David McGibbon

Ullrich-Turner syndrome : Seven pregnancies in an apparent 45,X woman

A 37-year-old woman was referred for genetic counseling after termination of her probable seventh pregnancy. Ultrasound examination at 13 weeks of gestation had shown a fetus with bilateral cystic hygromas. A transabdominal amniocentesis confirmed 45,X karyotype in the fetus. The patient had marked short stature and a 45,X chromosome constitution in blood lymphocytes. Subsequently she had a hysterectomy and oophorectomy. Tissue of representative sites of the pathological specimen showed a 45,X chromosome constitution. However, molecular analysis of 8 sites from the uterus and ovaries, and of skin fibroblasts with X-chromosome microsatellites showed the presence of only one allele, except for the microsatellite DXS996 which demonstrated 2 alleles (155 bp and 161 bp) in ovarian tissue. The lymphocytes from the mother and her only son demonstrated the same single allele (161 bp). We conclude that molecular analysis of lymphocytes and of tissue is necessary for detecting low-level mosaicism in apparently homogeneous 45,X women.

Mutation analysis in Irish families with glomuvenous malformations

Backgroundu2002 Glomuvenous malformations (GVMs) are rare bluish lesions that can affect the skin and mucosal surfaces. They represent defects in vasculogenesis. Lesions can occur sporadically or in an autosomal dominant mode of inheritance. Recent studies have shown that mutations in the glomulin gene (GLMN) on chromosome 1p21‐22 are responsible for familial GVMs.

A physical and expression map of the D17S1810–D17S1353 region spanning the central areolar choroidal dystrophy locus

Central areolar choroidal dystrophy (CACD) causes bilateral irreversible central visual loss in the 5th to 7th decades. The authors previously described a large pedigree with the disorder, which showed linkage to chromosome 17p13.2→p13.1 between microsatellite markers D17S1353 and D17S1810. 17p13 is very rich in genes that cause retinal diseases. We have now constructed a detailed and ordered physical map of the critical CACD region which spans up to 2.4 Mb. The new transcript map contains thirteen genes and seven expressed sequence tags (ESTs) that are eye-expressed, and therefore are positional candidates. Several of these have been screened, but no disease-causing mutations were found in CACD patients.