A simple and high-throughput transposon-mediated mutagenesis system employing two different types of transposons in combination with direct genomic DNA amplification and thermal asymmetric interlaced PCR (TAIL-PCR) was developed. Each of the two minitransposons based on IS31831 (ISL3 family) and Tn5 (IS4 family) was integrated into the Corynebacterium glutamicum R genome. By using BLAST and Perl, transposon insertion locations were automatically identified based on the sequences of TAIL-PCR products of mutant cells. Insertion locations of 18,000 mutants were analyzed, and a comprehensive insertion library covering nearly 80% of the 2,990 open reading frames of C. glutamicum R was generated. Eight thousand of the mutants, exhibiting disruption in 2,330 genes, survived on complex medium under normal laboratory conditions, indicating that the genes were not essential for cell survival. Of the 2,330 genes, 30 exhibited high similarity to essential genes of Escherichia coli or Bacillus subtilis. This approach could be useful in furthering genetic understanding of cellular life and facilitating the functional analysis of microorganisms.
Protocatechuic acid (3,4-dihydroxybenzoic acid; PCA) serves as a building block for polymers and pharmaceuticals. In this study, the biosynthetic pathway for PCA from glucose was engineered in Corynebacterium glutamicum. The pathway to PCA-employed elements of the chorismate pathway by using chorismate-pyruvate lyase (CPL) and 4-hydroxybenzoate hydroxylase (4-HBA hydroxylase). As C. glutamicum has the potential to synthesize the aromatic amino acid intermediate chorismate and possesses 4-HBA hydroxylase, we focused on expressing Escherichia coli CPL in a phenylalanine-producing strain of C. glutamicum ATCC21420. To secrete PCA, the gene (ubiC) encoding CPL from E. coli was expressed in C. glutamicum ATCC 21420 (strain F(UbiC)). The formation of 28.8 mg/L of extracellular 4-HBA (36 h) and 213 ± 29 mg/L of extracellular PCA (80 h) was obtained by the C. glutamicum strain F(UbiC) from glucose. The strain ATCC21420 was also found to produce extracellular PCA. PCA fermentation was performed using C. glutamicum strain F(UbiC) in a bioreactor at the optimized pH of 7.5. C. glutamicum F(UbiC) produced 615 ± 2.1 mg/L of PCA from 50 g/L of glucose after 72 h. Further, fed-batch fermentation of PCA by C. glutamicum F(UbiC) was performed with feedings of glucose every 24 h. The maximum production of PCA (1140.0 ± 11.6 mg/L) was achieved when 117.0 g/L of glucose was added over 96 h of fed-batch fermentation.
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