v-mos-transformed cells fail to enter quiescence but growth arrest in G1 following serum withdrawal.

The product of the mos protooncogene normally functions in the induction of meiosis and regulation of cell-cycle progression in oocytes. Here we have investigated the cell-cycle progression of NIH3T3 cells transformed by the v-mos gene. Flow cytometric analysis showed that logarithmically growing v-mos-transformed cells do not differ from their nontransformed counterparts in the distribution of cells in the G1, S, and G2/M phases.

Prevalence of infections and use of antibiotics among hospitalized patients in Mauritius. A nationwide survey for the planning of a national infection control programme.

As part of a programme for improving hospital infection control in Mauritius a nationwide survey, including a prevalence study, was carried out in order to identify characteristics of the hospitals, the population, and the infections. Community-acquired infections were three times more prevalent than nosocomial infections: 15.0% and 4.

Characterization of activated and normal mouse Mos gene in murine 3T3 cells.

We have characterized the mouse Mos proto-oncogene product, pp39Mos, in murine fibroblasts. When expressed in NIH3T3 cells under the influence of the long terminal repeat regulatory element from Moloney murine sarcoma virus [NIH(pTS-1) cells], the Mos protein was present in low levels and had a half-life of about 30 min. In extracts from NIH(pTS-1) cells, we detected additional forms of Mos protein that apparently arose from internal initiation codons (p24Mos and p29Mos) or from upstream non-AUG initiation codons (p42Mos and p44Mos).

Progressive hind limb paralysis in mice carrying a v-Mos transgene.

To study the function of the protooncogene Mos in mouse brain development we have created a transgenic mouse model system in which an activated form of the gene, the murine retroviral v-Mos gene, is highly overexpressed in the brain. Six transgenic founder animals and mice of one established transgenic line (line TG66) displayed a progressive hind limb paralysis with onset between 18 days and 9 months. The severity of the neurological phenotype correlated with pathological alterations and the degree of v-Mos expression in the brain which varied between individual animals of line TG66.