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Paenibacillus larvae and their phages; a community science approach to discovery and initial testing of prophylactic phage cocktails against American Foulbrood in New Zealand
Background: American foulbrood (AFB) is a devastating disease of the European honey bee (Apis mellifera ) and is found throughout the world. AFB is caused by the bacterium Paenibacillus larvae (P. larvae ). Treatment with antibiotics is strictly forbidden in many regions, including New Zealand. Safe...
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Published in: | Microbiome research reports 2023, Vol.2 (4), p.30-30 |
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Main Authors: | , , , |
Format: | Article |
Language: | English |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | Background: American foulbrood (AFB) is a devastating disease of the European honey bee (Apis mellifera ) and is found throughout the world. AFB is caused by the bacterium Paenibacillus larvae (P. larvae ). Treatment with antibiotics is strictly forbidden in many regions, including New Zealand. Safe and natural prophylactic solutions to protect honey bees from AFB are needed. Bacteriophages are a well-studied alternative to antibiotics and have been shown to be effective against P. larvae in other countries.
Methods: We employed a community science approach to obtaining samples from around New Zealand to discover novel bacteriophages. Standard isolation approaches were employed for both bacteria and bacteriophages. Host range testing was performed by agar overlay spot tests, and cocktail formulation and in vitro testing were performed in 96-well plate assays, followed by sub-sampling and CFU visualization on agar plates.
Results: Herein, we describe the discovery and isolation of eight P. larvae bacterial isolates and 26 P. larvae bacteriophages that are novel and native to New Zealand. The phage genomes were sequenced and annotated, and their genomes were compared to extant sequenced P. larvae phage genomes. We test the host ranges of the bacteriophages and formulate cocktails to undertake in vitro testing on a set of representative bacterial strains. These results form the basis of a promising solution for protecting honey bees in New Zealand from AFB. |
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ISSN: | 2771-5965 2771-5965 |
DOI: | 10.20517/mrr.2023.16 |