The ability to regulate the expression of a gene greatly aids the process of uncovering its functions. The fission yeast Schizosaccharomyces pombe has so far lacked a system for rapidly controlling the expression of chromosomal genes, hindering its full potential as a model organism. Although the widely used nmt1 promoter displays a wide dynamic range of activity, it takes > 14-15 h to derepress. The urg1 promoter also shows a large dynamic range and can be induced quickly (< 2 h), but its implementation requires laborious strain construction and it cannot be used to study meiosis. To overcome these limitations, we constructed a tetracycline-regulated system for inducible expression of chromosomal genes in fission yeast, which is easily established and implemented. In this system the promoter of a gene is replaced by simple one-step substitution techniques with a tetracycline-regulated promoter cassette (tetO(7) -TATA(CYC1) ) in cells where TetR/TetR'-based transcription activators/repressors are also produced. Using top1 and nse6 as reporter genes, we show that Top1 and Nse6 appear after just 30 min of activating tetO(7) -TATA(CYC1) and plateau after -4-6 h. The amount of synthesised protein is comparable to that produced from the attenuated nmt1 promoter P(nmt8) , which should be closer to wild-type levels for most genes than those generated from excessively strong promoters and can be controlled by changing the concentration of the effector antibiotic. This system also works efficiently during meiosis, thus making it a useful addition to the toolkit of the fission yeast community.
2012 John Wiley & Sons, Ltd