Molecular and mitochondrial biology of eusocial bees: responses to stress and xenobiotics

Bees are one of the most important pollinators and provide substantial economic value via their pollination services. Over recent decades the decline in pollinator diversity and abundance has been of great concern. The cause of these declines has been attributed to a combination of factors including...

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Main Author: Sargent, Chloe
Format: Thesis (University of Nottingham only)
Language:English
Published: 2024
Subjects:
Online Access:https://eprints.nottingham.ac.uk/79869/
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author Sargent, Chloe
author_facet Sargent, Chloe
author_sort Sargent, Chloe
building Nottingham Research Data Repository
collection Online Access
description Bees are one of the most important pollinators and provide substantial economic value via their pollination services. Over recent decades the decline in pollinator diversity and abundance has been of great concern. The cause of these declines has been attributed to a combination of factors including habitat loss, agriculture intensification and pesticide use, climate change, and disease. Hence, it is important to elucidate how these stressors may affect the physiology and molecular biology of bees and thereby help to establish potential stress-biomarkers to monitor and mitigate negative environmental effects. This thesis aims to investigate the effects that environmental stressors and xenobiotics have on mitochondrial function and epigenetic modifications in the eusocial bees, Bombus terrestris and Apis mellifera. Using high-resolution respirometry and tethered flight mills this thesis shows how mitochondrial function and flight performance are affected by chemical stressors. Furthermore, it is demonstrated that bumblebees can be used as effective model organisms for research and development of pharmaceutical drugs. To detect the epigenetic modification, N6-methyladenine (6mA) methylation, in the DNA of bees, the use of techniques including Oxford Nanopore sequencing and a new approach termed the immuno-southern (iSouthern) are also demonstrated. This thesis shows that mitochondrial function in response to the neonicotinoid insecticide, imidacloprid, is tissue-specific; this highlights the necessity to examine tissue-specific effects of insecticides on mitochondrial function. It is further demonstrated that xenobiotics which target neuronal function alter the mitochondrial function and flight velocity in bumblebees. Finally, it is concluded that 6mA methylation in DNA may be present in eusocial bees and is associated with the presence of an endosymbiont bacteria from the genus Arsenophonus.
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spelling nottingham-798692024-12-13T04:40:24Z https://eprints.nottingham.ac.uk/79869/ Molecular and mitochondrial biology of eusocial bees: responses to stress and xenobiotics Sargent, Chloe Bees are one of the most important pollinators and provide substantial economic value via their pollination services. Over recent decades the decline in pollinator diversity and abundance has been of great concern. The cause of these declines has been attributed to a combination of factors including habitat loss, agriculture intensification and pesticide use, climate change, and disease. Hence, it is important to elucidate how these stressors may affect the physiology and molecular biology of bees and thereby help to establish potential stress-biomarkers to monitor and mitigate negative environmental effects. This thesis aims to investigate the effects that environmental stressors and xenobiotics have on mitochondrial function and epigenetic modifications in the eusocial bees, Bombus terrestris and Apis mellifera. Using high-resolution respirometry and tethered flight mills this thesis shows how mitochondrial function and flight performance are affected by chemical stressors. Furthermore, it is demonstrated that bumblebees can be used as effective model organisms for research and development of pharmaceutical drugs. To detect the epigenetic modification, N6-methyladenine (6mA) methylation, in the DNA of bees, the use of techniques including Oxford Nanopore sequencing and a new approach termed the immuno-southern (iSouthern) are also demonstrated. This thesis shows that mitochondrial function in response to the neonicotinoid insecticide, imidacloprid, is tissue-specific; this highlights the necessity to examine tissue-specific effects of insecticides on mitochondrial function. It is further demonstrated that xenobiotics which target neuronal function alter the mitochondrial function and flight velocity in bumblebees. Finally, it is concluded that 6mA methylation in DNA may be present in eusocial bees and is associated with the presence of an endosymbiont bacteria from the genus Arsenophonus. 2024-12-13 Thesis (University of Nottingham only) NonPeerReviewed application/pdf en cc_by https://eprints.nottingham.ac.uk/79869/1/PhD%20Thesis_191024_corrected_FINAL.pdf Sargent, Chloe (2024) Molecular and mitochondrial biology of eusocial bees: responses to stress and xenobiotics. PhD thesis, University of Nottingham. Bees; Environmental stressors; Xenobiotics; Mitochondrial function; Epigenetic modifications; Chemical stressors
spellingShingle Bees; Environmental stressors; Xenobiotics; Mitochondrial function; Epigenetic modifications; Chemical stressors
Sargent, Chloe
Molecular and mitochondrial biology of eusocial bees: responses to stress and xenobiotics
title Molecular and mitochondrial biology of eusocial bees: responses to stress and xenobiotics
title_full Molecular and mitochondrial biology of eusocial bees: responses to stress and xenobiotics
title_fullStr Molecular and mitochondrial biology of eusocial bees: responses to stress and xenobiotics
title_full_unstemmed Molecular and mitochondrial biology of eusocial bees: responses to stress and xenobiotics
title_short Molecular and mitochondrial biology of eusocial bees: responses to stress and xenobiotics
title_sort molecular and mitochondrial biology of eusocial bees: responses to stress and xenobiotics
topic Bees; Environmental stressors; Xenobiotics; Mitochondrial function; Epigenetic modifications; Chemical stressors
url https://eprints.nottingham.ac.uk/79869/