The methylotrophic yeast, Pichia pastoris, is widely used as a host organism for the expression of heterologous proteins. Currently, the Zeocin and blasticidin resistance genes are the only dominant selectable markers that can be used for primary selection of transformants. In this report we describe new expression vectors that can be used to select directly for P. pastoris transformants using G418 resistance conferred by a modified Tn903kan r gene. Compared to other dominant markers, this system is more economical and offers a higher transformation efficiency, due to the small sizes of the cloning vectors, pKAN B and pKANα B (GenBank Accession Nos EU285585 and EU285586, respectively). Additionally, multicopy transformants can be generated using these new vectors.
We describe the isolation and characterization of a new biosynthetic gene, MET2, from the methylotrophic yeast Pichia pastoris. The predicted product of PpMET2 is significantly similar to its Saccharomyces cerevisiae counterpart, ScMET2, which encodes homoserine-O-transacetylase. The ScMET2 was able to complement the P. pastoris met2 strain; however, the converse was not true. Expression vectors based on PpMET2 for the intracellular and secreted production of foreign proteins and corresponding auxotrophic strains were constructed and tested for use in heterologous expression. The expression vectors and corresponding strains provide greater flexibility when using P. pastoris for recombinant protein expression.
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