Please use this identifier to cite or link to this item: http://cmuir.cmu.ac.th/jspui/handle/6653943832/75717
Title: Amplicon sequencing of variable 16s rrna from bacteria and its2 regions from fungi and plants, reveals honeybee susceptibility to diseases results from their forage availability under anthropogenic landscapes
Authors: Aneta A. Ptaszyńska
Przemyslaw Latoch
Paul J. Hurd
Andrew Polaszek
Joanna Michalska-Madej
Łukasz Grochowalski
Dominik Strapagiel
Sebastian Gnat
Daniel Załuski
Marek Gancarz
Robert Rusinek
Patcharin Krutmuang
Raquel Martín Hernández
Mariano Higes Pascual
Agata L. Starosta
Authors: Aneta A. Ptaszyńska
Przemyslaw Latoch
Paul J. Hurd
Andrew Polaszek
Joanna Michalska-Madej
Łukasz Grochowalski
Dominik Strapagiel
Sebastian Gnat
Daniel Załuski
Marek Gancarz
Robert Rusinek
Patcharin Krutmuang
Raquel Martín Hernández
Mariano Higes Pascual
Agata L. Starosta
Keywords: Biochemistry, Genetics and Molecular Biology;Immunology and Microbiology;Medicine
Issue Date: 1-Mar-2021
Abstract: European Apis mellifera and Asian Apis cerana honeybees are essential crop pollinators. Microbiome studies can provide complex information on health and fitness of these insects in relation to environmental changes, and plant availability. Amplicon sequencing of variable regions of the 16S rRNA from bacteria and the internally transcribed spacer (ITS) regions from fungi and plants allow identification of the metabiome. These methods provide a tool for monitoring otherwise uncultured microbes isolated from the gut of the honeybees. They also help monitor the composition of the gut fungi and, intriguingly, pollen collected by the insect. Here, we present data from amplicon sequencing of the 16S rRNA from bacteria and ITS2 regions from fungi and plants derived from honeybees collected at various time points from anthropogenic landscapes such as urban areas in Poland, UK, Spain, Greece, and Thailand. We have analysed microbial content of honeybee intestine as well as fungi and pollens. Furthermore, isolated DNA was used as the template for screening pathogens: Nosema apis, N. ceranae, N. bombi, tracheal mite (Acarapis woodi), any organism in the parasitic order Trypanosomatida, including Crithidia spp. (i.e., Crithidia mellificae), neogregarines including Mat-tesia and Apicystis spp. (i.e., Apicistis bombi). We conclude that differences between samples were mainly influenced by the bacteria, plant pollen and fungi, respectively. Moreover, honeybees feeding on a sugar based diet were more prone to fungal pathogens (Nosema ceranae) and neogregarines. In most samples Nosema sp. and neogregarines parasitized the host bee at the same time. A higher load of fungi, and bacteria groups such as Firmicutes (Lactobacillus); γ-proteobacteria, Neisseriaceae, and other unidentified bacteria was observed for Nosema ceranae and neogregarine infected honeybees. Healthy honeybees had a higher load of plant pollen, and bacteria groups such as: γ-proteobacteria, Orbales, Gilliamella, Snodgrassella, γ-proteobacteria and Enterobacteriaceae. Finally, the period when honeybees switch to the winter generation (longer-lived forager honeybees) is the most sensitive to diet perturbations, and hence pathogen attack, for the whole beekeeping season. It is possible that evolutionary adaptation of bees fails to benefit them in the modern anthropomorphised environment.
URI: https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85103820546&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/75717
ISSN: 20760817
Appears in Collections:CMUL: Journal Articles

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