Spontaneous in vitro neoplastic evolution of cultured Chinese hamster cells. Nucleolus organizing region activity.

Silver staining to demonstrate active nucleolus organizing regions (NORs) was performed at four different stages of the spontaneous tumorigenic progression in vitro of Chinese hamster WCHE/5 cells. The number of active NORs increased for fully transformed, highly tumorigenic, late passage cells. The increase of NOR material was due to additional NOR-bearing chromosomes or chromosome arms, i.e., trisomy 5, trisomy 8, and the marker chromosome i(3q). Intermediate stages of the neoplastic evolution showed changing patterns of NOR activity, but not an overall increase. We postulate that the increase of active rDNA enhances cell growth and provides undefined selective advantage, and that this supports our previous conclusion that selectable karyotype changes provide competitive advantages rather than being essential for neoplastic evolution in vitro.

Characterization of human heterochromatin by in situ hybridization with satellite DNA clones.

Biotinylated DNA from two satellite-related, repetitive DNA clones, pHuR 98 and pHuR 195 (specific for chromosomes 9 and 16, respectively), and from a Y-specific clone, pY-3.4A, were hybridized to human metaphase chromosomes using fluoresceinated avidin to detect binding. The chromosomes were simultaneously counterstained with distamycin-DAPI to identify the AT-rich heterochromatin of chromosomes 1, 9, 15, 16, and the Y chromosome. With this method, clear results were obtained under both normal and low stringency conditions, allowing hybridization between molecules sharing 80-85% and 60-65% identity, respectively. Thus, additional sites related to the probes could be identified. A close relationship was shown between the heterochromatin of chromosomes 1 and 16, both hybridizing with clone pHuR 195 under low stringency. Hybridization with clone pHuR 98 was highly specific for chromosome 9, even under low stringency. A relationship between chromosomes 9, 15, and the Y chromosome, however, was shown by hybridization with clone pY-3.4A. The chromosomal distribution of the three repetitive DNA clones used in this study, and data from the literature, are in accordance with the distribution of the heterochromatin types characterized by staining with different fluorescent dyes and dye combinations. Furthermore, our sequence data for clones pHuR 98 and pHuR 195 may explain the fluorescent properties on which the cytogenetic classification of the heterochromatin is based.

Human chromosome-specific repetitive DNA sequences: novel markers for genetic analysis.

Two recombinant DNA clones that are localized to single human chromosomes were isolated from a human repetitive DNA library. Clone pHuR 98, a variant satellite 3 sequence, specifically hybridizes to chromosome position 9qh. Clone pHuR 195, a variant satellite 2 sequence, specifically hybridizes to chromosome position 16qh. These locations were determined by fluorescent in situ hybridization to metaphase chromosomes, and confirmed by DNA hybridizations to human chromosomes sorted by flow cytometry. Pulsed field gel electrophoresis analysis indicated that both sequences exist in the genome as large DNA blocks. In situ hybridization to intact interphase nuclei showed a well-defined, localized organization for both DNA sequences. The ability to tag specific human autosomal chromosomes, both at metaphase and in interphase nuclei, allows novel molecular cytogenetic analyses in numerous basic research and clinical studies.