大肠杆菌中糖酵解的修饰及其对L-苏氨酸生产的影响。
Modification of glycolysis and its effect on the production of L-threonine in Escherichia coli.
作者信息
Xie Xixian, Liang Yuan, Liu Hongliang, Liu Yuan, Xu Qingyang, Zhang Chenglin, Chen Ning
机构信息
National and Local United Engineering Lab of Metabolic Control Fermentation Technology, Tianjin University of Science and Technology, Tianjin, 300457, People's Republic of China.
出版信息
J Ind Microbiol Biotechnol. 2014 Jun;41(6):1007-15. doi: 10.1007/s10295-014-1436-1. Epub 2014 Mar 27.
High concentrations of acetate, the main by-product of Escherichia coli (E. coli) high cell density culture, inhibit bacterial growth and L-threonine production. Since metabolic overflux causes acetate accumulation, we attempted to reduce acetate production by redirecting glycolysis flux to the pentose phosphate pathway by deleting the genes encoding phosphofructokinase (pfk) and/or pyruvate kinase (pyk) in an L-threonine-producing strain of E. coli, THRD. pykF, pykA, pfkA, and pfkB deletion mutants produced less acetate (9.44 ± 0.83, 3.86 ± 0.88, 0.30 ± 0.25, and 6.99 ± 0.85 g/l, respectively) than wild-type THRD cultures (19.75 ± 0.93 g/l). THRDΔpykF and THRDΔpykA produced 11.05 and 5.35 % more L-threonine, and achieved a 10.91 and 5.60 % higher yield on glucose, respectively. While THRDΔpfkA grew more slowly and produced less L-threonine than THRD, THRDΔpfkB produced levels of L-threonine (102.28 ± 2.80 g/l) and a yield on glucose (0.34 g/g) similar to that of THRD. The dual deletion mutant THRDΔpfkBΔpykF also achieved low acetate (7.42 ± 0.81 g/l) and high L-threonine yields (111.37 ± 2.71 g/l). The level of NADPH in THRDΔpfkA cultures was depressed, whereas all other mutants produced more NADPH than THRD did. These results demonstrated that modification of glycolysis in E. coli THRD reduced acetate production and increased accumulation of L-threonine.
乙酸盐是大肠杆菌高细胞密度培养的主要副产物,高浓度的乙酸盐会抑制细菌生长和L-苏氨酸的产生。由于代谢通量过剩导致乙酸盐积累,我们试图通过在产L-苏氨酸的大肠杆菌菌株THRD中删除编码磷酸果糖激酶(pfk)和/或丙酮酸激酶(pyk)的基因,将糖酵解通量重定向到磷酸戊糖途径,从而减少乙酸盐的产生。pykF、pykA、pfkA和pfkB缺失突变体产生的乙酸盐(分别为9.44±0.83、3.86±0.88、0.30±0.25和6.99±0.85 g/L)比野生型THRD培养物(19.75±0.93 g/L)少。THRDΔpykF和THRDΔpykA产生的L-苏氨酸分别多11.05%和5.35%,葡萄糖产率分别提高10.91%和5.60%。虽然THRDΔpfkA的生长比THRD慢,产生的L-苏氨酸也更少,但THRDΔpfkB产生的L-苏氨酸水平(102.28±2.80 g/L)和葡萄糖产率(0.34 g/g)与THRD相似。双缺失突变体THRDΔpfkBΔpykF也实现了低乙酸盐(7.42±0.81 g/L)和高L-苏氨酸产率(111.37±2.71 g/L)。THRDΔpfkA培养物中的NADPH水平降低,而所有其他突变体产生的NADPH比THRD多。这些结果表明,对大肠杆菌THRD中糖酵解的修饰减少了乙酸盐的产生,并增加了L-苏氨酸的积累。
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