Naiqiang Li scite author profile

Cadaverine has the potential to become an important platform chemical for the production of nylon. Previously, a system that overexpresses the Klebsiella oxytoca lysine decarboxylase in Escherichia coli was engineered. The system was optimized by codon optimization, and tuning the expression level of the gene by testing various promoters and inducer concentrations. Here, we further improved the system by optimizing the sequence located in the region of the ribosome‐binding site in order to enhance translation efficiency. We also identified mutant lysine decarboxylase enzymes that demonstrated enhanced cadaverine‐production ability. Together, these modifications increased cadaverine production in the system by 50%, and the system has a yield of 80% from lysine‐HCl under the conditions we tested. This is the first time that a system to produce cadaverine using the lysine decarboxylase from K. oxytoca performed at a level that is competitive with the traditional systems using the E. coli lysine decarboxylases in both lab‐scale and batch fermentation conditions.

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Naiqiang Li

Cadaverine production by heterologous expression of Klebsiella oxytoca lysine decarboxylase

Effects of polyphosphoric acid (PPA), styrene‐butadiene‐styrene (SBS), or rock asphalt on the performance of desulfurized rubber modified asphalt

Improved microbial fuel cell performance by encapsulating microbial cells with a nickel-coated sponge

Improved cadaverine production from mutant Klebsiella oxytoca lysine decarboxylase

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