Bluetongue Research at a Crossroads: Modern Genomics Tools Can Pave the Way to New Insights

Jennifer Kopanke; Molly Carpenter; Justin Lee; Kirsten Reed; Case Rodgers; Mollie Burton; Kierra Lovett; Joseph A. Westrich; Erin Mcnulty; Emily Mcdermott; Carly Barbera; Sean Cavany; Jason R. Rohr; T. Alex Perkins; Candace K. Mathiason; Mark Stenglein; Christie Mayo

doi:10.1146/annurev-animal-051721-023724

Bluetongue Research at a Crossroads: Modern Genomics Tools Can Pave the Way to New Insights

Jennifer Kopanke, Molly Carpenter, Justin Lee, Kirsten Reed, Case Rodgers, Mollie Burton, Kierra Lovett, Joseph A. Westrich, Erin Mcnulty, Emily Mcdermott, Carly Barbera, Sean Cavany, Jason R. Rohr, T. Alex Perkins, Candace K. Mathiason, Mark Stenglein, Christie Mayo

Research output: Contribution to journal › Review article › peer-review

4 Scopus citations

Abstract

Bluetongue virus (BTV) is an arthropod-borne, segmented double-stranded RNA virus that can cause severe disease in both wild and domestic ruminants. BTV evolves via several key mechanisms, including the accumulation of mutations over time and the reassortment of genome segments.Additionally, BTV must maintain fitness in two disparate hosts, the insect vector and the ruminant. The specific features of viral adaptation in each host that permit host-switching are poorly characterized. Limited field studies and experimental work have alluded to the presence of these phenomena at work, but our understanding of the factors that drive or constrain BTV's genetic diversification remains incomplete. Current research leveraging novel approaches and whole genome sequencing applications promises to improve our understanding of BTV's evolution, ultimately contributing to the development of better predictive models and management strategies to reduce future impacts of bluetongue epizootics.

Original language	English (US)
Pages (from-to)	303-324
Number of pages	22
Journal	Annual Review of Animal Biosciences
Volume	10
DOIs	https://doi.org/10.1146/annurev-animal-051721-023724
State	Published - Feb 2022
Externally published	Yes

Keywords

Culicoides
bluetongue virus
ecology
epidemiology
evolution
reassortment

ASJC Scopus subject areas

Biotechnology
Animal Science and Zoology
Genetics
General Veterinary

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10.1146/annurev-animal-051721-023724

Cite this

Kopanke, J., Carpenter, M., Lee, J., Reed, K., Rodgers, C., Burton, M., Lovett, K., Westrich, J. A., Mcnulty, E., Mcdermott, E., Barbera, C., Cavany, S., Rohr, J. R., Perkins, T. A., Mathiason, C. K., Stenglein, M., & Mayo, C. (2022). Bluetongue Research at a Crossroads: Modern Genomics Tools Can Pave the Way to New Insights. Annual Review of Animal Biosciences, 10, 303-324. https://doi.org/10.1146/annurev-animal-051721-023724

Kopanke, J, Carpenter, M, Lee, J, Reed, K, Rodgers, C, Burton, M, Lovett, K, Westrich, JA, Mcnulty, E, Mcdermott, E, Barbera, C, Cavany, S, Rohr, JR, Perkins, TA, Mathiason, CK, Stenglein, M & Mayo, C 2022, 'Bluetongue Research at a Crossroads: Modern Genomics Tools Can Pave the Way to New Insights', Annual Review of Animal Biosciences, vol. 10, pp. 303-324. https://doi.org/10.1146/annurev-animal-051721-023724

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abstract = "Bluetongue virus (BTV) is an arthropod-borne, segmented double-stranded RNA virus that can cause severe disease in both wild and domestic ruminants. BTV evolves via several key mechanisms, including the accumulation of mutations over time and the reassortment of genome segments.Additionally, BTV must maintain fitness in two disparate hosts, the insect vector and the ruminant. The specific features of viral adaptation in each host that permit host-switching are poorly characterized. Limited field studies and experimental work have alluded to the presence of these phenomena at work, but our understanding of the factors that drive or constrain BTV's genetic diversification remains incomplete. Current research leveraging novel approaches and whole genome sequencing applications promises to improve our understanding of BTV's evolution, ultimately contributing to the development of better predictive models and management strategies to reduce future impacts of bluetongue epizootics.",

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author = "Jennifer Kopanke and Molly Carpenter and Justin Lee and Kirsten Reed and Case Rodgers and Mollie Burton and Kierra Lovett and Westrich, {Joseph A.} and Erin Mcnulty and Emily Mcdermott and Carly Barbera and Sean Cavany and Rohr, {Jason R.} and Perkins, {T. Alex} and Mathiason, {Candace K.} and Mark Stenglein and Christie Mayo",

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AU - Rodgers, Case

AU - Burton, Mollie

AU - Lovett, Kierra

AU - Westrich, Joseph A.

AU - Mcnulty, Erin

AU - Mcdermott, Emily

AU - Barbera, Carly

AU - Cavany, Sean

AU - Rohr, Jason R.

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AU - Mathiason, Candace K.

AU - Stenglein, Mark

AU - Mayo, Christie

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AB - Bluetongue virus (BTV) is an arthropod-borne, segmented double-stranded RNA virus that can cause severe disease in both wild and domestic ruminants. BTV evolves via several key mechanisms, including the accumulation of mutations over time and the reassortment of genome segments.Additionally, BTV must maintain fitness in two disparate hosts, the insect vector and the ruminant. The specific features of viral adaptation in each host that permit host-switching are poorly characterized. Limited field studies and experimental work have alluded to the presence of these phenomena at work, but our understanding of the factors that drive or constrain BTV's genetic diversification remains incomplete. Current research leveraging novel approaches and whole genome sequencing applications promises to improve our understanding of BTV's evolution, ultimately contributing to the development of better predictive models and management strategies to reduce future impacts of bluetongue epizootics.

KW - Culicoides

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KW - epidemiology

KW - evolution

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Bluetongue Research at a Crossroads: Modern Genomics Tools Can Pave the Way to New Insights

Abstract

Keywords

ASJC Scopus subject areas

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