Enhanced hydrogen production from xylose and bamboo stalk hydrolysate by overexpression of xylulokinase and xylose isomerase in Klebsiella oxytoca HP1 |
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Authors: | Xiao-Bing Wu Gang-Feng Huang Li-Ping Bai Min-Nan Long Qing-Xi Chen |
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Affiliation: | 1. Key Laboratory of the Ministry of Education for Coastal and Wetland Ecosystems, School of Life Sciences, Xiamen University, Xiamen 361005, PR China;2. School of Energy Research, Xiamen University, Xiamen 361005, PR China |
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Abstract: | Biofuels production from lignocellulose hydrolysates by microbe fermentation has merited attention because of the mild reaction conditions involved and the clean nature of the process. In this work, xylulokinase (XK) and xylose isomerase (XI) were overexpressed in Klebsiella oxytoca HP1 to enhance hydrogen production by the fermentation of xylose. The recombinant strains exhibited higher enzyme activity of XI or XK compared with the wild strain. Hydrogen production from pure xylose, xylose/glucose mixtures and bamboo stalk hydrolysate was significantly enhanced with the overexpression of XI and XK in K. oxytoca HP1 in terms of total hydrogen yield (THY), hydrogen yield per mole substrate (HYPM) and hydrogen production rate (HPR). The HYPM of K. oxytoca HP1/xylB and K. oxytoca HP1/xylA reached 1.93 ± 0.05 and 2.46 ± 0.05 mol H2/mol xylose, respectively in pure xylose, while the value for the wild strain was 1.68 ± 0.04 mol H2/mol xylose. The xylose consumption rate (XCR) for the recombinant strain was significantly higher than that for the wild strain, particularly in the early stage of fermentation. Relative to the wild type, hydrogen yield (HY) from 1 g of preprocessed bamboo powder of HP1/xylB and HP1/xylA increased by 33.04 and 41.31%, respectively. It was concluded that overexpression of XK or XI was able to promote hydrogen production from xylose and xylose/glucose mixtures by simultaneously increasing the utilization efficiency of xylose and weakening the inhibitory effect of glucose on xylose use. In addition, the results indicated that overexpression technology was an effective way to further increase hydrogen production from lignocellulosic hydrolysates. |
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Keywords: | Hydrogen production Overexpression Xylose Klebsiella oxytoca HP1 Lignocellulose |
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