Elucidating cryptic dynamics of Theileria communities in African buffalo using a high‐throughput sequencing informatics approach

Elucidating cryptic dynamics of Theileria communities in African buffalo using a high‐throughput sequencing informatics approach

Abstract Increasing access to next‐generation sequencing (NGS) technologies is revolutionizing the life sciences. In disease ecology, NGS‐based methods have the potential to provide higher‐resolution data on communities of parasites found in individual hosts as well as host populations. Here, we dem...

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Main Authors: Caroline K. Glidden, Anson V. Koehler, Ross S. Hall, Muhammad A. Saeed, Mauricio Coppo, Brianna R. Beechler, Bryan Charleston, Robin B. Gasser, Anna E. Jolles, Abdul Jabbar
Format: Article
Language:English
Published: Wiley 2020-01-01
Series:Ecology and Evolution
Subjects:
disease ecology
high‐throughput amplicon sequencing
next‐generation sequencing
parasite community ecology
Online Access:https://doi.org/10.1002/ece3.5758
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spelling doaj-0f77f6c18f4b4a9c8513139a60cb2c3d2021-04-02T12:32:34ZengWileyEcology and Evolution2045-77582020-01-01101708010.1002/ece3.5758Elucidating cryptic dynamics of Theileria communities in African buffalo using a high‐throughput sequencing informatics approachCaroline K. Glidden0Anson V. Koehler1Ross S. Hall2Muhammad A. Saeed3Mauricio Coppo4Brianna R. Beechler5Bryan Charleston6Robin B. Gasser7Anna E. Jolles8Abdul Jabbar9Department of Integrative Biology Oregon State University Corvallis OR USADepartment of Veterinary Biosciences Melbourne Veterinary School University of Melbourne Werribee Vic. AustraliaDepartment of Veterinary Biosciences Melbourne Veterinary School University of Melbourne Werribee Vic. AustraliaDepartment of Veterinary Biosciences Melbourne Veterinary School University of Melbourne Werribee Vic. AustraliaDepartment of Veterinary Biosciences Melbourne Veterinary School University of Melbourne Werribee Vic. AustraliaCarlson College of Veterinary Medicine Oregon State University Corvallis OR USAThe Pirbright Institute Woking UKCarlson College of Veterinary Medicine Oregon State University Corvallis OR USADepartment of Integrative Biology Oregon State University Corvallis OR USADepartment of Veterinary Biosciences Melbourne Veterinary School University of Melbourne Werribee Vic. AustraliaAbstract Increasing access to next‐generation sequencing (NGS) technologies is revolutionizing the life sciences. In disease ecology, NGS‐based methods have the potential to provide higher‐resolution data on communities of parasites found in individual hosts as well as host populations. Here, we demonstrate how a novel analytical method, utilizing high‐throughput sequencing of PCR amplicons, can be used to explore variation in blood‐borne parasite (Theileria—Apicomplexa: Piroplasmida) communities of African buffalo at higher resolutions than has been obtained with conventional molecular tools. Results reveal temporal patterns of synchronized and opposite fluctuations of prevalence and relative abundance of Theileria spp. within the host population, suggesting heterogeneous transmission across taxa. Furthermore, we show that the community composition of Theileria spp. and their subtypes varies considerably between buffalo, with differences in composition reflected in mean and variance of overall parasitemia, thereby showing potential to elucidate previously unexplained contrasts in infection outcomes for host individuals. Importantly, our methods are generalizable as they can be utilized to describe blood‐borne parasite communities in any host species. Furthermore, our methodological framework can be adapted to any parasite system given the appropriate genetic marker. The findings of this study demonstrate how a novel NGS‐based analytical approach can provide fine‐scale, quantitative data, unlocking opportunities for discovery in disease ecology.https://doi.org/10.1002/ece3.5758disease ecologyhigh‐throughput amplicon sequencingnext‐generation sequencingparasite community ecology
collection DOAJ
language English
format Article
sources DOAJ
author Caroline K. Glidden
Anson V. Koehler
Ross S. Hall
Muhammad A. Saeed
Mauricio Coppo
Brianna R. Beechler
Bryan Charleston
Robin B. Gasser
Anna E. Jolles
Abdul Jabbar
spellingShingle Caroline K. Glidden
Anson V. Koehler
Ross S. Hall
Muhammad A. Saeed
Mauricio Coppo
Brianna R. Beechler
Bryan Charleston
Robin B. Gasser
Anna E. Jolles
Abdul Jabbar
Elucidating cryptic dynamics of Theileria communities in African buffalo using a high‐throughput sequencing informatics approach
Ecology and Evolution
disease ecology
high‐throughput amplicon sequencing
next‐generation sequencing
parasite community ecology
author_facet Caroline K. Glidden
Anson V. Koehler
Ross S. Hall
Muhammad A. Saeed
Mauricio Coppo
Brianna R. Beechler
Bryan Charleston
Robin B. Gasser
Anna E. Jolles
Abdul Jabbar
author_sort Caroline K. Glidden
title Elucidating cryptic dynamics of Theileria communities in African buffalo using a high‐throughput sequencing informatics approach
title_short Elucidating cryptic dynamics of Theileria communities in African buffalo using a high‐throughput sequencing informatics approach
title_full Elucidating cryptic dynamics of Theileria communities in African buffalo using a high‐throughput sequencing informatics approach
title_fullStr Elucidating cryptic dynamics of Theileria communities in African buffalo using a high‐throughput sequencing informatics approach
title_full_unstemmed Elucidating cryptic dynamics of Theileria communities in African buffalo using a high‐throughput sequencing informatics approach
title_sort elucidating cryptic dynamics of theileria communities in african buffalo using a high‐throughput sequencing informatics approach
publisher Wiley
series Ecology and Evolution
issn 2045-7758
publishDate 2020-01-01
description Abstract Increasing access to next‐generation sequencing (NGS) technologies is revolutionizing the life sciences. In disease ecology, NGS‐based methods have the potential to provide higher‐resolution data on communities of parasites found in individual hosts as well as host populations. Here, we demonstrate how a novel analytical method, utilizing high‐throughput sequencing of PCR amplicons, can be used to explore variation in blood‐borne parasite (Theileria—Apicomplexa: Piroplasmida) communities of African buffalo at higher resolutions than has been obtained with conventional molecular tools. Results reveal temporal patterns of synchronized and opposite fluctuations of prevalence and relative abundance of Theileria spp. within the host population, suggesting heterogeneous transmission across taxa. Furthermore, we show that the community composition of Theileria spp. and their subtypes varies considerably between buffalo, with differences in composition reflected in mean and variance of overall parasitemia, thereby showing potential to elucidate previously unexplained contrasts in infection outcomes for host individuals. Importantly, our methods are generalizable as they can be utilized to describe blood‐borne parasite communities in any host species. Furthermore, our methodological framework can be adapted to any parasite system given the appropriate genetic marker. The findings of this study demonstrate how a novel NGS‐based analytical approach can provide fine‐scale, quantitative data, unlocking opportunities for discovery in disease ecology.
topic disease ecology
high‐throughput amplicon sequencing
next‐generation sequencing
parasite community ecology
url https://doi.org/10.1002/ece3.5758
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