Harnessing genomic insights to identify antimicrobial traits in Bacillus velezensis MJ06 from Korean soybean-fermented Meju

, a key microorganism in traditional Korean soybean-fermented foods such as Meju, contributes to flavor and food safety. In this study, strains were isolated from Meju, and their morphological characteristics and biosynthetic gene clusters were analyzed using whole-genome sequencing. Pangenome analy...

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Published inFood science and biotechnology Vol. 34; no. 12; pp. 2855 - 2865
Main Authors Song, Yeajin, Jo, Eunhye, Kim, Minjeong, Lee, Hyeyoung, Cha, Jaeho
Format Journal Article
LanguageEnglish
Published Korea (South) Springer Nature B.V 01.08.2025
한국식품과학회
Subjects
Anion exchange
Anion exchanging
Antimicrobial activity
Bacillomycin
Bacillus velezensis
Bioactive compounds
Biosynthesis
Catabolism
Cluster analysis
Fermented food
Food safety
Gene clusters
Gene sequencing
Genes
Genomic analysis
Liquid chromatography
Mass spectrometry
Mass spectroscopy
Metabolites
Physical characteristics
Soybeans
Strains (organisms)
Surfactin
Whole genome sequencing
식품과학
Antimicrobial activity
Comparative genome analysis
Antimicrobial compounds
Whole genome sequencing
Meju
Bacillus velezensis
Online AccessGet full text
ISSN1226-7708
2092-6456
2092-6456
DOI10.1007/s10068-025-01901-3

