Construction of Stable T7 Expression System in Saccharomyces cerevisiae by Improving Nuclear Membrane Permeability with Viroporin HIV-1 Vpu

T7 expression system (T7 RNA polymerase / T7 promoter), derived from T7 bacteriophage, is one of the most extensively used protein expression systems, which is also an enabling tool in synthetic biology. However, in eukaryote, most of T7 expression system is transient expression system. This is mainly due to the absence of post-transcriptional processing of mRNAs transcribed by T7RNAP in eukaryotic cells, so they cannot effectively pass through nuclear membrane and enter cytoplasm. In this study, Saccharomyces cerevisiae was selected as host to construct stable T7 expression system, in which HIV-1 viroporin (Vpu) was used to improve the permeability of nuclear membrane. Results of NanoLuc® (Nluc) luciferase expression indicated that Vpu could effectively promote the transport of T7 transcripts and increase the amount of protein synthesized. The method of using viroporin to improve permeability of the nuclear membrane provides an effective tool for constructing a stable T7 expression system in eukaryote.