Unexpectedly high thermostability of an NADP-dependent malic enzyme from a psychrophilic bacterium, Shewanella livingstonensis Ac10.

Psychrophilic enzymes are generally active at low temperatures, and their functions have attracted much interest in food processing, biochemical research, and chemical industry. However, their activities are usually lost above their growth temperature because of their flexible and unstable structure. Here, we unexpectedly found that a homodimeric NADP-dependent malic enzyme from a psychrophilic bacterium, Shewanella livingstonensis Ac10 (SL-ME) showed sufficient activity with 60°C treatment, similar to its counterpart from mesophilic Escherichia coli (MaeB).

Accelerating itaconic acid production by increasing membrane permeability of whole-cell biocatalyst based on a psychrophilic bacterium Shewanella livingstonensis Ac10.

Whole-cell biocatalysts have numerous advantages including ease of preparation and coenzyme recovery over purified industrially used enzymes. However, the cell membrane can occasionally hinder cytoplasmic diffusion of the substrate, resulting in reduced biotransformation efficiency. Psychrophiles can grow and reproduce at low temperatures; their cell membranes are highly flexible, and their permeability can be improved via heat treatment at a moderate temperature.