A genetic approach to the biogenesis of peroxisomes in the yeast Saccharomyces cerevisiae

The cell wall of the yeast Saccharomyces cerevisiae is a tough, rigid structure, which presents a sig- nificant barrier to the release of native or recombinant proteins from this biotechnologically important organism. There is hence a need to develop inexpensive and efficient methods of lysing yeast

In fungi, cell shape is determined by the presence of a rigid cell wall which separates the cell from the extracellular medium. This highly dynamic structure is essential for the maintenance of cell integrity and is involved in several phenomena such as flocculation, adherence and pathogenicity. The

## Abstract Glucose repression in the yeast __Saccharomyces cerevisiae__ has evolved as a complex regulatory system involving several different pathways. There are two main pathways involved in signal transduction. One has a role in glucose sensing and regulation of glucose transport, while another

Mter a short introduction on the historical background of the development of Saccharomyces cere&iae as a model eukaryote, a review is given on the present state of genetics and molecular biology of copper resistance in 5. cereviaiae. The gene CUPl encodes a protein (copper metallothionein) of a mole

## Abstract **BACKGROUND:** Under appropriate conditions, __Saccharomyces cerevisiae__ and __Penicillium chrysogenum__ were found to co‐immobilize spontaneously with no need for external support or chemical binder. The main aims were to examine the interaction between yeast cells and fungal hyphae