Manatee Bones Lead Stanford Scientist to New Insight on Evolution.STANFORD, Calif. -- Most research professors spend their days writing grants, teaching and managing graduate students, so when Stanford's David Kingsley, PhD, ventured from his office to his lab, pulled out a scale and started weighing 114 pairs of manatee manatee: see sirenian. manatee Any of three species (family Trichechidae) of slow-moving, shallow-water herbivorous mammals. Manatees have a tapered body ending in a rounded flipper, no hind flippers, and foreflippers near the head. pelvic bones, it was a sign that something was afoot. The results of Kingsley's efforts make his departure from the routine worthwhile. He found that in almost every case, the left pelvic bone outweighed the right. Although seemingly trivial in difference -- the average left pelvic bone is a mere 10 percent larger than its right-side partner -- that difference carries big weight in evolutionary significance. It suggests that mutations in the same gene may be responsible for the evolution of leglessness in animals as distantly related as 1,000-pound manatees in Florida and fish smaller than an index finger living in lakes and streams around the world. "It's striking that evolution might use the same mechanism over and over," said Kingsley, professor of developmental biology Developmental biology A large field of investigation that includes the study of all changes associated with an organism as it progresses through the life cycle. The life cycles of all multicellular organisms exhibit many similarities. at the Stanford University School of Medicine Stanford University School of Medicine is affiliated with Stanford University and is located at Stanford University Medical Center in Stanford, California, adjacent to Palo Alto and Menlo Park. and a 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. investigator. His study will appear in the Aug. 28 advance online issue of the Proceedings of the National Academy of Sciences The Proceedings of the National Academy of Sciences of the United States of America, usually referred to as PNAS, is the official journal of the United States National Academy of Sciences. . The reason the asymmetric pelvic bones are important goes back to work Kingsley published in 2004. In that paper, Kingsley's lab showed that mutations in a gene called PitX1 were responsible for the loss of pelvic fins in three different species of a fish called the threespine stickleback stickleback, common name for members of the family Gasterosteidae, small fishes, widely distributed in both fresh- and saltwaters of the Northern Hemisphere. Sticklebacks range from 1 1-2 to 4 in. (3. . In each of the species, the mutation arose independently as the fish evolved in lakes or streams where a more streamlined shape held some evolutionary advantage. At the time, Kingsley's work was the first to show that a single gene could be responsible for a large evolutionary change, such as the loss of an entire set of fins, in natural populations. What was particularly interesting was that the mutation arose independently in populations separated by thousands of miles. Mouse researchers had also known that a PitX1 mutation eliminated hind limbs in mice, albeit under artificial conditions. What's more, in both mice and sticklebacks with a PitX1 mutation, the residual pelvis tended to be larger on the left than the right. That finding is what started Kingsley thinking about manatees -- large, ocean-going mammals -- as well as whales, snakes and skinks, all of which evolved from four-legged ancestors. He theorized that if a PitX1 mutation was responsible for pelvic reductions in several species of sticklebacks and had a similar role in laboratory mice, it might be a mutation used widely by evolution. As luck would have it, Kingsley made contact with Sentiel Rommel, PhD, a manatee researcher from the Florida Fish and Wildlife Research Institute, who had collected pelvic bones from manatees during autopsies. Kingsley convinced Rommel to send the collection of bones, each about the size of a child's fist. When Kingsley weighed the rudimentary bones, he found that manatees showed the same characteristic asymmetry found in mice and sticklebacks. The asymmetry observed in manatee pelvic bones suggests that PitX1 may have been used repeatedly as animals evolved from their four-legged ancestors. However, as Kingsley noted, further studies are now needed to pinpoint the 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. changes in Pitx1 or other genes that are associated with pelvic reduction in manatees and other organisms. Although he has no genetic evidence of a PitX1 mutation in manatees, he's trying to strengthen his case by extending his asymmetry observations to other animals. Unfortunately, he has yet to find a cache of snake or whale pelvises. Still, Kingsley is heartened by the morphological similarities his team has observed between pelvic reduction in very different animals. "It's encouraging because it means that if you are looking at the genetic mechanisms of evolution in one animal, your results may turn out to be surprisingly general," he said. In this same paper, Kingsley and postdoctoral scholar Michael Shapiro People named Michael Shapiro include:
This work was funded by the Helen Hay Whitney Foundation, the Burroughs Wellcome Fund and the National Institutes of Health. Stanford University Medical Center Stanford University Medical Center (Stanford Hospital & Clinics) is one of four hospitals affiliated with Stanford University and Stanford University School of Medicine, along with the Lucile Packard Children's Hospital, the Veteran's Administration Hospital in Palo Alto, and Santa integrates research, medical education and patient care at its three institutions -- Stanford University School of Medicine, Stanford Hospital Stanford Hospital is located at 300 Pasteur Drive, Stanford, California, 94305.[1] It is world-renowned for its work in cardiovascular medicine and surgery, organ transplantation, neurology, neurosurgery, and cancer diagnosis and treatment. & Clinics and Lucile Packard Children's Hospital Lucile Packard Children's Hospital (LPCH) is a hospital located on the Stanford University campus in Palo Alto, California. It is staffed by over 650 physicians and 4,750 staff and volunteers. at Stanford. For more information, please visit the Web site of the medical center's Office of Communication & Public Affairs Those public information, command information, and community relations activities directed toward both the external and internal publics with interest in the Department of Defense. Also called PA. See also command information; community relations; public information. at http://mednews.stanford.edu. |
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