The relatively small number of differentially expressed
Batimastat concentration genes (total of 92 genes) for the PM in 10% v/v Populus hydrolysate compared to standard medium indicates that the PM strain requires relatively few changes in gene Selleckchem EPZ015666 expression to adapt to the hydrolysate medium (Figure 1). This is not entirely surprising given that the PM was adapted to the hydrolysate during the directed evolution process. Even when the PM strain is placed in 17.5% v/v Populus hydrolysate, significant changes in expression occur in a total of 489 genes, compared to 1040 genes for the WT in 10% v/v Populus hydrolysate (Figure 1). All of the differentially expressed genes are listed in Additional file 4. The symmetry between induced and repressed genes in the standard versus hydrolysate conditions (Figure 1) suggests that
find more a global conservation principle, possibly imposed by finite cellular resources, is involved in the dynamics of the genetic regulatory system [46]. Analysis of the categories with a significant number of differentially expressed genes may provide insight into the differences in these two strains. In response to hydrolysate, the PM upregulates genes related to growth and downregulates genes related to adaptation or survival, whereas the WT upregulates genes related to survival and downregulates growth genes. In summary, the hydrolysate initiates a stress-link response in the WT, but not in the PM. Only one category of genes is similarly regulated between the two strains. Upregulated genes in the PM in hydrolysate media The genes that are significantly upregulated by the PM in hydrolysate conditions before belong to energy production and conversion, amino acid transport and metabolism, inorganic ion transport and metabolism, and general transport and secretion (Figure 1). The PM increased
the expression of five energy production and conversion genes in 10% v/v Populus hydrolysate, which represents a significant increase in expression within this category as determined by the odds ratio. The PM also increased the expression of 12 genes in this category in 17.5% v/v Populus hydrolysate; however, this increase was not significant due to the larger overall number of changes in gene expression. Specific differentially expressed genes related to the central metabolism can be seen in Table 3. Similarly, C. acetobutylicum upregulated genes related to energy production and metabolism in acetate and butyrate stress [13]. An NADPH-dependant alcohol dehydrogenase (ADH6p) was identified as one of the enzymes responsible for HMF and furfural reduction in S. cerevisiae. Furthermore, mutants with gene deletions along the pentose phosphate pathway (PPP) exhibited growth deficiency in the presence of furfural indicating that S. cerevisiae tolerance to furfural was associated with the activity of PPP. The increased expression in PPP genes in the PM strain in hydrolysate might assist in protecting against and repairing furfural induced damage [47].