" Although the genetics of the disorders are very different, the end result for the brain seems to be the same, said Daniel Madison, PhD, associate professor of molecular and cellular physiology. "It's as if you had every light in your house wired to just one or two switches, rather than having many switches that can be flipped on or off in complex combinations to control the lighting in one room," he said. "

" Madison is the senior author of a paper on Fragile X syndrome in mice, which will be published in the April 11 issue of the Journal of Neuroscience. He published a related study on mice with Down syndrome symptoms in the Feb. 15 issue of the "

" Madison is a member of Stanford's Down Syndrome Research Center, started in 2003 by researchers at the School of Medicine and Lucile Packard Children's Hospital to accelerate the application of research to effective treatments for the condition. "

" In the latest study, Madison and postdoctoral scholar Jesse Hanson, PhD, studied Fragile X syndrome, which is a leading cause of mental retardation in this country. Affected people tend to have learning disabilities, distinct physical characteristics such as enlarged ears and a long face, and such behavioral problems as attention deficit disorder, speech disturbances and unusual responses to various sights or sounds. Although it's not known why, about one-third of people with Fragile X also develop autism - a much higher percentage than in the general population. This makes Fragile X, which can be studied in mice, the only genetic model for autism. "

" As the syndrome's name suggests, the responsible gene, called Fmr1, is located on the X chromosome. Because boys have only one X chromosome while girls have two, boys are usually more severely affected when Fmr1 is mutated. Girls are not immune to the condition, however. A phenomenon called X-inactivation, which randomly silences one member of every X chromosome pair, creates a mosaic of affected and unaffected nerve cells in the brain. "

" In some conditions linked to the X chromosome, such as hemophilia, the normal cells can cover for their useless peers. Not so for an elite corps of brain neurons. Here, where cooperation and communication are key, a few deadbeats in the mix can be disastrous. "

" The researchers' discovery of the muddled communication networks in the brain hinged on two advances. One was their creation of an Fmr1 mosaic mouse with brain characteristics similar to those of people with Fragile X. The other was the use of specialized microscopes and tiny needles to eavesdrop directly on individual conversations between two cells. Before this study, investigators relied on a strain of mice in which every cell carried a mutated Fmr1 gene, and they inferred how cells communicated by results from experiments on groups of cells. "

" The new approach allowed Madison's team to see that cells with a mutated Fmr1 gene have a very selective flaw: they are less likely than normal cells to reach out and form connections, or synapses,
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