Molecular approaches to the analysis of deformed wing virus replication and pathogenesis in the honey bee, <it>Apis mellifera</it>

Molecular approaches to the analysis of deformed wing virus replication and pathogenesis in the honey bee, <it>Apis mellifera</it>

<p>Abstract</p> <p>Background</p> <p>For years, the understanding of the pathogenetic mechanisms that underlie honey bee viral diseases has been severely hindered because of the lack of a cell culture system for virus propagation. As a result, it is very imperative to d...

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Main Authors: Pettis Jeffery S, Di Prisco Gennaro, Boncristiani Humberto F, Hamilton Michele, Chen Yan
Format: Article
Language:English
Published: BMC 2009-12-01
Series:Virology Journal
Online Access:http://www.virologyj.com/content/6/1/221
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spelling doaj-2bd81819fc444a3cb585dc1f3a88a0af2020-11-25T00:21:45ZengBMCVirology Journal1743-422X2009-12-016122110.1186/1743-422X-6-221Molecular approaches to the analysis of deformed wing virus replication and pathogenesis in the honey bee, <it>Apis mellifera</it>Pettis Jeffery SDi Prisco GennaroBoncristiani Humberto FHamilton MicheleChen Yan<p>Abstract</p> <p>Background</p> <p>For years, the understanding of the pathogenetic mechanisms that underlie honey bee viral diseases has been severely hindered because of the lack of a cell culture system for virus propagation. As a result, it is very imperative to develop new methods that would permit the <it>in vitro </it>pathogenesis study of honey bee viruses. The identification of virus replication is an important step towards the understanding of the pathogenesis process of viruses in their respective hosts. In the present study, we developed a strand-specific RT-PCR-based method for analysis of Deformed Wing Virus (DWV) replication in honey bees and in honey bee parasitic mites, <it>Varroa Destructor</it>.</p> <p>Results</p> <p>The results shows that the method developed in our study allows reliable identification of the virus replication and solves the problem of falsely-primed cDNA amplifications that commonly exists in the current system. Using TaqMan real-time quantitative RT-PCR incorporated with biotinylated primers and magnetic beads purification step, we characterized the replication and tissue tropism of DWV infection in honey bees. We provide evidence for DWV replication in the tissues of wings, head, thorax, legs, hemolymph, and gut of honey bees and also in Varroa mites.</p> <p>Conclusion</p> <p>The strategy reported in the present study forms a model system for studying bee virus replication, pathogenesis and immunity. This study should be a significant contribution to the goal of achieving a better understanding of virus pathogenesis in honey bees and to the design of appropriate control measures for bee populations at risk to virus infections.</p> http://www.virologyj.com/content/6/1/221
collection DOAJ
language English
format Article
sources DOAJ
author Pettis Jeffery S
Di Prisco Gennaro
Boncristiani Humberto F
Hamilton Michele
Chen Yan
spellingShingle Pettis Jeffery S
Di Prisco Gennaro
Boncristiani Humberto F
Hamilton Michele
Chen Yan
Molecular approaches to the analysis of deformed wing virus replication and pathogenesis in the honey bee, <it>Apis mellifera</it>
Virology Journal
author_facet Pettis Jeffery S
Di Prisco Gennaro
Boncristiani Humberto F
Hamilton Michele
Chen Yan
author_sort Pettis Jeffery S
title Molecular approaches to the analysis of deformed wing virus replication and pathogenesis in the honey bee, <it>Apis mellifera</it>
title_short Molecular approaches to the analysis of deformed wing virus replication and pathogenesis in the honey bee, <it>Apis mellifera</it>
title_full Molecular approaches to the analysis of deformed wing virus replication and pathogenesis in the honey bee, <it>Apis mellifera</it>
title_fullStr Molecular approaches to the analysis of deformed wing virus replication and pathogenesis in the honey bee, <it>Apis mellifera</it>
title_full_unstemmed Molecular approaches to the analysis of deformed wing virus replication and pathogenesis in the honey bee, <it>Apis mellifera</it>
title_sort molecular approaches to the analysis of deformed wing virus replication and pathogenesis in the honey bee, <it>apis mellifera</it>
publisher BMC
series Virology Journal
issn 1743-422X
publishDate 2009-12-01
description <p>Abstract</p> <p>Background</p> <p>For years, the understanding of the pathogenetic mechanisms that underlie honey bee viral diseases has been severely hindered because of the lack of a cell culture system for virus propagation. As a result, it is very imperative to develop new methods that would permit the <it>in vitro </it>pathogenesis study of honey bee viruses. The identification of virus replication is an important step towards the understanding of the pathogenesis process of viruses in their respective hosts. In the present study, we developed a strand-specific RT-PCR-based method for analysis of Deformed Wing Virus (DWV) replication in honey bees and in honey bee parasitic mites, <it>Varroa Destructor</it>.</p> <p>Results</p> <p>The results shows that the method developed in our study allows reliable identification of the virus replication and solves the problem of falsely-primed cDNA amplifications that commonly exists in the current system. Using TaqMan real-time quantitative RT-PCR incorporated with biotinylated primers and magnetic beads purification step, we characterized the replication and tissue tropism of DWV infection in honey bees. We provide evidence for DWV replication in the tissues of wings, head, thorax, legs, hemolymph, and gut of honey bees and also in Varroa mites.</p> <p>Conclusion</p> <p>The strategy reported in the present study forms a model system for studying bee virus replication, pathogenesis and immunity. This study should be a significant contribution to the goal of achieving a better understanding of virus pathogenesis in honey bees and to the design of appropriate control measures for bee populations at risk to virus infections.</p>
url http://www.virologyj.com/content/6/1/221
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