The control of transcription in 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

## Abstract p53 is a sequence‐specific DNA‐binding transcription factor and key regulator of cell cycle arrest and apoptosis. p53 is mutated in most human cancers and these mutations generally impair its ability to activate transcription. When expressed in __Saccharomyces cerevisiae__, p53 acts as

## Abstract Transcription factor Stb5p, previously known as one of the multidrug resistance gene regulators in __Saccharomyces cerevisiae__, was shown here to play an essential role in acetaldehyde tolerance. A mutant strain, __Δstb5__ exhibited increased acetaldehyde sensitivity, and failed to ind

## Abstract A comparison of amino acid sequences of yeast Rer2p and Srt1p Z‐prenyltransferases shows that the spatial organization of their substrate tunnels agrees with that determined by X‐ray for the __E. coli__ undecaprenyl diphosphate synthase (UPPs). The observed trend in the maxima of produc