Journal of Medical Entomology and Parasitology is one of the series issued quarterly by the Egyptian Academic Journal of Biological Sciences. It is an important specialist journal covering the latest advances in that subject. It publishes original research and review papers on all aspects of basic and applied medical entomology, parasitology and host-parasite relationships, including the latest discoveries in parasite biochemistry, molecular biology, genetics, ecology and epidemiology in the content of the biological, medical entomology and veterinary sciences. In addition to that, the journal promotes research on the impact of living organisms on their environment with emphasis on subjects such a resource, depletion, pollution, biodiversity, ecosystem…..etc.
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Journal is an Egyptian journal covering the whole field of general, experimental, systematic and applied entomology. Manuscripts generally should not exceed 30 pages (exceptions are possible, particularly in case of reviews, and should be negotiated in advance with the editors). Papers are considered by referees before acceptance. Authors will receive first editorial decision within 8 weeks from confirmed submission. All contributions are published in English. Authors whose mother tongue is not English are strongly urged to have their manuscripts reviewed linguistically before submission. Papers written in poor English will be returned. It is understood that manuscripts submitted to EAJBS have not been offered to any other journal for prior or simultaneous publication. http://eajbsd.journals.ekb.eg/
Background
American foulbrood (AFB) is one of the potent and highly contagious bacterial diseases affecting honeybees of Apis mellifera and A. cerana species. Paenibacillus larvae larvae (P. l. larvae) is the causative agent of AFB. The present study evaluated a novel technique to control AFB disease, in vitro, depending on double-coated microencapsulated probiotics. Microencapsulation was performed for the preservation of five different locally isolated, honeybee endogenous lactic acid bacteria (LAB) (Lactobacillus plantarum MK780211, L. plantarum MK780215, L. kunkeei MK780216, L. kunkeei MK780218 and Lactobacillus sp. MK780212).
Results
Extrusion technique was used to encapsulate each strain separately in alginate beads coated with resistant starch (Hi-maize) and chitosan. Encapsulation efficiency was determined by testing the cell viability after encapsulation process, and it was ranging between 93.1 and 95.5%. The antimicrobial activity of both free and encapsulated LABs against P. l. larvae was evaluated by the agar well diffusion method. The encapsulation process decreased the activity of all the tested probiotics to some extent, except Lactobacillus sp. MK780212 which caused complete inhibition for P. l. larvae with good shelf-life expectancy time, for a month, compared to its free cells. The effect of whole capsule and its components was evaluated to ensure the activity of the tested probiotics.
Conclusion
The laboratory-controlled experiments revealed that the microencapsulation process with double coating can be used with some probiotics efficiently without affecting their activity.
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