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Construction and characterization of a zinc-inducible gene expression vector in fission yeast

Gene expression vectors are useful and important tools that are commonly used in a variety of experiments, including expression of foreign genes, functional analysis of genes of interest and complementation experiments. In this study, a hybrid promoter, combining the adh1⁺ upstream activating sequence (UAS) of fission yeast and the GAL10 core promoter of budding yeast, was constructed to enable high level expression depending on the presence of zinc in culture medium for fission yeast. When the hybrid promoter was cloned on the multicopy plasmid, it was fully induced and repressed within 10 h in the presence and absence of zinc, respectively. The kinetics of induction and reduction were similar to those of the endogenous adh1⁺ mRNA. In contrast, native adh1⁺ promoter lost its tight repression in zinc-depleted condition when it was cloned on the plasmid. Because adh1⁺ UAS-specific transcription factors have not yet been identified, we identified UAS elements involved in zinc sensing by characterizing this hybrid promoter. We also found that the expression level increased by the TATA box mutation, GATAA, in the presence of zinc.

Yeast Gal4: a transcriptional paradigm revisited

During the past two decades, the yeast Gal4 protein has been used as a model for studying transcriptional activation in eukaryotes. Many of the properties of transcriptional regulation first demonstrated for Gal4 have since been shown to be reiterated in the function of several other eukaryotic transcriptional regulators. Technological advances based on the transcriptional properties of this factor--such as the two-hybrid technology and Gal4-inducible systems for controlled gene expression--have had far-reaching influences in fields beyond transcription. In this review, we provide an updated account of Gal4 function, including data from new technologies that have been recently applied to the study of the GAL network.