The effects of alginate/carboxyl methylcellulose composite coating incorporated with clove essential oil on quality of silver carp fillet chilled storage (4 + 1°C) were examined over a period of 16 days. The control samples (c), alginate/carboxyl methylcellulose coating (C-A), alginate/ carboxyl methylcellulose composite coating incorporated with clove essential oil (with different concentration 1 and 1.5 %) (C-A + CEO1 % and C-A + CEO 15 % respectively) were analyzed by bacteriological (total viable counts (TVC) and total psychrotrophic counts (TPC)), biochemical (Peroxide value (PV), free fatty acid (FFA), total volatile base nitrogen (TVB-N), and pH) and sensory characteristics. Also, the efficacy of these treatments was investigated in control of the population of Eschershia coli O157:H7 inoculated in silver carp fillet. According to the obtained results, C-A + CEO 1.5 % showed lowest (p < 0.05) and acceptable biochemical, bacteriological and sensory characteristics attributes up to 16 days storage at 4°C compared to the others. Also, this treated sample was acceptable even at the end of the 16-day storage and it could reduce the population of E. coli O157:H7 below the acceptable level (<2) from day 4 until the end of the storage period. The results indicate Alginate/carboxyl methylcellulose composite coating with clove essential oil might be recommended as a preservative in the meat products.
Background. A fundamental component of innate immunity is represented by skin that acts as a first aid against infection. The skin’s epithelial barriers, respiratory tract, and eyes directly contacting with the external environment have incremented the probability of infection. The opportunistic pathogen Pseudomonas aeruginosa causes various infections in immunocompromised hosts. In addition, one-third of P. aeruginosa clinical isolates are resistant to three or more antibiotics. Lately, lots of researchers concentrate on halophilic microorganisms due to affordable novel biomolecules. One of these biomolecules is metal nanoparticles. MNPs exhibited antimicrobial functionality against a variety of microbes. Amidst MNPs, SeNPs are one of the most extensively studied. In this study, halophilic bacteria from solar saltern were employed for the biosynthesis of SeNPs. Aim. This study aimed to evaluate the antibacterial properties of SeNPs which are synthesized by halophilic microorganisms. Result. The NPs were synthesized by Halomonas eurihalina intracellularly. The produced SeNPs were identified through various assays such as UV-Vis spectroscopy, XRD, DLS, FTIR, and SEM. UV-Vis spectroscopy confirmed the presence of SeNPs. In addition, the average particle size of SeNPs was 260 nm. FTIR confirmed the presence of the capping agent to inhibit the aggregation of SeNPs. Also, synthesized selenium nanoparticles have a natural crystalline nature that is verified by XRD. SEM also revealed the spherical shape. Furthermore, SeNPs represented significant antibacterial activity against P. aeruginosa. Conclusion. According to the obtained result, biosynthesized SeNPs demonstrated remarkable characteristics that make them profitable nonantibiotics and also decrease the morbidity and mortality associated with tissue infections.
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