A truncated derivative of nmt 1 promoter exhibits temperature-dependent induction of gene expression in Schizosaccharomyces pombe

An improved tetracycline-inducible expression system for fission yeast

The ability to manipulate gene expression is valuable for elucidating gene function. In the fission yeast Schizosaccharomyces pombe, the most widely used regulatable expression system is the nmt1 promoter and its two attenuated variants. However, these promoters have limitations, including a long lag, incompatibility with rich media and unsuitability for non-dividing cells. Here, we present a tetracycline-inducible system free of these shortcomings. Our system features the enotetS promoter, which achieves a similar induced level and a higher induction ratio compared to the nmt1 promoter, without exhibiting a lag. Additionally, our system includes four weakened enotetS variants, offering an expression range similar to that of the nmt1 series promoters but with more intermediate levels. To enhance usability, each promoter is combined with a Tet-repressor-expressing cassette in an integration plasmid. Importantly, our system can be used in non-dividing cells, enabling the development of a synchronous meiosis induction method with high spore viability. Moreover, our system allows for the shutdown of gene expression and the generation of conditional loss-of-function mutants. This system provides a versatile and powerful tool for manipulating gene expression in fission yeast.

An estradiol-inducible promoter enables fast, graduated control of gene expression in fission yeast

The fission yeast Schizosaccharomyces pombe lacks a diverse toolkit of inducible promoters for experimental manipulation. Available inducible promoters suffer from slow induction kinetics, limited control of expression levels and/or a requirement for defined growth medium. In particular, no S. pombe inducible promoter systems exhibit a linear dose-response, which would allow expression to be tuned to specific levels. We have adapted a fast, orthogonal promoter system with a large dynamic range and a linear dose response, based on β-estradiol-regulated function of the human oestrogen receptor, for use in S. pombe. We show that this promoter system, termed Z₃ EV, turns on quickly, can reach a maximal induction of 20-fold, and exhibits a linear dose response over its entire induction range, with few off-target effects. We demonstrate the utility of this system by regulating the mitotic inhibitor Wee1 to create a strain in which cell size is regulated by β-estradiol concentration. This promoter system will be of great utility for experimentally regulating gene expression in fission yeast. Copyright © 2017 John Wiley & Sons, Ltd.

pREPORT: a multi-readout transcription reporter vector for fission yeast

Transcription factors are prominent regulators of gene expression that execute responses to various intracellular and extracellular stimuli. Recombinant transcription reporter systems can be conveniently used to study the DNA binding preferences and regulatory activity of a transcription factor under a range of conditions. Several reporter genes have been used to study transcription regulation in the fission yeast Schizosaccharomyces pombe. Each of these reporters has distinct advantages, such as high sensitivity or ease of use, and limitations, such as prohibitive costs or use of hazardous substances. To combine the strengths and mitigate the weaknesses of individual reporter genes, we have created pREPORT, a flexible multi-readout transcription reporter vector for fission yeast that employs an enhanced GFP-lacZ fusion and a customizable minimal promoter. With pREPORT, gene expression driven by the transcription factor of interest can be quantified in a number of ways, both in live cells and in vitro, using a single reporter construct.

A new versatile system for rapid control of gene expression in the fission yeast Schizosaccharomyces pombe

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.

A thiamine-regulatable epitope-tagged protein expression system in fission yeast

Schizosaccharomyces pombe, the fission yeast, has been a popular and useful model system for investigating the mechanisms of biological processes for a long time. To facilitate purification, localization, and functional analysis of gene products, a wide range of expression vectors have been developed. Several of these vectors utilize the inducible/repressible promoter systems and enable the episomal expression of proteins as fusion proteins with epitope tags attached to their N terminus or C terminus.This chapter provides a detailed protocol for expression of the epitope-tagged proteins from thiamine-regulatable nmt promoter in fission yeast. The yeast culture conditions and procedures for yeast transformation, expression induction, preparation of whole-cell extracts, and analysis of epitope-tagged protein expression by Western blotting are described.

Tools used to study how protein complexes are assembled in signaling cascades

Most proteins do not function on their own but as part of large signaling complexes that are arranged in every living cell in response to specific environmental cues. Proteins interact with each other either constitutively or transiently and do so with different affinity. When identifying the role played by a protein inside a cell, it is essential to define its particular cohort of binding partners so that the researcher can predict what signaling pathways the protein is engaged in. Once identified and confirmed, the information might allow the interaction to be manipulated by pharmacological inhibitors to help fight disease. In this review, we discuss protein-protein interactions and how they are essential to propagate signals in signaling pathways. We examine some of the high-throughput screening methods and focus on the methods used to confirm specific protein-protein interactions including; affinity tagging, co-immunoprecipitation, peptide array technology and fluorescence microscopy.

