Plasmid associations with residual nuclear structures inSaccharomyces cerevisiae

When S. cerevisiae growing in the presence of glucose (repressive condition) was shifted to higher temperatures, invertase was secreted. This secretion required protein synthesis, but was independent of RNA formation (Mormeneo & Sentandreu 1982). In addition accumulation ofinvertasespecific messenge

The RPS5 gene has been characterised through its ability to reduce invertase production by the SUC5 gene. In this paper we show that RPS5 acts by maintaining low levels of SUC5 m R N A . We also show that R P S 5 acts on the SUC1 and SUC4 genes but not on SUC2 and SUC3, which are members of the S U

The product of the yeast CDC8 gene (thymidylate kinase), which is required for chromosomal, mitochondrial and 2 mu plasmid replication, also participates in plasmid transformation processes in S. cerevisiae. The thermosensitive cdc8-1 mutant strain was transformed with episomal pDQ9 and integrative

## Abstract Currently, there are no specific markers available for the early detection and for monitoring testicular cancer. Based upon an approach that targets nuclear structure, we have identified a set of proteins that are specific for seminomas, which may then have clinical utility for the dise