Transforming Candida hispaniensis, a promising oleaginous and flavogenic yeast.

Abstract

Candida hispaniensis is an oleaginous yeast with a great potential for production of single cell oil according to its naturally high lipid accumulation capacity. Its unusual small genome size trait is also attractive for fundamental research on genome evolution. Our physiological study suggests a great potential for lipid production, reaching 224 mg/g of cell dry weight in glucose minimum medium. C. hispaniensis is also able to secrete up to 34.6 mg/L of riboflavin promising further riboflavin production improvements by cultivation optimization and genetic engineering. However, while its genome sequence has been released very recently, no genetic tools have been described up to now for this yeast limiting its use for fundamental research and for exploitation in an industrial biotechnology. We report here the first genetic modification of C. hispaniensis by introducing a heterologous invertase allowing the growth on sucrose using a biolistic transformation approach using a dedicated vector. The first genetic tool and transformation method developed here appear as a proof of concept, and while it would benefit from further optimization, heterogeneous expression of invertase allows for metabolism of an additional sugar and shows heterologous enzyme production capacity.