Harnessing sequencing data for porcine reproductive and respiratory syndrome virus (PRRSV): tracking genetic evolution dynamics and emerging sequences in US swine industry

Srijita Chandra; Guilherme Cezar; Kinath Rupasinghe; Edison Magalhães; Gustavo S. Silva; Marcelo Almeida; Bret Crim; Eric Burrough; Phillip Gauger; Darin Madson; Joseph Thomas; Michael Zeller; Jianqiang Zhang; Rodger Main; Albert Rovira; Mary Thurn; Paulo Lages; Cesar Corzo; Matthew Sturos; Kimberly VanderWaal; Hemant Naikare; Franco Matias-Ferreyra; Rob McGaughey; Jamie Retallick; Sara McReynolds; Jordan Gebhardt; Angela Pillatzki; Jon Greseth; Darren Kersey; Travis Clement; Jane Christopher-Hennings; Beth Thompson; Jonah Perkins; Melanie Prarat; Dennis Summers; Craig Bowen; Joseph Boyle; Kenitra Hendrix; James Lyons; Kelli Werling; Andreia G. Arruda; Mark Schwartz; Paul Yeske; Deborah Murray; Brigitte Mason; Peter Schneider; Samuel Copeland; Luc Dufresne; Daniel Boykin; Corrine Fruge; William Hollis; Rebecca Robbins; Thomas Petznick; Kurt Kuecker; Lauren Glowzenski; Megan Niederwerder; Xiaoqiu Huang; Daniel C.L. Linhares; Giovani Trevisan

doi:10.3389/fvets.2025.1571020

Harnessing sequencing data for porcine reproductive and respiratory syndrome virus (PRRSV): tracking genetic evolution dynamics and emerging sequences in US swine industry

Srijita Chandra, Guilherme Cezar, Kinath Rupasinghe, Edison Magalhães, Gustavo S. Silva, Marcelo Almeida, Bret Crim, Eric Burrough, Phillip Gauger, Darin Madson, Joseph Thomas, Michael Zeller, Jianqiang Zhang, Rodger Main, Albert Rovira, Mary Thurn, Paulo Lages, Cesar Corzo, Matthew Sturos, Kimberly VanderWaalHemant Naikare, Franco Matias-Ferreyra, Rob McGaughey, Jamie Retallick, Sara McReynolds, Jordan Gebhardt, Angela Pillatzki, Jon Greseth, Darren Kersey, Travis Clement, Jane Christopher-Hennings, Beth Thompson, Jonah Perkins, Melanie Prarat, Dennis Summers, Craig Bowen, Joseph Boyle, Kenitra Hendrix, James Lyons, Kelli Werling, Andreia G. Arruda, Mark Schwartz, Paul Yeske, Deborah Murray, Brigitte Mason, Peter Schneider, Samuel Copeland, Luc Dufresne, Daniel Boykin, Corrine Fruge, William Hollis, Rebecca Robbins, Thomas Petznick, Kurt Kuecker, Lauren Glowzenski, Megan Niederwerder, Xiaoqiu Huang, Daniel C.L. Linhares, Giovani Trevisan

Veterinary Population Medicine

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Porcine reproductive and respiratory syndrome virus (PRRSV) is the most important swine pathogen affecting the United States of America (USA), leading to significant economic losses. Despite advances in diagnostic testing, there remains a gap in understanding the genetic evolution of PRRSV, especially in tracking the emergence of novel sequences and their spread across different regions and production stages. This research addresses this gap by developing a systematic methodology for directly collecting and analyzing PRRSV ORF5 sequences from veterinary diagnostic laboratories. The study aimed to identify trends among collected sequences and emerging PRRSV sequences by integrating nucleotide sequence data with metadata, providing critical insights into their geographic distribution, collected specimens, swine age groups, lineages, variants, and restriction fragment length polymorphism (RFLP) patterns. As of December 2024, the database housed 115,643 PRRSV ORF5 sequences. Sublineages 1B, 1A, 1H, and 1C.5 were the major wild-type PRRSV sequences detected over time, whereas vaccine-like strains comprised mostly of sublineages 5A and 8A. A novel sequence detection system was implemented, categorizing sequences based on similarity thresholds, ambiguities, and length criteria, identifying 167 novel sequences for the period between 2010 and 2024, whereas only three had continued detection in the field over time, forming clusters of detection. The analysis of these novel sequences highlighted significant trends, including the dominance of grow-finish animals in sequence origin and the high number of detections of sublineage 5A. Production sites located in states with the largest swine inventory have contributed to the most frequent detection of new PRRSV strains. Additionally, the development of a web-based tool provides end users with the capability to search sequences similar to their query sequence, providing macroepidemiological information and genetic sequence features to support PRRSV management and control. Real-time PRRSV sequencing data analysis informs producers and veterinarians of any upcoming novel sequences and trends of detection. The findings are intended to enhance current surveillance efforts and support more effective strategies for managing PRRSV outbreaks, ultimately safeguarding animal health, economic sustainability in the swine industry, and ultimately contributing to national food production sovereignty through pork-derived products.

