Optimal production of poly-γ-glutamic acid by metabolically engineered Escherichia coli
2006
Metabolically-engineered Escherichia coli strains were developed by cloning poly-γ-glutamic acid (γ-PGA) biosynthesis genes, consisting of pgsB, pgsC and pgsA, from Bacillus subtilis The metabolic and regulatory pathways of γ-PGA biosynthesis in E. coli were analyzed by DNA microarray. The inducible trc promoter and a constitutive promoter (PHCE) derived from the d-amino acid aminotransferase (D-AAT) gene of Geobacillus toebii were employed. The constitutive HCE promoter was more efficient than inducible trc promoter for the expression of γ-PGA biosynthesis genes. DNA microarray analysis showed that the expression levels of several NtrC family genes, glnA, glnK, glnG, yhdX, yhdY, yhdZ, amtB, nac, argT and cbl were up-regulated and sucA, B, C, D genes were down-regulated. When (NH4)2SO4 was added at 40 g/l into the feeding solution, the final γ-PGA concentration reached 3.7 g/l in the fed-batch culture of recombinant E. coli/pCOpgs.
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