丁酸盐
化学
梭菌
甘露醇
食品科学
发酵
微生物学
生物化学
细菌
生物
遗传学
作者
Xiaolong Guo,Fating Ye,Chenchen Nan,Jiale Cheng,Jun Feng,Hongxin Fu,Jufang Wang
标识
DOI:10.1016/j.cej.2024.150577
摘要
Butyl butyrate has a wide range of applications as flavors, solvents, and biofuels. Green production of butyl butyrate by microorganism fermentation in an industry level attracts great attention on the basis of bio-refinery. In this study, a dark horse Clostridium tyrobutyricum was employed for de novo production of butyl butyrate. Herein, reinforcement of EMP and butyl butyrate fermentation pathways (e.g., pfkA, pykA, crt-hbd-bcd/etfAB, adhE2 and VAAT) and regulation of carbon distribution towards butyl butyrate (e.g., CAT1 inactivation or overexpression of NADPH-dependent hbd1) were conducted in C. tyrobutyricum (MUV3) to enhance butyl butyrate production. The outstanding strain MV12 generated 1.8-fold butyl butyrate production compared to the initial strain MUV3. Subsequently, organic nitrogen source concentration was optimized, 21.1 g/L and 30.1 g/L butyl butyrate were obtained in 37 °C and 25 °C, respectively. Ultimately, fed-batch with two-stage temperature shift fermentation was performed for high titer and yield of butyl butyrate production (142.6 g/L titer and 0.28 mol/mol yield) from mannitol. Hence this study presented a microbial fermentation platform for butyl butyrate or other value-added chemicals production from renewable resources.
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