Genetic heterogeneity in tuberous sclerosis

Tuberous sclerosis (TSC) is an autosomal dominant disorder characterized by widespread hamartosis. Preliminary evidence of linkage between the TSC locus and markers on chromosome 9q34 was established, but subsequently disputed. More recently, a putative TSC locus on chromosome 11 has been suggested and genetic heterogeneity seems likely. Here we describe an approach combining multipoint linkage analysis and heterogeneity tests that has enabled us to obtain significant evidence for locus heterogeneity after studying a relatively small number of families. Our results support a model with two different loci independently causing the disease. One locus (TSC1) maps in the vicinity of the Abelson oncogene at 9q34 and a second locus (TSC2) maps in the region of the anonymous DNA marker Lam L7 and the dopamine D2 receptor gene at 11q2

Prenatal Diagnosis and Carrier Detection of Duchenne Muscular Dystrophy with Closely Linked RFLPs

By the use of a series of closely linked DNA probes detecting restriction fragment length polymorphisms (RFLPs) distributed over the short arm of the X chromosome, a double crossover was detected in a Duchenne muscular dystrophy carrier and an affected male fetus was diagnosed at 12 weeks of gestation, with a probable accuracy of more than 99·0%. A new mutation was identified in another family with the same degree of reliability; three females in this family were thus deemed not to be DMD carriers. The eleven RFLP-markers presently available on the short arm of the X chromosome are useful in the diagnosis of DMD since they bridge the Duchenne locus at genetic distances varying between 3 and 20 cmo. Moreover, recombination within the set of markers provides an independent way of regionally mapping these probes relative to each other along the short arm of the X chromosome