The researchers have developed a gene sequence design method based on information technology. They applied the method to protein production using actinomycetes, and demonstrated a high probability of increased production.

In material production using microorganisms, heterologous genes are artificially introduced into the target microorganism to have the microorganism produce proteins it does not naturally possess. Technology for properly designing the DNA sequence of the genes to be introduced (codon optimization) is important for increasing production amounts. However, codon optimization methods have not been established for the bioindustry-relevant microorganisms, and development is demanded.

The developed method examines only the beginning of the gene sequence instead of the overall sequence. This makes it possible to greatly reduce the number of gene sequences to be examined, which enables computations. The researchers designed the optimal gene sequences for twelve genes and introduced them to an Actinomycete, Rhodococcus erythropolis. Nine of these genes were confirmed to increase production compared to the wild-type sequences. The developed method has several advantages including simple and inexpensive preparation of the gene, and it is potentially applicable to various microorganisms.

The researchers will apply this method to the protein production of various microorganisms to demonstrate its effectiveness and try to increase the efficiency of material production.