Gonzalez-Ramos D~Daran JM, 2013

Pubmed ID 23552365
Title Genome-scale analyses of butanol tolerance in Saccharomyces cerevisiae reveal an essential role of protein degradation.
Authors Daniel González-Ramos, Marcel van den Broek, Antonius Ja van Maris, Jack T Pronk, Jean-Marc G Daran
Abstract n-Butanol and isobutanol produced from biomass-derived sugars are promising renewable transport fuels and solvents. Saccharomyces cerevisiae has been engineered for butanol production, but its high butanol sensitivity poses an upper limit to product titers that can be reached by further pathway engineering. A better understanding of the molecular basis of butanol stress and tolerance of S. cerevisiae is important for achieving improved tolerance.
Citation Biotechnol Biofuels 2013; 6:48


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Paper Phenotype Condition Medium Collection Tested mutants Data Details
Gonzalez-Ramos D~Daran JM, 2013 growth (culture turbidity) butan-1-ol [1% v/v] synthetic mineral media (urea) hap a 4,772 Quantitative

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