Polyphasic characterisation of Bacillus subtilis strains for iru fermentation and vitamin bioenrichment

dc.contributor.authorAwotundun, Theresa Abimbola
dc.contributor.authorGreppi, Anna
dc.contributor.authorPugin, Benoit
dc.contributor.authorPlüss, Serafina
dc.contributor.authorOdunfa, Sunday Ayodele
dc.contributor.authorRusso, Pasquale
dc.contributor.authorBokulich, Nicholas A
dc.contributor.authorOlanbiwoninu, Afolake Atinuke
dc.date.accessioned2026-06-30T15:05:28Z
dc.date.available2026-06-30T15:05:28Z
dc.date.issued2026
dc.description.abstractBacillus subtilis plays a key role in traditional plant fermentations in Africa and Asia. Here, we characterised B. subtilis strains isolated from iru, a fermented condiment from Nigeria, and evaluated their potential as riboflavin- and folate-producers. Eighty-six Bacillus spp. were isolated through heat treatment and spore plating on nutrient agar. The isolates were phenotypically identified, assessed for enzymatic activity (proteases, amylases), and tested for safety (haemolysis, gelatinase, and biogenic amine production). Selected isolates were further screened for riboflavin and folate production in chemically defined media. Thirty-four strains were phenotypically identified as B. subtilis with riboflavin production ranging from 0.006 to 0.039 mg L−1, while nine produced folate between 0.300 and 1.940 mg L−1. These strains were submitted to the selective pressure of toxic analogues of riboflavin and folate in order to enhance their capability to synthesise these vitamins, with the best strain showing increases from 0.013 to 0.020 mg L−1 for riboflavin and 1.665 to 3.715 mg L−1 for folate. The most promising candidates were employed for lab-scale iru fermentation. In lab-scale iru fermentation using the improved strains, vitamin levels were enhanced by 38% for riboflavin (0.036 to 0.050 mg g−1 of iru) and 35% for folate (0.035 to 0.047 mg g−1 of iru), signifying that 10 g of iru fermented with these strains can provide 25% of daily riboflavin intake and 100% of folate intake. These results highlight the potential of selected B. subtilis strains as functional starter cultures for the dual purpose of iru fermentation and vitamin biofortification. Such strain selection and optimisation represent a promising biotechnological strategy to enhance the micronutrient profile of traditional fermented foods while preserving their sensory and cultural value.
dc.identifier.issn3091-3551
dc.identifier.urihttps://repository.acu.edu.ng/handle/123456789/1945
dc.language.isoen
dc.relation.ispartofseries1; 1
dc.subjectIru
dc.subjectBacillus spp.
dc.subjectRoseoflavin
dc.subjectMethotrexate
dc.subjectRiboflavin
dc.subjectFolate
dc.subjectSustainability
dc.titlePolyphasic characterisation of Bacillus subtilis strains for iru fermentation and vitamin bioenrichment
dc.typeArticle

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