Optimization of pulsed field gel electrophoresis (PFGE) conditions for thermophilic bacilli

Optimization of Fermentation Conditions for Bacillus amyloliquefaciens JL54 and Preparation of Powder Through Spray Drying

Larch dieback disease, caused by Neofusicoccum laricinum, severely affects forest health and productivity. To effectively curb the occurrence of this disease, a powder formulation of Bacillus amyloliquefaciens JL54 was developed through spray drying. The research commenced with the optimization of fermentation medium and culture conditions through statistical design, aiming to maximize both bacterial viability and antagonistic activity. The optimal medium included 12 g/L yeast extract, 11.8 g/L yeast powder, and 7.2 g/L magnesium sulfate. Optimal culture conditions included 30% loading volume, 1% inoculum, 37 °C incubation temperature, 31.8 h shaking time, and initial pH 6.4. Under these conditions, the viable count of strain JL54 reached 4.45 × 109 cfu/mL, a 296.67-fold increase compared with the unoptimized system. To evaluate its practical applicability, field trials were conducted, showing a 54% control efficiency against larch dieback disease, significantly suppressing disease progression. Subsequently, the spray drying process was optimized with a 1:10 protective agent-to-water ratio, 100 °C inlet temperature, and 630 mL/h feed flow rate, achieving a 78.41% powder recovery rate. Collectively, this study demonstrates the potential of B. amyloliquefaciens JL54 as an effective biocontrol agent for managing larch dieback and supports its application in spray-dried formulations for forest disease control.

Genetic diversity and the presence of circular plasmids in Bacillus cereus isolates of clinical and environmental origin

The diversity of 61 Bacillus cereus strains isolated from different clinical specimens, food including raw milk and milk products, and water was evaluated. PFGE analysis could discriminate 61 distinct pulsotypes with similarity levels from 25 to 82%, which were divided into 13 clonal complexes. The similarity between clonal complexes was at least 40%. Clinical strains were divided into 10 clonal complexes, while the strains, isolated from milk, food and water were included in 9, 6 and 6 clonal complexes, respectively. Three clonal complexes were dominated by clinical isolates, while they were absent in two complexes. Bacterial isolates from food, being a probable source of alimentary toxoinfection, showed low similarity to isolates from stool specimens. The isolates from both sources were classified together in only 4 out of 13 clonal complexes. The large circular and linear plasmids with the sizes between 50 and 200 kb were detected in 24 (39.3%) and 14 (23%) B. cereus strains, respectively. Thirteen (21.3%) strains contained only one plasmid, two plasmids were found in 6 (9.8%) of strains, and three or more plasmids were obtained in 5 (8.2%) of tested strains. The plasmids were confirmed in 30.8% and 40% of isolates from clinical specimens and food and milk samples, respectively. No clear correlation between the PFGE profiles, the source as well as plasmid content among all tested strains was observed.