Kjeld Olesen

The pYC plasmids, a series of cassette-based yeast plasmid vectors providing means of counter-selection.

A series of 24 general‐purpose yeast plasmid vectors has been constructed. The plasmid series is composed of inter‐replaceable cassettes, allowing for easy interconversion of plasmid types. In addition to the usual replication origins, selectable markers and multiple cloning sites (MCS), cassettes dedicated to counter‐selection have been constructed. A pair of unique 8 bp restriction enzyme recognition sites flank each type of cassette, FseI in the case of yeast replication origins, AscI in the case of selectable markers, PacI in the case of counter‐selectable markers and NotI in the case of the MCS. Thus, any given cassette can be replaced by another cassette of the same type, facilitating interconversion of any given plasmid from one type to another, even after the insertion of DNA into the MCS. Hence, the plasmids have been named pYC for ‘yeast cassettes’. The cassettes consist of either NONE, CEN4/ARS or 2µ as replication origin, either URA3, MET2–CA (Lg–MET2) or the G418 resistance gene (the apt1 gene from bacterial transposon Tn903, encoding aminoglycoside phosphotransferase) as selectable markers, either NONE, PMET25–PKA3 or PCHA1–PKA3 as counter‐selectable marker, and the MCS, containing recognition sites for AflII, AvrII, BspEI, PmeI, SacII, SalI, SunI, BamHI, EcoRI, HindIII, KpnI, MluI, NarI and SacI (of which the seven first are unique in all plasmids). The counter‐selectable markers consist of the PKA3 gene under control of the conditional MET25 or CHA1 promoters. At activating conditions these promoters express the PKA3 gene at toxic levels, facilitating easy selection for loss of plasmid or ‘loop‐out’ of plasmid DNA sequence after genomic integration. Copyright

Further development of the cassette-based pYC plasmid system by incorporation of the dominant hph, nat and AUR1-C gene markers and the lacZ reporter system

Dominant selection markers encoding hygromycin B phosphotransferase (hph), nourseothricin N-acetyltransferase (nat) and a mutant inositol phosphoceramide synthase (AUR1-C) were all incorporated into the pYC yeast plasmid vector system, thus expanding this system with possible alternatives to the use of G418 resistance. We found the markers to be of use not only in standard laboratory strains of Saccharomyces cerevisiae but also in an industrial strain of S. carlsbergensis (syn. of S. pastorianus) brewing yeast as well as in Saccharomyces kluyveri. As the pYC system contains means of counter-selection for plasmid loss and loop-out of integrated plasmids, it now provides ample opportunities for genetic manipulation of industrial and non-conventional yeasts when the URA3 marker and FOA counter-selection is not an option. Furthermore, the lacZ system for analyzing gene expression was included in the system.