Tandem integration of multiple ILV5 copies and elevated transcription in polyploid yeast.

Abstract

An industrial yeast strain was modified by introducing DNA into brewing yeast such that the derived cells contain only yeast DNA. Thus selectable markers and bacterial sequences are not present in the final strain, making this procedure attractive for the development of generally acceptable brewing yeast. Linear DNA containing the cloned ILV5 gene was introduced into lager yeast along with an unlinked circular bifunctional plasmid containing a dominant resistance marker. Resistant colonies were screened for site-directed integration of the ILV5 DNA. Candidates were examined by several methods including Southern transfer and polymerase chain reaction. In this way, a strain WM56 was identified containing three tandem copies of ILV5. The amplified ILV5 region is stable during repeated subculturing in the absence of selective pressure. Correspondingly elevated levels of ILV5 transcript in strain WM56 compared to the control (i.e. non-tandem) parental strain led to increased amounts of encoded acetohydroxyacid reductoisomerase as evidenced by significantly lower diacetyl production. WM56 appears to be identical to the parental strain judged by CHEF, total restriction digestion patterns, and probing, but differs in the ILV5 region of the chromosome. The method is generally applicable to other yeast strains, and if desired, is amenable to iterated cycles of integration to increase the number of copies.