Abstract
An endophytic bacterium Bacillus velezensis BY6 was isolated from the wood stems of healthy Populus davidiana × P. alba var. pyramidalis (PdPap). The BY6 strain can inhibit pathogenic fungus Alternaria alternate in PdPap and promote growth of PdPap seedlings. In the present study, we used the Pacific Biosciences long-read sequencing platform, a single-molecule real-time (SMRT) technology for strain BY6, to perform complete genome sequencing. The genome size was 3,898,273 bp, the number of genes was 4,045, and the average GC content was 47.33%. A complete genome of strain BY6 contained 110 secondary metabolite gene clusters. Nine of the secondary metabolite gene clusters exhibited antifungal activity and promoted growth functions primarily involved in the synthesis of surfactin, bacteriocins, accumulated iron ions, and related antibiotics. Gene clusters provide genetic resources for biotechnology and genetic engineering, and enhance understanding of the relationship between microorganisms and plants.
Highlights
Populus davidiana × P. alba var. pyramidalis (PdPap) is the most commonly planted tree species in China
Strain BY6 belonged to the same genus branch as B. velezensis (NR075005.2) and B. velezensis (NR116240.1) exhibiting the closest genetic distance to B. velezensis (NR116240.1), with a support rate of 97%
Strain BY6 was identified as B. velezensis based on our experimental results
Summary
Populus davidiana × P. alba var. pyramidalis (PdPap) is the most commonly planted tree species in China. Pyramidalis (PdPap) is the most commonly planted tree species in China. PdPap is a female clone; the catkin can fall off naturally, and it is a model species for studying woody plants [1]. Plant growth-promoting bacteria (PGPB) are frequently used to control plant leaf diseases. PGPB can inhibit a variety of plant pathogenic fungi [4, 5], promote plant growth and development [6, 7], enhance plant abiotic stress tolerance [8, 9], and regulate and improve the soil environment [10, 11]. Bacillus species of bacteria are essential members of PGPR and have been developed as biological agents in agriculture that are used to control various plant diseases [12]
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