木糖醇
阿拉伯糖醇
生物化学
代谢工程
发酵
生物生产
代谢途径
化学
脱氢酶
产量(工程)
己糖激酶
生物合成
NAD+激酶
生物
酶
酵母
锡尔图因
酿酒酵母
作者
Bingbing Liu,Lin Jiang,Lvyang Lin,Wulong Yang,Mian Li,Y. S. Lin,Yiqi Jiang,Zehua Bao,Mianbin Wu
标识
DOI:10.1021/acs.jafc.5c15127
摘要
Xylitol is industrially synthesized by d-xylose, which is more expensive than glucose. However, de novo xylitol biosynthesis from glucose remains challenging in Escherichia coli. To address these challenges, this study first developed a biosynthetic pathway from glucose via an arabitol intermediate with arabitol phosphate dehydrogenase (APDH). Chassis optimization through knocking out key genes (rpiA/B, pgi, tktA, tktB, xylB) enhanced flux and increased arabitol yield to 1.61 g/L. Subsequently, the arabitol-to-xylitol route was established using arabitol dehydrogenase (ArDH2) and xylitol dehydrogenase (XDH1) enzymes, showing a 52.1% conversion rate in vitro. The heterologous AXA module (APDH, ArDH2, XDH1) was multicopy integrated into the optimized chassis W3P-5ΔB. The strain W3P4A produced 5.04 g/L arabitol and 1.89 g/L xylitol in shake-flasks. Fed-batch fermentation with a plasmid-carrying strain achieved 5.11 g/L xylitol and 18.5% (g/g) yield from glucose. This work establishes a new platform for xylitol bioproduction from glucose and provides a foundational framework for industrial-scale implementation.
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