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Modern genetic approaches to bust yeast tolerance to lignocellulosic hydrolysates

(Saccharomyces cerevisae)

New advances in adaptive evolution protocols, QTL mapping, and CRISPR/Cas9 technologies are proposed to enhance yeast tolerance to lignocellulosic hydrolysates. Learn more...

Metabolic and evolutionary engineering approaches for production of D-Lactic Acid (Saccharomyces cerevisiae)

Here we intend to engineer S. cerevisiae for the production of D-Lactic acid, a promising renewable material for production of bio-friendly plastics. Learn more...

Welcome to our lab!

Genomics and Experimental Evolution of Yeasts

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CLO and SEX populations at the beginning of the experiment

CLO1: 2763,6 generations; 8,5% EtOH

CLO2: 2755,2 generations; 10 % EtOH

CLO3: 2654,4 generations; 8,5% EtOH

SEX1: 2788,8 generations; 10% EtOH

SEX2: 2721,6 generations; 10% EtOH

SEX3: 2738,4 generations; 10% EtOH

Final results (Jul 11, 2016)

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