Pang Min scite author profile

Low energy ion beam has been widely applied in microbe breeding, plant breeding, gene transfer and cell modification. In this study, the Escherichia coli (E.coli) strain producing tryptophanase was irradiated by a low energy nitrogen ion beam with an energy of 10 keV at a fluence of 13 × 10 14 N + /cm 2 when glycerin at a 15% concentration was used as a protector. The effect on the biomass of E. coli after N + implantation was analyzed in detail by statistic methods. The screening methods used in this study were proven to be effective. After continuous mutagenicity, a high-yield tryptophanase strain was selected and both its biomass and enzymatic activity were higher than those of the parent strain. The results of scale-up production showed that the biomass could reach wet weight 8.2 g/L and 110 g L-tryptophan could be formed in the volume of the 1 l enzymatic reaction system.

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Pang Min

Rapid decolourization of azo dyes by a new isolated higher manganese peroxidase producer: Phanerochaete sp. HSD

A Study of Mutation Breeding of High-Yielding Tryptophanase Escherichia coli by Low-Energy N⁺Ion Beam Implantation

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Pang Min

Rapid decolourization of azo dyes by a new isolated higher manganese peroxidase producer: Phanerochaete sp. HSD

A Study of Mutation Breeding of High-Yielding Tryptophanase Escherichia coli by Low-Energy N+Ion Beam Implantation

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A Study of Mutation Breeding of High-Yielding Tryptophanase Escherichia coli by Low-Energy N⁺Ion Beam Implantation