Genetic manipulation of Kluyveromyces lactis linear DNA plasmids: gene targeting and plasmid shuffles

Genetic manipulation of yeast linear DNA plasmids, particularly of k1 and k2 from the non-conventional dairy yeast Kluyveromyces lactis, has been advanced by the recent establishment of DNA transformation-mediated one-step gene disruption and allele replacement techniques. These methods provide the basis for a strategy for the functional analysis of plasmid genes and DNA elements. By use of double selection regimens, these single-gene procedures have been extended to effect disruption of individual genes on plasmid k2 and transplacement of a functional copy onto plasmid k1, resulting in the production of yeast strains with an altered plasmid composition. This cytoplasmic gene shuffle system facilitates the introduction of specifically modified alleles into k1 or k2 in order to study the function, expression (from UCS promoters) and regulation of cytoplasmic linear plasmid genes. Additionally, identification, characterization and localization of plasmid gene products of interest are made possible by shuffling GFP-, epitope- or affinity purification-tagged alleles between k2 and k1. The gene shuffle approach can also be used for vector development and heterologous protein expression in order to exploit the biotechnical potential of the K. lactis k1/k2 system in yeast cell factory research.