Genomic Insights into Plant Growth Promotion and Biocontrol of <em>Bacillus velezensis</em> Amfr20, an Olive Tree Endophyte
2025
Tasos-Nektarios Spantidos | Dimitra Douka | Panagiotis Katinakis | Anastasia Venieraki
The endophytic strain Amfr20 was isolated from roots of the olive tree var. Amfissa. Based on core-genome phylogenomic analyses, it was classified as <i>Bacillus velezensis</i>. The isolate showed positive results in numerous plant growth promoting traits, as well as in abiotic stress tolerance and in colonization related traits in vitro. Furthermore, the strain exhibited antifungal activity in vitro through diffusible and volatile compounds. Whole genome analysis revealed that the strain possesses large and various arsenals of secondary metabolite biosynthetic gene clusters involved in the bioagent’s functional properties, including plant growth promotion, colonization, and plant defense elicitation, as well as having the genomic potential for abiotic stress mediation. Based on TLC-bioautography, the ethyl acetate extracts of secreted agar-diffusible compounds from Amfr20 through single and dual cultures were found to be bioactive independently of the fungal pathogen’s interaction. The bacterial endophyte also proved efficient in suppressing the severity of anthracnose olive rot and gray mold post-harvest diseases on olive fruits and table grape berries, respectively. Lastly, Amfr20 beneficially affected <i>Arabidopsis thaliana</i> growth under normal and saline conditions, while boosting the plant development of <i>Solanum lycopersicum</i> through seed biopriming and root irrigation methods. The results of this multilevel study indicate that the novel endophyte Amfr20 <i>Bacillus velezensis</i> is a promising bioagent that should be exploited in the future as an ecological biopesticide and/or biostimulant.
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