| 초록 |
3-Hydroxypropionic acid (3-HP), which can be converted into many chemicals, is an important platform chemical. It can be biologically produced from glycerol by two consecutive enzymatic reactions. The pathway has been proved efficient, but imbalance between two enzymatic reactions often results in the accumulation of the toxic 3-HPA, which severely reduces cell viability and 3-HP production. In this study, we used UTR engineering to maximally increase the activities of glycerol dehydratase (GDHt) and aldehyde dehydrogenase (ALDH) for the high conversion of glycerol to 3-HP. Thereafter, the activity of GDHt was precisely controlled to avoid the accumulation of 3-HPA by varying expression of dhaB1, a gene encoding GDHt. The optimally balanced E. coli HGL_DBK4 showed a substantially enhanced 3-HP titer (40.51 g/L) and productivity (1.35 g/L/h) compared with the parental strain. Especially, the yield on glycerol, 0.97 g 3-HP/g glycerol, in a fed-batch experiment, was the highest ever reported. Our study demonstrates that metabolic balancing through UTR engineering is an effective strategy for the development of efficient microorganisms for bio-refinery production. |
