Genetic engineering of a sake yeast producing no urea by successive disruption of arginase gene

Abstract

Urea is reported to be a main precursor of ethyl carbamate (ECA), which is suspected to be a carcinogen, in wine and sake. In order to minimize production of urea, arginase-deficient mutants (delta car1/delta car1) were constructed from a diploid sake yeast, Kyokai no. 9, by successive disruption of the two copies of the CAR1 gene. First, the yeast strain was transformed with plasmid pCAT2 (delta car1 SMR1), and strains heterozygous for CAR1 gene were isolated on sulfometuron methyl plates. Successively, the other CAR1 gene was disrupted by transformation with plasmid pCAT1 (delta car1 G418r) and the resulting car1 mutants were isolated on a G418 plate. Arginase assay of the total cell lysate of the mutants showed that 70% of transformants isolated on G418 plates had no detectable enzyme activity, possibly as a result of the disruption of the two copies of the CAR1 gene. Further genomic Southern analysis confirmed this result. We could brew sake containing no urea with the delta car1/delta car1 homozygous mutant. It is of additional interest that no ECA was detected in the resulting sake, even after storage for 5 months at 30 degrees C. This molecular biological study suggests that ECA in sake originates mainly from urea that is produced by the arginase.