Ananev AA, Aleynova OA, Nityagovsky NN, Dneprovskaya AA, Dubrovina AS, Xin H, Kiselev KV
Microbiology Research 2026; 17: 39
The search for antagonistic microorganisms as alternatives to chemical pesticides is an urgent priority in sustainable agriculture. Previously, we isolated several bacterial isolates from spruce plants, and one of them, identified as Bacillus atrophaeus R7PjV2-12, showed strong antagonistic properties against plant pathogens such as Magnaporthe oryzae, Fusarium avenaceum, and Erwinia billingiae. Given its strong fungicidal properties, we decided to sequence the complete genome of this bacterium to determine how it can inhibit fungal growth. The whole genome size of B. atrophaeus R7PjV2-12 was 4,127,644 bp with 4032 open reading frames. B. atrophaeus R7PjV2-12 genome possessed clusters of secondary metabolites with a complete set of genes with 100% similarity representing clusters of biosynthesis of bacillin, bacillibactin, subtilosin A, and fungicin, which indicates the studied strain’s ability to synthesize these substances. Thus, this paper has shown and discussed the potential importance of B. atrophaeus R7PjV2-12 for biocontrol of pathogenic microorganisms in agriculture.
