Transition from normal to premutated alleles in fragile X syndrome results from a multistep process.

In fragile X syndrome, the most common cause of inherited mental retardation, phenotypic expression has been linked to a region containing a repetitive sequence, (CGG)n, that appears to lengthen dramatically in fragile X patients and to show length variation in normal individuals. In order to investigate possible mechanisms responsible for further expansion of CGG in the normal population, we selected 31 normal unrelated X chromosomes carrying either the high-risk DX204-AC155 or DX196-AC151 haplotypes, as defined by the flanking microsatellites, DXS548 and FRAXAC2. Nearly 100% of CGGs with more than 35 repeats were found on DX204-AC155 haplotypes, with a mean length significantly higher and much more variable than in normal individuals carrying other haplotypes including the high-risk haplotype DX196-AC151.

Molecular analysis of a ring chromosome X in a family with fragile X syndrome.

The phenotypically normal sister of a patient affected by fragile X syndrome was referred for genetic counselling and was found to carry a mosaic karyotype 46,X,r(X)/45,X. Because the probability of the simultaneous chance occurrence of fragile X syndrome and a ring chromosome X in the same family is very low, we postulated that the breakpoint of the ring chromosome X originated in the cytogenetic break in Xq27.3 responsible for fragile X syndrome.

Affected sibs with fragile X syndrome exhibit an age-dependent decrease in the size of the fragile X full mutation.

The sizes of the fragile X mutation in 33 sib pairs affected with fragile X syndrome were determined by Southern blot analysis. An age-dependent decrease in the size of the mutation was found, suggesting positive selection of blood cells carrying small mutations during life or maternal imprinting.

Linkage disequilibrium between the fragile X mutation and two closely linked CA repeats suggests that fragile X chromosomes are derived from a small number of founder chromosomes.

In order to investigate the origin of mutations responsible for the fragile X syndrome, two polymorphic CA repeats, one at 10 kb (FRAXAC2) and the other at 150 kb (DXS548) from the mutation target, were analyzed in normal and fragile X chromosomes. Contrary to observations made in myotonic dystrophy, fragile X mutations were not strongly associated with a single allele at the marker loci. However, significant differences in allelic and haplotypic distributions were observed between normal and fragile X chromosomes, indicating that a limited number of primary events may have been at the origin of most present-day fragile X chromosomes in Caucasian populations.

Early prenatal diagnosis of 21-hydroxylase deficiency using amniotic fluid 17-hydroxyprogesterone determination and DNA probes.

The results of early prenatal diagnoses of congenital adrenal hyperplasia are reported. The determination of 17-hydroxyprogesterone values in amniotic fluid taken transabdominally at 11 weeks of gestation enabled prenatal diagnosis of congenital adrenal hyperplasia due to 21-hydroxylase (21-OH) deficiency. There is a clear-cut difference between normal and pathological values at that time of pregnancy.