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Influence of Phenotypic Dissociation in Bacillus subtilis Strain ET-1 on Iturin A Production

TitleInfluence of Phenotypic Dissociation in Bacillus subtilis Strain ET-1 on Iturin A Production
Publication TypeArticolo su Rivista peer-reviewed
Year of Publication2019
AuthorsAmbrico, Alfredo, Trupo Mario, and Magarelli Rosaria Alessandra
JournalCurrent Microbiology
Volume76
Pagination1487-1494
ISSN03438651
KeywordsAntifungal activity, article, Bacillus subtilis, bacterial growth, bacterial spore, bacterial strain, cell density, controlled study, correlational study, cost effectiveness analysis, high performance liquid chromatography, iturin A, limit of quantitation, morphotype, nonhuman, Phenotype, priority journal, sporogenesis
Abstract

Iturin A is a very important cyclic lipopeptide produced by several B. subtilis strains and has large commercial and therapeutic application potentials but its production on industrial scale has not been realized yet. In the present study, we have observed that the strain ET-1 of Bacillus subtilis, a producer of Iturin A, can present at least three different colony morphologies, which we arbitrarily called Rough, Smooth, and Mucoid morphotypes (R-, S-, and M-form). Performing HPLC analysis, a significant difference between the amounts of Iturin A produced by the three morphotypes was found. The morphotype R-form showed the highest productivity with yields about 10 and 100 times higher than morphotypes S and M, respectively. The results show that the production of Iturin A by B. subtilis could be strongly influenced by the phenotypic heterogeneity of cells within the inoculum. Indeed, we have observed that, pasteurizing the inoculum before seeding in order to improve the homogeneity removing the phenotypes less able to synthesize the Iturin A, its yields in a bench-scale production could be significantly improved. This can represent an important control factor also at industrial scale to improve the Iturin A yields, the robustness, the replicability, and consequently the cost-effectiveness of fermentation processes. © 2019, Springer Science+Business Media, LLC, part of Springer Nature.

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URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85073962202&doi=10.1007%2fs00284-019-01764-y&partnerID=40&md5=32635fe4053a3e31853b1e0e5a862fee
DOI10.1007/s00284-019-01764-y
Citation KeyAmbrico2019