Characterization of IBacillus pumilus/I Strains with Targeted Gene Editing for Antimicrobial Peptides and Sporulation Factor

Due to their capacity to produce antimicrobial peptides that can prevent the growth of diseases, many Bacillus spp. are beneficial to plants. In this study, we looked into the antagonistic activity of the B. pumilus 3-19 strain and its derivatives following targeted genome editing. Two peptide genes...

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Bibliographic Details
Published in:Microorganisms (Basel) 2023-06, Vol.11 (6)
Main Authors: Danilova, Iuliia V, Vasileva, Iuliia A, Gilmutdinova, Ajgul I, Dyadkina, Ilona V, Khusnullina, Liya K, Khasanov, Damir I, Rudakova, Natalia L, Sharipova, Margarita R
Format: Article
Language:English
Subjects:
Bacillus (Bacteria)
Chemical properties
Genetic aspects
Identification and classification
Peptides
Physiological aspects
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Summary:Due to their capacity to produce antimicrobial peptides that can prevent the growth of diseases, many Bacillus spp. are beneficial to plants. In this study, we looked into the antagonistic activity of the B. pumilus 3-19 strain and its derivatives following targeted genome editing. Two peptide genes with antibacterial action, bacilysin (bac) and bacteriocin (bact), and the sigF gene, which encodes the sigma factor of sporulation, were specifically inactivated using the CRISPR-Cas9 system in the genome of B. pumilus 3-19. Antibacterial activity against B. cereus and Pantoea brenneri decreased as a result of the inactivation of target genes in the B. pumilus 3-19 genome, with a noticeable effect against bacilysin. The growth dynamics of the culture changed when the bac, bact, and sigF genes were inactivated, and the altered strains had less proteolytic activity. An asporogenic mutant of B. pumilus 3-19 was obtained by inactivating the sigF gene. It has been proven that bacilysin plays a unique part in the development of B. pumilus 3-19’s antagonistic action against soil microorganisms.
ISSN:2076-2607
2076-2607
DOI:10.3390/microorganisms11061508