Optogenetic strategies for the control of gene expression in yeasts.

Optogenetics involves the use of light to control cellular functions and has become increasingly popular in various areas of research, especially in the precise control of gene expression. While this technology is already well established in neurobiology and basic research, its use in bioprocess development is still emerging. Some optogenetic switches have been implemented in yeasts for different purposes, taking advantage of a wide repertoire of biological parts and relatively easy genetic manipulation. In this review, we cover the current strategies used for the construction of yeast strains to be used in optogenetically controlled protein or metabolite production, as well as the operational aspects to be considered for the scale-up of this type of process. Finally, we discuss the main applications of optogenetic switches in yeast systems and highlight the main advantages and challenges of bioprocess development considering future directions for this field.

Hygromycin B-resistance phenotype acquired in Paracoccidioides brasiliensis via plasmid DNA integration.

Yeast cells of the human pathogenic fungus Paracoccidioides brasiliensis strain Pb01 were transformed to hygromycin B resistance using the plasmid pAN7.1. Transformation was achieved by electroporation, with intact or linearized plasmid DNA. The fungus was transformed using 200 mM manitol, 5 or 7 kV/cm field strength, 25 microF capacitance, 400 omega resistance, 5 microg plasmid DNA and 10(7) yeast cells in 400 microl, and selected in BHI medium overlaid with 30 microg/ml hygromycin B (hygB). Mitotic stability was assessed by growing transformants on non-selective BHI medium, followed by plating on hygromycin B (30 microg/ml). Transformants were analyzed by PCR and Southern blotting, confirming the hph gene integration into the transformants genome. A low level of stability of the integrated hph sequence in the transformant genomes was observed, probably because of the multinuclearity of P. brasiliensis yeast cells.