Condensed Protocol for Competent Cell Preparation and Transformation of the Methylotrophic Yeast Pichia Pastoris

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The methylotrophic yeast Pichia pastoris has gained widespread acceptance as a system of choice for heterologous protein expression in part because of the simplicity of techniques required for its molecular genetic manipulation (1). Several different procedures are available for introducing DNA into P. pastoris—spheroplast generation (2), electroporation (3), alkali cation (3,4), or polyethylene glycol (PEG) treatment (5). Here we describe a condensed protocol for cell preparation and transformation that works reliably with either auxotrophic markers or antibiotic selection. The introduction of exogenous DNA into an organism requires two steps: (i) the preparation of competent cells for DNA uptake and (ii) the transformation of the cells with the DNA. Transformation of P. pastoris by electroporation is a quick procedure. However, preparation of conventional electroporation-competent cells requires hours of work involving several washes, incubations, and centrifugations. In contrast, competent cell preparation for the heat-shock method is short, but transformation requires approximately 2 h (4). The heat-shock procedure gives approximately 100-fold lower transformation efficiency than electroporation with plasmids containing auxotrophic marker genes such as HIS4. Additionally, the selection of zeocin-resistant transformants using the heat-shock transformation protocol does not work reliably. We have modified the preparation of competent cells from the heat-shock procedure (5) and combined it with transformation by electroporation (3) to yield a condensed protocol that works consistently with auxotrophic markers or antibiotic selection. The main modification of the heat-shock procedure is the addition of a step in which P. pastoris cells are incubated in an optimized concentration of dithiothreitol (DTT). The cells prepared by this “hybrid” method are then electroCondensed protocol for competent cell preparation and transformation of the methylotrophic yeast Pichia pastoris