R. E. Magenis

A hypervariable repeated sequence on human chromosome 1p36

SummaryWhen used to probe Southern blots of TaqI-digested DNAs from unrelated individuals, p1–79, a 900 bp subclone of a random human cosmid, revealed at least 50 fragments, many of which were polymorphic. Each of 27 unrelated individuals tested with p1–79 displayed a distinct band pattern. Similar variation was seen with several other enzymes, including HaeIII, MspI, PstI and PvuII, whereas other enzymes yielded primarily large fragments of greater than 40 kb. In situ hybridization of p1–79 showed that the loci of hybridization are clustered on human chromosome band 1p36; localization of all TaqI fragments to chromosome 1 was confirmed with a human-rodent somatic cell hybrid panel. DNA sequencing of p1–79 revealed several copies of a 39 bp repeat whose variation in copy number might be the basis of the observed length polymorphisms. Studies of 3-generation Utah families suggest that the numerous restriction fragments homologous to p1–79 are inherited as haplotypes, implying that recombination within this cluster of loci is rare and allowing the cluster to serve as a useful marker for human gene mapping.

Methyl green is a substitute for distamycin A in the formation of distamycin A/DAPI C-bands

SummaryThe DA/DAPI technique has been found to be useful in the identification of specific chromosomal regions on human chromosomes. The realization that distamycin A (DA) is no longer commercially available has necessitated the development of an alternative technique. We describe a technique, MG/DAPI, which substitutes the AT-specific dye methyl green for distamycin A and gives results identical to those of the DA/DAPI technique.

Translocation(X;Y)(p22.33;p11.2) in XX males: Etiology of male phenotype

SummaryAnalysis of G-banded prometaphase chromosomes from three XX males revealed extra bands on the distal end of one X short arm. These bands were similar both in size and staining properties to the distal Y short arm of their fathers (in the two cases examined) and also to other chromosomally normal males. The extra material on the abnormal X chromosomes was not C-or G-11 positive in the two cases examined, suggesting that the proximal Y long arm was not present.Previous karyotype-phenotype correlations with structurally altered Y chromosomes provided evidence for localization of male determinants on the Y short arm. The present findings in XX males provide support for more precise localization, to bands p11.2→pter of Y short arm.

A highly polymorphic locus on chromosome 16q revealed by a probe from a chromosome-specific cosmid library

SummaryA cosmid library was constructed from genomic DNA of a human-mouse somatic cell hybrid containing an 11q–16q translocation chromosome as the only human DNA. Cosmids with human inserts were prehybridized with total human DNA and were screened to find probes that revealed highly polymorphic loci. From one such cosmid, CF33-79, a single-copy subclone was isolated which revealed an insertion/deletion polymorphism with at least 11 alleles and a PIC of 0.77. Using a somatic cell hybrid mapping panel, the subclone was mapped to chromosome 16. By in situ hybridization with the entire cosmid used as a probe, chromosomal localization was shown at 16q22→24.

Four restriction fragment length polymorphisms revealed by probes from a single cosmid map to human chromosome 12q

SummaryHuman gene mapping would be greatly facilitated if marker loci with sufficient polymorphism information content were generally available. As a source of such markers, we have used cosmids from a human genomic library. We have used a rapid method for screening random cosmids to identify those homologous to genomic regions especially rich in restriction fragment length polymophisms (Litt and White 1985). This method allows whole cosmids to be used as probes against Southern transfers of genomic DNA; regions of cosmid probes homologous to repeated genomic sequences are rendered unable to anneal with Southern transfers by prerendered of the probes with a vast excess of non-radioactive genomic DNA. From one cosmid (C1-11) identified by this procedure, we have isolated four single-copy probes, each of which identifies a polymorphic locus. Despite the existence of some linkage disequilibrium in this system, the polymorthism information content was computed as 0.73. Using a somatic cell hybrid mapping panel, we have mapped probes from cosmid 1–11 to human chromosome 12q. Additionally, in situ hybridization of the whole cosmid to metaphase spreads allowed more precise assignment of the locus to the region 12cen→q13. The locus revealed by probes from cosmid 1–11 has been designated D12S6.

A polymorphic locus on the long arm of chromosome 20 defined by two probes from a single cosmid

SummaryTwo probes from the random human cosmid c1-37 detect restriction fragment length polymorphisms in humans. The loci revealed by these probes are in linkage equilibrium and constitute a compound polymorphic locus with a polymorphism information content of 0.54. A somatic cell hybrid panel has been used to map the probes to chromosome 20; in situ hybridization studies confirm this localization and indicate that the locus is on 20q13. This is the first polymorphic locus to be assigned to the long arm of chromosome 20.

A hypervariable region at the D19S11 locus

SummaryThe polymorphic locus D19S11 consists of four closely linked RFLPs: α, β, δ and γ on chromosome 19p13.2→19cen, revealed by subclones p13-1-82 and p13-2-21 from cosmid 1–13. Here, we report that p13-1-25, an additional subclone of c1-13, reveals three insertion/deletion RFLPs, α, ε, and ϕ, at the D19S11 locus. In situ hybridization of p13-1-25 to metaphase chromosomes from a carrier of a 19/X translocation with a breakpoint near the centromere confirms localization of D19S11 to 19p. Studies with hydatidiform moles have generated assignments of specific restriction fragments to these three loci, and genotypic studies in three-generation families have indicated that they are closely linked. Loci α (also detected by p13-1-82) and ϕ each have but two common alleles, whereas ε has at least 33 alleles, including a null allele. Fifty unrelated individuals tested displayed unique fragment patterns on Taq I blots probed with p13-1-25. Applications of this probe include monitoring loss of chromosome 19 during tumorigenesis, monitoring engraftment of donor bone marrow after transplantation, testing for paternity, and mapping disease genes on chromosome 19.