Biosynthesis of fuel-grade ethanol from cellobiose by a cell-factory of non-GMO Saccharomyces cerevisiae/starch-gel-cellulase

Abstract

The aim of this work was to ferment cellobiose to fuel-grade ethanol in one-step bioconversion employing a cell-factory (CF) of non-Genetically Modified Organism (non-GMO) Saccharomyces cerevisiae. The proposed technology involved the production of a freeze-dried preparation of CF of non-GMO S. cerevisiae covered by a layer of starch-gel (SG) containing cellulase enzyme. Parameters studied for one-step bioconversion of cellobiose to ethanol included temperature (33–40 °C), cellobiose concentration (70–150 g/L), and cellulase activity (60–150 FPU/g). High conversion (90%) of cellobiose in a 48 h one-step process was achieved using 70 g/L cellobiose, 150 FPU/g at 30 °C, indicating the efficiency of CF. S. cerevisiae in CF were also capable to ferment at 40 °C with the major role of enzyme activity and cellobiose concentration in fermentation. In our studies, the ethanol yield and conversion of cellobiose were found competitive, with other processes reported with S. cerevisiae as GMO and enzyme co-immobilized in alginates beads. Consequently, the results revealed a new concept for bio-ethanol production from cellobiose in one-step simultaneous-hydrolysis-fermentation (OSHF), which could be a precursor study for large-scale cellulose bioconversion for fuel-grade alcohol production.