The yeast Candida utilis (also referred to as Torula) is used as a whole-cell food additive and as a recombinant host for production of intracellular molecules. Here, we report recombinant C. utilis strains secreting significant amounts of Candida antarctica lipase B (CalB). Native and heterologous secretion signals led to secretion of CalB into the growth medium; CalB was enzymatically active and it carried a short N-glycosyl chain lacking extensive mannosylation. Furthermore, CalB fusions to the C. utilis Gas1 cell wall protein led to effective surface display of enzymatically active CalB and of β-galactosidase. Secretory production in C. utilis was achieved using a novel set of expression vectors containing sat1 conferring nourseothricin resistance, which could be transformed into C. utilis, Pichia jadinii, Candida albicans, and Saccharomyces cerevisiae; C. utilis promoters including the constitutive TDH3 and the highly xylose-inducible GXS1 promoters allowed efficient gene expression. These results establish C. utilis as a promising host for the secretory production of proteins.
The fodder yeast Candida utilis is able to use xylose mono- and oligomers as sources of carbon but not the abundant polymer xylan. C. utilis transformants producing the Penicillium simplicissimum xylanase XynA were constructed using expression vectors encoding fusions of the Saccharomyces cerevisiae Mfα1 pre-pro secretion leader to XynA. The Mfα1-XynA fusion was efficiently processed in transformants and XynA was secreted almost quantitatively into the culture medium. Secreted XynA was enzymatically active and allowed transformants to grow on xylan as the sole carbon source. Addition of a second expression unit for the heterologous green fluorescent protein (GFP) generated C. utilis transformants, which showed intracellular GFP fluorescence during growth on xylan. The results suggest that xylanase-producing C. utilis is suited as a cost-effective host organism for heterologous protein production and for other biotechnical applications.
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