Peter E. Barker

Dispersion of argininosuccinate synthetase-like human genes to multiple autosomes and the X chromosome

DNA sequences closely homologous to argininosuccinate synthetase are present at ten or more distinct locations in the human genome, including sites on chromosomes 6, 9 and X. Argininosuccinate synthetase thus represents one of the most widely dispersed multigene families described to date, the first instance of a multigene family associated with an enzyme of intermediary metabolism and, perhaps most striking, the first instance of a multigene family with members on both autosomes and sex chromosomes.

Somatic cell hybrid mapping panels

The recent advances in human gene mapping have been largely due to the development of interspecies cell hybrids containing human chromosomes and their fragments. The importance of characterized panels of these hybrid lines has grown exponentially with the application of recombinant DNA technologies to human genetics. In this article, we discuss current strategies employed in the construction of somatic cell hybrid mapping panels.

Proximity of thyroglobulin and c-myc genes on human chromosome 8.

The human thyroglobulin structural gene (TG) was mapped to the long arm of chromosome 8 by blot hydridization of a TG cDNA probe to DNA from 21 human × mouse somatic cell hybrids containing overlapping subsets of human chromosomes. In situ hybridization of the TG probe to metaphase chromosomes from a karyotypically normal human lymphoblastoid cell line, JS, localized the TG gene to within the region 8q23 → q24.3. Thus, the TG and c-myc genes map to the same chromosome band in normal human cells. In a human colon carcinoma cell line (COLO 320 DM) which contains amplified c-myc, the TG gene is not amplified and hence it lies outside the amplification domain.

Assignment of low-molecular-weight human (2', 5')A synthetase to chromosome 11

Human low-molecular-weight (2′, 5′)A synthetase is induced in certain human x mouse somatic hybrid cell lines when these cells are treated with mouse interferon. We have assigned the gene coding for this interferon-inducible antiviral enzyme to human chromosome 11 by somatic cell genetic techniques (1). Fluorescence-activated cell sorting for cells expressing or lacking 4F2 antigen in two independently derived, chromosome 11-containing hybrid cell lines separated the cells into subpopulations of cells that had retained or segregated chromosome 11, respectively (2). We used these subpopulations to confirm our gene assignment by demonstrating that retention of chromosome 11 was required for expression of human (2′, 5′) A synthetase.

Chromosomal distribution of genes coding for fast twitch skeletal muscle myosin light chains

The mouse fast twitch skeletal muscle myosin light chains are encoded by a multigene family which comprises the gene coding for the myosin light chain 2 (Myl2f), and the gene coding for both myosin light chains 1 and 3 (Myl1f/Myl3f). In addition, a Myl1f/Myl3f-related pseudogene is present in the domestic mouse Mus musculus. The members of this gene family were assigned to chromosomes by molecular hybridization; using DNA extracted from a panel of cloned mouse-Chinese hamster somatic hybrid cells and specific DNA probes. The genes coding for the light chains of the myosin molecule are dispersed on several chromosomes, while genes coding for the heavy chain of myosin are located on a single, different chromosome.

Interferon-β-related DNA on human chromosome 4

A DNA subclone (pPE-4000) derived from the λB4 interferon-β-related human genomic DNA clone was used as a probe in blot-hybridization experiments of DNA from a panel of human-rodent somatic cell hybrids containing overlapping subsets of human chromosomes. The DNA hybridization experiments showed that the λB4 IFN-β locus is localized to human chromosome 4. A provisional regional assignment to 4q12-qter was also obtained. Thus available hybridization data implicate human chromosomes 2, 4, and 9 in the human IFN-β system while the available biological data also implicated human chromosome 5.