Dwarfism gene under scrutiny.Geneticists This is a list of people who have made notable contributions to genetics. The growth and development of genetics represents the work of many people. This list of geneticists is therefore by no means complete. Contributors of great distinction to genetics are not yet on the list. are finally finding the genes responsible for most cases of dwarfism dwarfism, condition in which an animal or plant is less than normal in size and lacks the capacity for normal growth. Dwarfism is deliberately produced and perpetuated in certain species (e.g., in breeding miniature dogs and cultivating dwarf plants). . Last year, two groups reported that achondroplasia Achondroplasia Definition Achondroplasia is the most common cause of dwarfism, or significantly abnormal short stature. Description , the most common genetic form of dwarfism, results from a small mutation in the gene that contains the instructions for fibroblast growth factor receptor The fibroblast growth factor receptors are, as their name implies, receptors which bind to members of the fibroblast growth factor family of proteins. Structure The fibroblast growth factor receptors consist of an extracellular ligand domain comprised of three 3 (FGFR FGFR Fibroblast Growth Factor Receptor 3), a protein needed for skeletal development in the embryo. They also showed that in almost all cases of achondroplasia, the mutation consists of an alteration of exactly the same nucleotide, one of DNA's basic building blocks. This nucleotide's mutation rate--how often it spontaneously changes--is the highest ever calculated, notes Clair A. Francomano of the National Center for Human Genome Research in Bethesda, Md. "This is a mutation that keeps occurring again and again," she says. "I can't begin to give you an explanation as to why." This year, in the July Nature Genetics, Francomano and her colleagues reported that a less severe form of dwarfism, hypochondroplasia, also stems from a mutation on the FGFR3 gene, but at a completely different nucleotide. Among the 30 hypochondroplasia patients they've studied, 29 have a mutation at that particular nucleotide, she says. One benefit of the new data on FGFR3, says Francomano, is that she can offer prenatal testing Prenatal testing Testing for a disease such as a genetic condition in an unborn baby. Mentioned in: Retinoblastoma, Von Willebrand Disease to couples who are both achondroplasic. That's important, because if each parent passes on the mutated FGFR3 gene, their child will have no normal copy. Babies with two copies of the mutated FGFR3 gene don't survive beyond a few months because of their severe skeletal abnormalities, she explains. |
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