反应 #470404
ord-7dfc20e410c4461792a3ef6bd70e3bcb
反应方程式
溶剂
反应条件
后处理
- 1其他xylose consumption, ethanol concentration and product
- 2其他yields after 117 hours of fermentation
- 3其他The reference strain Y-PsNative consumed 30.4 g l−1 xylose
- 4其他produced 16.7 g l−1 ethanol
- 5其他while Y-PsK270R consumed 46.1 g l−1 xylose
- 6其他produced 25.3 g l−1 ethanol
- 7其他Y-PsK270M consumed the least xylose (16.8 g l−1)
- 8其他produced
- 9浓缩the lowest ethanol concentration (14.1 g l−1) of the three strains
- 10其他The reference strain Y-PsNative produced an ethanol yield of 0.33 g ethanol
- 11其他g consumed sugars−1
- 12其他a xylitol yield of 0.26 g xylitol g consumed xylose−1
- 13其他Both strains with mutated XR produced higher ethanol
实验过程
Strains Y-PsNative, Y-PsK270M and Y-PsK270R (cf example 4) were compared in anaerobic batch fermentation with 20 g l−1 glucose and 50 g l−1 xylose (FIG. 3). Table 6 summarizes xylose consumption, ethanol concentration and product yields after 117 hours of fermentation. The reference strain Y-PsNative consumed 30.4 g l−1 xylose and produced 16.7 g l−1 ethanol while Y-PsK270R consumed 46.1 g l−1 xylose and produced 25.3 g l−1 ethanol. Y-PsK270M consumed the least xylose (16.8 g l−1) and produced the lowest ethanol concentration (14.1 g l−1) of the three strains. The reference strain Y-PsNative produced an ethanol yield of 0.33 g ethanol g consumed sugars−1 and a xylitol yield of 0.26 g xylitol g consumed xylose−1. Both strains with mutated XR produced higher ethanol yields (0.38 g ethanol (g consumed sugars)−1) and significantly lower xylitol yields (0.09 g xylitol (g consumed xylose)−1) than the reference strain. In addition, Y-PsK270R grew and produced biomass anaerobically from xylose after glucose depletion (FIG. 4). Y-PsK270R had produced 3.4 g l−1 biomass after 117 hours of fermentation while both Y-PsNative and Y-PsK270M produced 2.1 g l−1 biomass.