Abstract: The invention relates to an improved Saccharomyces strain displaying improved viability and growth during anaerobic fermentation of pentose carbon sources such as xylose and producing fermentation products such as ethanol.

Abstract: The present invention relates to an ethanol producing microbial strain, such as Saccharomyces cerevisiae strain, being able to grow and produce ethanol from lignocellulosic hydrolysates comprising growth inhibiting compounds of the group furfural and 5-hydroxy-methyl furfural, in a batch, fed-batch or continuous fermentation, said microbial strain being tolerant to such inhibiting compounds, which strain is upregulated and/or over expressed with regard to one or more of the following genes: LAT1, ALD6, ADH5, ADH6, GDH3, OYE3, SER3, GND2, MDH2, IDP3, ADH7, AAD15, ERG27, HMG1, LYS5, SPS19, SGE1.

Abstract: The present invention relates to an ethanol producing microbial strain, such as Saccharomyces cerevisiae strain, being able to grow and produce ethanol from lignocellulosic hydrolysates comprising growth inhibiting compounds of the group furfural and 5-hydroxy-methyl furfural, in a batch, fed-batch or continuous fermentation, said microbial strain being tolerant to such inhibiting compounds, which strain is upregulated and/or over expressed with regard to one or more of the following genes: LAT1, ALD6, ADH5, ADH6, GDH3, OYE3, SER3, GND2, MDH2, IDP3, ADH7, AAD15, ERG27, HMG1, LYS5, SPS19, SGE1.

Abstract: A S. cerevisiae strain expressing both arabinose and xylose utilization pathways, and in particular to a S. cerevisiae strain fermenting both arabinose and xylose to ethanol, and more particularly a S. cerevisiae strain with overexpression or upregulation of xylose- or aldose reductase (XR, AR) with xylitol dehydrogenase (XDH) together with overexpression or upregulation of genes forming an arabinose utilization pathway. The invention encompasses both laboratory and industrial strain having these properties.

Abstract: The invention relates to an improved Saccharomyces strain displaying improved viability and growth during anaerobic fermentation of pentose carbon sources such as xylose and producing fermentation products such as ethanol.

Abstract: The present invention relates to a S. cerevisiae strain expressing both arabinose and xylose utilization pathways, and in particular to a S. cerevisiae strain fermenting both arabinose and xylose to ethanol, and more particularly a S. cerevisiae strain with overexpression or upregulation of xylose- or aldose reductase (XR, AR) with xylitol dehydrogenase (XDH) together with overexpression or upregulation of genes forming an arabinose utilization pathway. The invention encompasses both laboratory and industrial strain having these properties.

Abstract: The present invention relates to an ethanol producing microbial strain, such as Saccharomyces cerevisiae strain, being able to grow and produce ethanol from lignocellulosic hydrolysates comprising growth inhibiting compounds of the group furfural and 5-hydroxy-methyl furfural, in a batch, fed-batch or continuous fermentation, said microbial strain being tolerant to such inhibiting compounds, which strain is upregulated and/or over expressed with regard to one or more of the following genes: LAT1, ALD6, ADH5, ADH6, GDH3, OYE3, SER3, GND2, MDH2, IDP3, ADH7, AAD15, ERG27, HMG1, LYS5, SPS19, SGE1.

Abstract: The present invention relates to an ethanol producing microbial strain, such as Saccharomyces cerevisiae strain, being able to grow and produce ethanol from lignocellulosic hydrolysates comprising growth inhibiting compounds of the group furfural and 5-hydroxy-methyl furfural, in a batch, fed-batch or continuous fermentation, said microbial strain being tolerant to such inhibiting compounds, which strain is upregulated and/or over expressed with regard to one or more of the following genes: LAT1, ALD6, ADH5, ADH6, GDH3, OYE3, SER3, GND2, MDH2, IDP3, ADH7, AAD15, ERG27, HMG1, LYS5, SPS19, SGE1.

Abstract: The present invention relates to a new xylose utilizing Saccharomyces cerevisiae strain being able to utilize xylose for ethanol production which strain is up-regulated with regard to the genes for xylose reductase (XR) and xylulose dehydrogenase (XDH) as well as xululokinase (XK) and over-expressing the non-oxidative pentose phosphate pathway (PPP) and comprising a deletion of the gene GRE3 deletion, as well as the strain has been adapted to xylose feeding.

Abstract: New xylose-utilizing Saccharomyces cerevisiae mutant strain which ferments xylose to ethanol, wherein the strain expresses a K270M mutated P. stipitis XYL1 gene (1 or 2 copies of the mutated gene) together with the native P. stipitis XYL2 gene and overexpresses the endogenous XKS1 gene.

Abstract: The invention relates to new eukaryotic strains, preferably yeast strains, having the new fil phenotype, i.e. having the unexpected property of conserving good stress resistance in fermentation and/or growth phase, while conserving normal respiratory and fermentation metabolism on fermentable sugars such as glucose.