Co-fermentation of glucose and xylose is critical for cellulosic ethanol, as xylose is the second most abundant sugar in lignocellulosic hydrolysate. In this study, a xylose-utilizing recombinant Zymomonas mobilis TSH01 was constructed by gene cloning, and ethanol fermentation of the recombinant was evaluated under batch fermentation conditions with a fermentation time of 72 h. When the medium containing 8% glucose or xylose, was tested, all glucose and 98.9% xylose were consumed, with 87.8% and 78.3% ethanol yield, respectively. Furthermore, the medium containing glucose and xylose, each at a concentration of 8%, was tested, and 98.5% and 97.4% of glucose and xylose was fermented, with an ethanol yield of 94.9%. As for the hydrolysate of corn stover containing 3.2% glucose and 3.5% xylose, all glucose and 92.3% xylose were consumed, with an ethanol yield of 91.5%. In addition, monopotassium phosphate can facilitate the consumption of xylose and enhance ethanol yield.