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Abstract , a key microorganism in traditional Korean soybean-fermented foods such as Meju, contributes to flavor and food safety. In this study, strains were isolated from Meju, and their morphological characteristics and biosynthetic gene clusters were analyzed using whole-genome sequencing. Pangenome analysis identified core and accessory genes, with MJ06 showing the highest number of genes associated with secondary metabolite biosynthesis, transport, and catabolism. Antimicrobial assays against six foodborne pathogenic bacteria and six fungi revealed MJ06 had the strongest antimicrobial activity, correlating with its enriched secondary metabolite biosynthetic gene clusters. Active antimicrobial compounds were extracted using C18 cartridges and anion exchange chromatography, and liquid chromatography-mass spectrometry analysis identified surfactin and bacillomycin D as major bioactive metabolites. This study highlights the power of comparative genomics in linking genetic potential to functional antimicrobial traits, facilitating the targeted selection of industrially valuable strains for food safety applications. The online version contains supplementary material available at 10.1007/s10068-025-01901-3.
AbstractList Bacillus velezensis, a key microorganism in traditional Korean soybean-fermented foods such as Meju, contributes to flavor and food safety. In this study, B. velezensis strains were isolated from Meju, and their morphological characteristics and biosynthetic gene clusters were analyzed using whole-genome sequencing. Pangenome analysis identified core and accessory genes, with MJ06 showing the highest number of genes associated with secondary metabolite biosynthesis, transport, and catabolism. Antimicrobial assays against six foodborne pathogenic bacteria and six fungi revealed MJ06 had the strongest antimicrobial activity, correlating with its enriched secondary metabolite biosynthetic gene clusters. Active antimicrobial compounds were extracted using C18 cartridges and anion exchange chromatography, and liquid chromatography-mass spectrometry analysis identified surfactin and bacillomycin D as major bioactive metabolites. This study highlights the power of comparative genomics in linking genetic potential to functional antimicrobial traits, facilitating the targeted selection of industrially valuable strains for food safety applications. KCI Citation Count: 0
, a key microorganism in traditional Korean soybean-fermented foods such as Meju, contributes to flavor and food safety. In this study, strains were isolated from Meju, and their morphological characteristics and biosynthetic gene clusters were analyzed using whole-genome sequencing. Pangenome analysis identified core and accessory genes, with MJ06 showing the highest number of genes associated with secondary metabolite biosynthesis, transport, and catabolism. Antimicrobial assays against six foodborne pathogenic bacteria and six fungi revealed MJ06 had the strongest antimicrobial activity, correlating with its enriched secondary metabolite biosynthetic gene clusters. Active antimicrobial compounds were extracted using C18 cartridges and anion exchange chromatography, and liquid chromatography-mass spectrometry analysis identified surfactin and bacillomycin D as major bioactive metabolites. This study highlights the power of comparative genomics in linking genetic potential to functional antimicrobial traits, facilitating the targeted selection of industrially valuable strains for food safety applications. The online version contains supplementary material available at 10.1007/s10068-025-01901-3.
Bacillus velezensis, a key microorganism in traditional Korean soybean-fermented foods such as Meju, contributes to flavor and food safety. In this study, B. velezensis strains were isolated from Meju, and their morphological characteristics and biosynthetic gene clusters were analyzed using whole-genome sequencing. Pangenome analysis identified core and accessory genes, with MJ06 showing the highest number of genes associated with secondary metabolite biosynthesis, transport, and catabolism. Antimicrobial assays against six foodborne pathogenic bacteria and six fungi revealed MJ06 had the strongest antimicrobial activity, correlating with its enriched secondary metabolite biosynthetic gene clusters. Active antimicrobial compounds were extracted using C18 cartridges and anion exchange chromatography, and liquid chromatography-mass spectrometry analysis identified surfactin and bacillomycin D as major bioactive metabolites. This study highlights the power of comparative genomics in linking genetic potential to functional antimicrobial traits, facilitating the targeted selection of industrially valuable strains for food safety applications.Bacillus velezensis, a key microorganism in traditional Korean soybean-fermented foods such as Meju, contributes to flavor and food safety. In this study, B. velezensis strains were isolated from Meju, and their morphological characteristics and biosynthetic gene clusters were analyzed using whole-genome sequencing. Pangenome analysis identified core and accessory genes, with MJ06 showing the highest number of genes associated with secondary metabolite biosynthesis, transport, and catabolism. Antimicrobial assays against six foodborne pathogenic bacteria and six fungi revealed MJ06 had the strongest antimicrobial activity, correlating with its enriched secondary metabolite biosynthetic gene clusters. Active antimicrobial compounds were extracted using C18 cartridges and anion exchange chromatography, and liquid chromatography-mass spectrometry analysis identified surfactin and bacillomycin D as major bioactive metabolites. This study highlights the power of comparative genomics in linking genetic potential to functional antimicrobial traits, facilitating the targeted selection of industrially valuable strains for food safety applications.The online version contains supplementary material available at 10.1007/s10068-025-01901-3.Supplementary InformationThe online version contains supplementary material available at 10.1007/s10068-025-01901-3.
Bacillus velezensis, a key microorganism in traditional Korean soybean-fermented foods such as Meju, contributes to flavor and food safety. In this study, B. velezensis strains were isolated from Meju, and their morphological characteristics and biosynthetic gene clusters were analyzed using whole-genome sequencing. Pangenome analysis identified core and accessory genes, with MJ06 showing the highest number of genes associated with secondary metabolite biosynthesis, transport, and catabolism. Antimicrobial assays against six foodborne pathogenic bacteria and six fungi revealed MJ06 had the strongest antimicrobial activity, correlating with its enriched secondary metabolite biosynthetic gene clusters. Active antimicrobial compounds were extracted using C18 cartridges and anion exchange chromatography, and liquid chromatography-mass spectrometry analysis identified surfactin and bacillomycin D as major bioactive metabolites. This study highlights the power of comparative genomics in linking genetic potential to functional antimicrobial traits, facilitating the targeted selection of industrially valuable strains for food safety applications.
Author Cha, Jaeho
Song, Yeajin
Jo, Eunhye
Lee, Hyeyoung
Kim, Minjeong
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Issue 12
Keywords Antimicrobial activity
Comparative genome analysis
Antimicrobial compounds
Whole genome sequencing
Meju
Bacillus velezensis
Language English
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Snippet , a key microorganism in traditional Korean soybean-fermented foods such as Meju, contributes to flavor and food safety. In this study, strains were isolated...
Bacillus velezensis, a key microorganism in traditional Korean soybean-fermented foods such as Meju, contributes to flavor and food safety. In this study, B....
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SubjectTerms Anion exchange
Anion exchanging
Antimicrobial activity
Bacillomycin
Bacillus velezensis
Bioactive compounds
Biosynthesis
Catabolism
Cluster analysis
Fermented food
Food safety
Gene clusters
Gene sequencing
Genes
Genomic analysis
Liquid chromatography
Mass spectrometry
Mass spectroscopy
Metabolites
Physical characteristics
Soybeans
Strains (organisms)
Surfactin
Whole genome sequencing
식품과학
Title Harnessing genomic insights to identify antimicrobial traits in Bacillus velezensis MJ06 from Korean soybean-fermented Meju
URI https://www.ncbi.nlm.nih.gov/pubmed/40655291
https://www.proquest.com/docview/3228807168
https://www.proquest.com/docview/3229904478
https://www.kci.go.kr/kciportal/ci/sereArticleSearch/ciSereArtiView.kci?sereArticleSearchBean.artiId=ART003224753
Volume 34
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ispartofPNX Food Science and Biotechnology, 2025, 34(12), , pp.2855-2865
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