A chemical compound for controlled expression of nmt1-driven gene in the fission yeast Schizosaccharomyces pombe

The fission yeast Schizosaccharomyces pombe is a useful model organism for studying a variety of eukaryotic cellular events such as the cell cycle control mechanisms. For inducible expression of exogenous genes in S. pombe, vectors carrying the nmt1 (no message in thiamine 1) promoter are most commonly used. Although nmt1 is a potent promoter, its transcription activity is drastically repressed in the presence of a low concentration of thiamine. Therefore, a combination of thiamine and nmt1 promoter is convenient for regulating gene expression in an all-or-none fashion. However, it has been difficult to adjust the nmt1 promoter activity in a controlled manner. Here we describe a chemical compound, designated as YAM2, whose repressive activity on the nmt1 promoter has a wider linear range than thiamine. Expression of exogenous proteins, such as human immunodeficiency virus type 1 Vpr and jellyfish green fluorescent protein, driven by the nmt1 promoter is gradually repressed by YAM2 in a dose-dependent manner. YAM2 does not exhibit a detectable level of cytotoxicity at a concentration required to fully repress the nmt1 promoter. The compound may serve as a useful tool for controlled expression of the nmt1-driven gene in S. pombe.

urg1: a uracil-regulatable promoter system for fission yeast with short induction and repression times

Background

The fission yeast Schizosaccharomyces pombe is a popular genetic model organism with powerful experimental tools. The thiamine-regulatable nmt1 promoter and derivatives, which take >15 hours for full induction, are most commonly used for controlled expression of ectopic genes. Given the short cell cycle of fission yeast, however, a promoter system that can be rapidly regulated, similar to the GAL system for budding yeast, would provide a key advantage for many experiments.

Methodology/Principal Findings

We used S. pombe microarrays to identify three neighbouring genes (urg1, urg2, and urg3) whose transcript levels rapidly and strongly increased in response to uracil, a condition which otherwise had little effect on global gene expression. We cloned the promoter of urg1 (uracil-regulatable gene) to create several PCR-based gene targeting modules for replacing native promoters with the urg1 promoter (Purg1) in the normal chromosomal locations of genes of interest. The kanMX6 and natMX6 markers allow selection under urg1 induced and repressed conditions, respectively. Some modules also allow N-terminal tagging of gene products placed under urg1 control. Using pom1 as a proof-of-principle, we observed a maximal increase of Purg1-pom1 transcripts after uracil addition within less than 30 minutes, and a similarly rapid decrease after uracil removal. The induced and repressed transcriptional states remained stable over 24-hour periods. RT-PCR comparisons showed that both induced and repressed Purg1-pom1 transcript levels were lower than corresponding P3nmt1-pom1 levels (wild-type nmt1 promoter) but higher than P81nmt1-pom1 levels (weak nmt1 derivative).

Conclusions/Significance

We exploited the urg1 promoter system to rapidly induce pom1 expression at defined cell-cycle stages, showing that ectopic pom1 expression leads to cell branching in G2-phase but much less so in G1-phase. The high temporal resolution provided by the urg1 promoter should facilitate experimental design and improve the genetic toolbox for the fission yeast community.

Elucidating biosynthetic pathways for vitamins and cofactors

The elucidation of the pathways to the water-soluble vitamins and cofactors has provided many biochemical and chemical challenges. This is a reflection both of their complex chemical nature, and the fact that they are often made in small amounts, making detection of the enzyme activities and intermediates difficult. Here we present an orthogonal review of how these challenges have been overcome using a combination of methods, which are often ingenious. We make particular reference to some recent developments in the study of biotin, pantothenate, folate, pyridoxol, cobalamin, thiamine, riboflavin and molybdopterin biosynthesis.

Recombineering reagents for improved inducible expression and selection marker re-use in Schizosaccharomyces pombe

The fission yeast Schizosaccharomyces pombe is an excellent model organism for cell biology. However, its genetic toolbox is less developed than that of Saccharomyces cerevisiae. In the first part of this study we describe an improved inducible expression vector based on tetracycline regulation of the CaMV35S promoter, which is also capable of chromosomal integration and therefore works in minimal and in rich media. We found that anhydrotetracycline is a superior ligand for induction. Maximum expression levels were observed after 12 h in minimal media (EMM) and after 9 h in rich media (YES), which is faster than the nmt1 promoter system. The system was combined with a convenient recombineering-based subcloning strategy for ease of cloning. In the second part we present four template plasmids, pSVEM-bsd, pSVEM-nat, pSVEM-kan and pSVEM-hph, which harbour four recyclable disruption cassettes based on the Cre recombinase lox71/66 strategy for use in PCR targeting methods. Cre-mediated excision leaves a non-functional mutant lox site in the genome, allowing the reiterative usage of these cassettes for multiple targetings. These cassettes are also configured with dual eukaryotic/prokaryotic promoters so that they can be used for recombineering in E. coli. Amongst other purposes, this permits the rapid and convenient creation of targeting constructs with much longer homology arms for difficult and complex targetings in the Sz. pombe genome.