A gene for Waardenburg Syndrome type 2 maps close to the human homologue of the microphthalmia gene at chromosome 3p12–p14.1
AE Hughes, VE Newton, XZ Liu, AP Read - Nature genetics, 1994 - nature.com
AE Hughes, VE Newton, XZ Liu, AP Read
Nature genetics, 1994•nature.comWaardenburg syndrome (WS), an autosomal dominant syndrome of hearing loss and
pigmentary disturbances, comprises at least two separate conditions. WS type 1 is normally
caused by mutations in PAX3 located at chromosome 2q35 and is distinguished clinically by
minor facial malformations. We have now located a gene for WS type 2. Two families show
linkage to a group of microsatellite markers located on chromosome 3p12–p14. 1. D3S1261
gave a maximum lod score of 6.5 at zero recombination in one large Type 2 family. In a …
pigmentary disturbances, comprises at least two separate conditions. WS type 1 is normally
caused by mutations in PAX3 located at chromosome 2q35 and is distinguished clinically by
minor facial malformations. We have now located a gene for WS type 2. Two families show
linkage to a group of microsatellite markers located on chromosome 3p12–p14. 1. D3S1261
gave a maximum lod score of 6.5 at zero recombination in one large Type 2 family. In a …
Abstract
Waardenburg syndrome (WS), an autosomal dominant syndrome of hearing loss and pigmentary disturbances, comprises at least two separate conditions. WS type 1 is normally caused by mutations in PAX3 located at chromosome 2q35 and is distinguished clinically by minor facial malformations. We have now located a gene for WS type 2. Two families show linkage to a group of microsatellite markers located on chromosome 3p12–p14.1. D3S1261 gave a maximum lod score of 6.5 at zero recombination in one large Type 2 family. In a second, smaller family the adjacent marker D3S1210 gave a lod of 2.05 at zero recombination. Interestingly, the human homologue (MITF) of the mouse microphthalmia gene, a good candidate at the phenotypic level, has recently been mapped to 3p12.3–p14.4.
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