Deborah L. Grady

The human THE-LTR(O) and MstII interspersed repeats are subfamilies of a single widely distributed highly variable repeat family.

Fifteen examples of the transposon-like human element (THE) LTR and thirteen examples of the MstII interspersed repeat are aligned to generate new consensus sequences for these human repetitive elements. The consensus sequences of these elements are very similar, indicating that they compose subfamilies of a single human interspersed repetitive sequence family. Members of this highly polymorphic repeat family have been mapped to at least 11 chromosomes. Seven examples of the THE internal sequence are also aligned to generate a new consensus sequence for this element. Estimates of the abundance of this repetitive sequence family, derived from both hybridization analysis and frequency of occurrence in GenBank, indicate that THE-LTR/MstII sequences are present every 100-3000 kb in human DNA. The widespread occurrence of members of this family makes them useful landmarks, like Alu, L1, and (GT)n repeats, for physical and genetic mapping of human DNA.

Development of diagnostic tools for the analysis of 5p deletions using interphase FISH

Cri-du-chat syndrome is associated with a deletion of the short arm of chromosome 5. Through the phenotypic and molecular analyses of individuals with a subset of the features associated with the syndrome, the genes involved in the syndrome have been mapped to two distinct critical regions. Deletion of a critical region in 5p15.2 results in the distinct facial features associated with the syndrome as well as the severe mental and developmental delay, while a deletion of 5p15.3 is associated only with the characteristic cat-like cry, the key diagnostic feature of the syndrome. Therefore, subtle differences in the extent of the 5p deletion can have a profound affect on the prognosis of the patient. In order to more easily differentiate between deletions that lead to the cri-du-chat syndrome phenotype and deletions that lead only to the isolated cat-like cry, we have constructed YAC contigs that span both critical regions. The YAC clones have been used to isolate cosmids mapping to each critical region and cosmids that lie just within the two critical region boundaries have been identified. We report here on the use of these cosmids as probes for fluorescent in situ hybridization experiments on interphase nuclei as a means of more accurately differentiating between small 5p deletions that coincide with a complete cri-du-chat syndrome phenotype and the severe mental and developmental delay that is associated with it and deletions that only delete the distal critical region that coincide with the isolated cat-like cry and a much improved prognosis.

Integration of four genes, a pseudogene, thirty-one STSs, and a highly polymorphic STRP into the 7–10 Mb YAC contig of 5q34–q35

Thirty-one sequence tagged sites and a highly polymorphic short tandem repeat polymorphism have been isolated from 5q34–q35 and integrated into the yeast artificial chromosome (YAC) contig of 5q34–q35. In addition, four genes (MSX2, CSX, DRDI, andCLI00) and a pseudogene (GLUT6) were localized on this map. The high density of new markers in the region allowed further refinement of the YAC contig of distal 5q. This is a prerequisite for the conversion of this YAC into a cosmid contig.