist on a team at the Monell Chemical Senses Center This article or section needs sources or references that appear in reliable, third-party publications. Alone, primary sources and sources affiliated with the subject of this article are not sufficient for an accurate encyclopedia article. in Philadelphia. By reporting their work simultaneously in the May NATURE GENETICS and the May NATURE NEUROBIOLOGY Neurobiology Study of the development and function of the nervous system, with emphasis on how nerve cells generate and control behavior. The major goal of neurobiology is to explain at the molecular level how nerve cells differentiate and develop their , two Howard Hughes Medical Institute Howard Hughes Medical Institute, (HHMI), nonprofit medical research organization founded in 1953 by Howard Hughes and largly funded from proceeds of the 1984–85 sale of Hughes Aircraft. Headquartered in Chevy Chase, Md. labs--one at Mount Sinai School of Medicine
Mount Sinai School of Medicine is a medical school found in the borough of Manhattan in New York City. in New York and the other at Harvard Medical School Harvard Medical School (HMS) is one of the graduate schools of Harvard University. It is a prestigious American medical school located in the Longwood Medical Area of the Mission Hill neighborhood of Boston, Massachusetts. in Boston--squeaked by Reed's team and several others. The tongue distinguishes only five basic flavors: sweet, sour, bitter, salty, and 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. , the taste associated with monosodium glutamate. Unveiling how tongue cells register these flavors has been a challenge, especially for the umami, bitter, and sweet flavors, which depend on receptors made of protein. In contrast, salty and, probably, sour flavors use a simpler detection system. Scientists have recently identified the genes for proteins that serve as the molecular receptors for the umami and bitter categories (SN: 1/29/00, p. 68; 3/25/00, p. 196). The gene for sweet receptors, however, remained elusive. "Three things were essential in finding this gene" in humans, says Nicholas J.P. Ryba of the taste and smell unit of the National Institute of Dental and Craniofacial Research The National Institute of Dental and Craniofacial Research (NIDCR), is part of the U.S. National Institutes of Health, and as such its function is to the promote the general health of the American people, by improving their oral, dental and craniofacial health. in Bethesda, Md. Researchers needed an idea of the sequence of a sweet-receptor gene and some sense of where in the genome it might be found. They also required the human genome sequence. Two years ago, two genes that are active in human taste cells and that resemble other genes already associated with sensory receptors were identified by Ryba's team in conjunction with Charles Zucker of the Howard Hughes Medical Institute at 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. . These genes provided examples of what a sweet-sensing gene might look like (SN: 2/27/99, p. 132). Gary K. Beauchamp and Alexander Bachmanov of Monell then localized sweet sensitivity in mice to a small genomic region called the Sac locus (SN: 4/15/00, p. 255). Reed, a member of the Beauchamp team, describes this narrowing of the search as "starting out by looking throughout the world and ending up looking under the sofa cushions." Finally, the unveiling of the human genome sequence earlier this year enabled the researchers hunting for sweet-receptor genes to troll the stretches of 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. that are analogous to the mouse's Sac locus. The researchers targeted genes with sequences resembling those for the receptors that Ryba and Zucker found in 1999. "We were combing the whole region responsible for the sweet [taste sensitivity] and basically found one novel receptor," says Y. Gopi Shanker of the Mount Sinai team. The other group, headed by Jean-Pierre Montmayeur of Harvard Medical School, took a similar tack. In their reports, both groups described the receptor's gene, called T1r3, as the likely basis for the tongue's sweetness sensor. The teams are now attempting to confirm the function of the gene by disabling it in mice and in cell cultures and measuring sensitivity to sweetness. Deciphering the molecular mechanisms behind taste will lead to a better understanding of perception in general, says Montmayeur. Specifically, he adds, researchers want to understand why some people crave sugar to their own detriment and how artificial sweeteners might better fool the palate. |
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