Abstract
Bacillus subtilis is the main component in the fermentation of soybeans. To investigate the genetics of the soybean-fermenting B. subtilis strains and its relationship with the productivity of extracellular poly-γ-glutamic acid (γPGA), we sequenced the whole genome of eight B. subtilis stains isolated from non-salted fermented soybean foods in Southeast Asia. Assembled nucleotide sequences were compared with those of a natto (fermented soybean food) starter strain B. subtilis BEST195 and the laboratory standard strain B. subtilis 168 that is incapable of γPGA production. Detected variants were investigated in terms of insertion sequences, biotin synthesis, production of subtilisin NAT, and regulatory genes for γPGA synthesis, which were related to fermentation process. Comparing genome sequences, we found that the strains that produce γPGA have a deletion in a protein that constitutes the flagellar basal body, and this deletion was not found in the non-producing strains. We further identified diversity in variants of the bio operon, which is responsible for the biotin auxotrophism of the natto starter strains. Phylogenetic analysis using multilocus sequencing typing revealed that the B. subtilis strains isolated from the non-salted fermented soybeans were not clustered together, while the natto-fermenting strains were tightly clustered; this analysis also suggested that the strain isolated from “Tua Nao” of Thailand traces a different evolutionary process from other strains.
Highlights
Microbial organisms have a huge influence on the environment and human health
BEST195 genome, we found that differences in biotin synthesis and a nucleotide deletion in a flagella motor protein potentially affected the production of γPGA
This study performed whole-genome shotgun sequencing of eight B. subtilis strains isolated from non-salted fermented soybean foods in Southeast Asia, and it investigated genetic differences among them using comparative genomics approaches
Summary
Microbial organisms have a huge influence on the environment and human health. Especially, fermentation by microorganisms plays an important role in food processing, in the PLOS ONE | DOI:10.1371/journal.pone.0141369 October 27, 2015. In Southeast Asia, there are some non-salted fermented soybean foods similar to natto, including “Chungkuk Jang” in Korea, “Kinema” in Nepal, “Tua Nao” in northern Thailand, “Pepoke” in Myanmar and “Mac Tua Nao” in northern Laos. These foods are made in the same way as natto, but after fermentation, they are made into a paste. To understand the genetics and diversity of the strains producing non-salted fermented soybean foods in more depth, we sequenced the whole genomes of eight strains isolated from nonsalted fermented soybean foods in six countries (Korea, Myanmar, Nepal, Thailand, Laos, and Japan) and performed comparative genome analyses with B. subtilis subsp. The MLST results indicated that the non-salted soybean-fermenting strains were not classified as a single group
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