High-frequency transformation of yeast by plasmids containing the cloned yeast ARG4 gene

Abstract

Hybrid ColE1 plasmids, containing cloned DNA from the yeast [Saccharomyces cerevisiae] ARG4 region [e.g., pYe(arg4)1], transform yeast arg4 mutants to ARG4+ with a frequency of 10-4 (about 103 transformants per .mu.g of plasmid DNA) and can replicate autonomously without integrating into the yeast genome. The yeast transformants are genetically unstable when grown on nonselective medium, but can be readily grown and maintained on minimal medium lacking arginine. The existence of unintegrated replicating plasmid DNA in the yeast transformants was demonstrated by Southern gel hybridization and by transformation of Escherichia coli argH mutants with DNA preparations from yeast transformants and subsequent recovery of intact plasmid DNA from the bacterial transformants. Plasmid DNA recovered from the E. coli-yeast-E. coli shuttle remain essentially unchanged, as judged by DNA restriction fragment patterns. Some plasmid mutations leading to increased efficiency of expression of the ARG4 gene in E. coli do not appear to affect expression of the cloned ARG4 gene in yeast. Appropriate derivatives of these ARG4 plasmids are of potential usefulness as vectors for cloning genes in yeast and for studying the mechanism of yeast DNA replication.