Untargeted metabolite profiling for koji-fermentative bioprocess unravels the effects of varying substrate types and microbial inocula

•Metabolomics revealed optimal substrate and inocula combination for preparing koji.•Primary metabolites in koji were affected by substrates and microbial inocula.•Primary metabolites except amino acids were higher in soybean substrate.•Secondary metabolites varied largely according to substrate typ...

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Veröffentlicht in:	Food chemistry 2018-11, Vol.266, p.161-169
Hauptverfasser:	Seo, Han Sol, Lee, Sunmin, Singh, Digar, Shin, Hye Won, Cho, Sun A, Lee, Choong Hwan
Format:	Artikel
Sprache:	eng
Schlagworte:	alpha-Amylases - metabolism Amino Acids - analysis Aspergillus oryzae - metabolism Bacillus amyloliquefaciens - metabolism beta-Glucosidase - metabolism Biochemical phenotypes Carbohydrates - analysis Chromatography, High Pressure Liquid Flavonoids - analysis Gas Chromatography-Mass Spectrometry Glycine max - metabolism Hydrogen-Ion Concentration Hydroxybenzoates - analysis Koji fermentation Mass spectrometry Metabolites Metabolomics Microbial inocula Oryza - metabolism Principal Component Analysis Substrate types Triticum - metabolism Vitamins - analysis
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creator	Seo, Han Sol Lee, Sunmin Singh, Digar Shin, Hye Won Cho, Sun A Lee, Choong Hwan
description	•Metabolomics revealed optimal substrate and inocula combination for preparing koji.•Primary metabolites in koji were affected by substrates and microbial inocula.•Primary metabolites except amino acids were higher in soybean substrate.•Secondary metabolites varied largely according to substrate types.•Flavonoids and soyasaponins abundant in soybean were higher in soybean koji. Untargeted metabolomics unraveled the effects of varying substrates (soybean, wheat, and rice) and inocula (Aspergillus oryzae and Bacillus amyloliquefaciens) on metabolite compositions of koji, a starter ingredient in various Asian fermented foods. Multivariate analyses of the hyphenated mass spectrometry datasets for different koji extracts highlighted 61 significantly discriminant primary metabolites (sugars and sugar alcohols, organic acids, amino acids, fatty acids, nucleosides, phenolic acids, and vitamins) according to varying substrates and inocula combinations. However, 59 significantly discriminant secondary metabolites were evident for koji-types with varying substrates only, viz., soybean (flavonoids, soyasaponins, and lysophospholipids), wheat (flavones and lysophospholipids), and rice (flavonoids, fatty acids derivatives, and lysophospholipids). Independently, the substrates influenced primary metabolite compositions in koji (soybean > wheat, rice). The inocula choice of A. oryzae engendered higher carbohydrates, organic acids, and lipid derivative levels commensurate with high α-amylase and β-glucosidase activities, while B. amyloliquefaciens affected higher amino acids levels, in respective koji types.
doi_str_mv	10.1016/j.foodchem.2018.05.048
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Untargeted metabolomics unraveled the effects of varying substrates (soybean, wheat, and rice) and inocula (Aspergillus oryzae and Bacillus amyloliquefaciens) on metabolite compositions of koji, a starter ingredient in various Asian fermented foods. Multivariate analyses of the hyphenated mass spectrometry datasets for different koji extracts highlighted 61 significantly discriminant primary metabolites (sugars and sugar alcohols, organic acids, amino acids, fatty acids, nucleosides, phenolic acids, and vitamins) according to varying substrates and inocula combinations. However, 59 significantly discriminant secondary metabolites were evident for koji-types with varying substrates only, viz., soybean (flavonoids, soyasaponins, and lysophospholipids), wheat (flavones and lysophospholipids), and rice (flavonoids, fatty acids derivatives, and lysophospholipids). Independently, the substrates influenced primary metabolite compositions in koji (soybean > wheat, rice). 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Untargeted metabolomics unraveled the effects of varying substrates (soybean, wheat, and rice) and inocula (Aspergillus oryzae and Bacillus amyloliquefaciens) on metabolite compositions of koji, a starter ingredient in various Asian fermented foods. Multivariate analyses of the hyphenated mass spectrometry datasets for different koji extracts highlighted 61 significantly discriminant primary metabolites (sugars and sugar alcohols, organic acids, amino acids, fatty acids, nucleosides, phenolic acids, and vitamins) according to varying substrates and inocula combinations. However, 59 significantly discriminant secondary metabolites were evident for koji-types with varying substrates only, viz., soybean (flavonoids, soyasaponins, and lysophospholipids), wheat (flavones and lysophospholipids), and rice (flavonoids, fatty acids derivatives, and lysophospholipids). Independently, the substrates influenced primary metabolite compositions in koji (soybean > wheat, rice). 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subjects	alpha-Amylases - metabolism Amino Acids - analysis Aspergillus oryzae - metabolism Bacillus amyloliquefaciens - metabolism beta-Glucosidase - metabolism Biochemical phenotypes Carbohydrates - analysis Chromatography, High Pressure Liquid Flavonoids - analysis Gas Chromatography-Mass Spectrometry Glycine max - metabolism Hydrogen-Ion Concentration Hydroxybenzoates - analysis Koji fermentation Mass spectrometry Metabolites Metabolomics Microbial inocula Oryza - metabolism Principal Component Analysis Substrate types Triticum - metabolism Vitamins - analysis
title	Untargeted metabolite profiling for koji-fermentative bioprocess unravels the effects of varying substrate types and microbial inocula
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