Determination of the antibacterial effect of bee venom against rainbow trout pathogens and antibiotic resistance gene expression
Mass Fragmentography
Veterinary medicine
Antibiotic Agent
Honeybee
Bacterium Colony
Gene Expression
Oxytetracycline
Aquaculture
Disk Diffusion
antibacterial activity
SF600-1100
Pathogenic Fish Bacteria
Fluorometry
Infectious Agent
0303 health sciences
Hly Gen Expression
Agar Diffusion
bee venom
Bacterial Gene
Minimum Bactericidal Concentration
Minimum Inhibitory Concentration
Biological Pest Control
Bee Venom
Lactococcus Garvieae
Real Time Polymerase Chain Reaction
Hemolysin
Oncorhynchus Mykiss
honeybee
Apis Mellifera
Antimicrobial Activity
Article
Propolis
Fibronectin Binding Protein
03 medical and health sciences
Rna Isolation
Bacterial Strain
Vibrio Anguillarum
Yersinia Ruckeri
Controlled Study
Mortality
Fibronectin
Aeromonas Hydrophila
Gas Chromatography
hly gen expression
Bacteria
Bacterial Growth
Probiotics
Rna Extraction
Fate
Nonhuman
pathogenic fish bacteria
Antibacterial Activity
Aeromonas-Hydrophila
Antibiotic Resistance
Zone Of Inhibition
Gene Expression Level
DOI:
10.2478/acve-2023-0028
Publication Date:
2023-09-28T17:13:36Z
AUTHORS (3)
ABSTRACT
Abstract
Bee venom (BV) is a rich source of secondary metabolites from honeybees (Apis mellifera L.). It contains a variety of bioactive ingredients including peptides, proteins, enzymes, and volatile metabolites. This study investigated the antibacterial effects of the bee venom obtained from honey bees (Apis mellifera L.) against bacterial fish pathogens, such as Lactococcus garvieae (Lg1, Lg2, Lg3), Vibrio anguillarum (Va1, Va2, Va3), Yersinia ruckeri (Yr1, Yr2, Yr3), and Aeromonas hydrophila (Ah1, Ah2, Ah3) and the expression levels on the antibiotic resistance genes hly and fbp (hemolysin and fibronectin-binding prot) of them. It was determined that bee venom had an antibacterial effect against L. garvieae, L. anguillarum, and Y. ruckeri strains, while it had no effect only against Ah3 and Ah2 bacterial strains. As staded by the gene expression of hly (hemolysin) and fbp (fibronectin-binding protein), among the antibiotic resistance genes the effect levels of bee venom on bacterial species varied, although it affected antibiotic resistance and gene expression level in all bacteria. It was revealed that the expression level was the highest for V. anguillarum strains, whereas it was below the control group for L. garvieae. i.e the effect of bee venom on the resistance mechanism for L. garvieae was much less compared to V. anguillarum. Based on the results in the current study it could be concluded that applying bee venom to pathogenic bacteria that cause mortality in the aquaculture sector could induce the defense-related gene and change the broad-spectrum biocontrol activity at the molecular level.
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