Original language	English (US)
Article number	1571020
Journal	Frontiers in Veterinary Science
Volume	12
DOIs	https://doi.org/10.3389/fvets.2025.1571020
State	Published - 2025

Bibliographical note

Publisher Copyright:
Copyright © 2025 Chandra, Cezar, Rupasinghe, Magalhães, Silva, Almeida, Crim, Burrough, Gauger, Madson, Thomas, Zeller, Zhang, Main, Rovira, Thurn, Lages, Corzo, Sturos, VanderWaal, Naikare, Matias-Ferreyra, McGaughey, Retallick, McReynolds, Gebhardt, Pillatzki, Greseth, Kersey, Clement, Christopher-Hennings, Thompson, Perkins, Prarat, Summers, Bowen, Boyle, Hendrix, Lyons, Werling, Arruda, Schwartz, Yeske, Murray, Mason, Schneider, Copeland, Dufresne, Boykin, Fruge, Hollis, Robbins, Petznick, Kuecker, Glowzenski, Niederwerder, Huang, Linhares and Trevisan.

Keywords

BLAST
PRRSV
database
epidemiology
genetics
surveillance

Publisher link

10.3389/fvets.2025.1571020

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Chandra, S., Cezar, G., Rupasinghe, K., Magalhães, E., Silva, G. S., Almeida, M., Crim, B., Burrough, E., Gauger, P., Madson, D., Thomas, J., Zeller, M., Zhang, J., Main, R., Rovira, A., Thurn, M., Lages, P., Corzo, C., Sturos, M., ... Trevisan, G. (2025). Harnessing sequencing data for porcine reproductive and respiratory syndrome virus (PRRSV): tracking genetic evolution dynamics and emerging sequences in US swine industry. Frontiers in Veterinary Science, 12, Article 1571020. https://doi.org/10.3389/fvets.2025.1571020

Chandra, S, Cezar, G, Rupasinghe, K, Magalhães, E, Silva, GS, Almeida, M, Crim, B, Burrough, E, Gauger, P, Madson, D, Thomas, J, Zeller, M, Zhang, J, Main, R, Rovira, A, Thurn, M, Lages, P, Corzo, C , Sturos, M , VanderWaal, K , Naikare, H, Matias-Ferreyra, F, McGaughey, R, Retallick, J, McReynolds, S, Gebhardt, J, Pillatzki, A, Greseth, J, Kersey, D, Clement, T, Christopher-Hennings, J, Thompson, B, Perkins, J, Prarat, M, Summers, D, Bowen, C, Boyle, J, Hendrix, K, Lyons, J, Werling, K, Arruda, AG, Schwartz, M, Yeske, P, Murray, D, Mason, B, Schneider, P, Copeland, S, Dufresne, L, Boykin, D, Fruge, C, Hollis, W, Robbins, R, Petznick, T, Kuecker, K, Glowzenski, L, Niederwerder, M, Huang, X, Linhares, DCL & Trevisan, G 2025, 'Harnessing sequencing data for porcine reproductive and respiratory syndrome virus (PRRSV): tracking genetic evolution dynamics and emerging sequences in US swine industry', Frontiers in Veterinary Science, vol. 12, 1571020. https://doi.org/10.3389/fvets.2025.1571020

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title = "Harnessing sequencing data for porcine reproductive and respiratory syndrome virus (PRRSV): tracking genetic evolution dynamics and emerging sequences in US swine industry",

abstract = "Porcine reproductive and respiratory syndrome virus (PRRSV) is the most important swine pathogen affecting the United States of America (USA), leading to significant economic losses. Despite advances in diagnostic testing, there remains a gap in understanding the genetic evolution of PRRSV, especially in tracking the emergence of novel sequences and their spread across different regions and production stages. This research addresses this gap by developing a systematic methodology for directly collecting and analyzing PRRSV ORF5 sequences from veterinary diagnostic laboratories. The study aimed to identify trends among collected sequences and emerging PRRSV sequences by integrating nucleotide sequence data with metadata, providing critical insights into their geographic distribution, collected specimens, swine age groups, lineages, variants, and restriction fragment length polymorphism (RFLP) patterns. As of December 2024, the database housed 115,643 PRRSV ORF5 sequences. Sublineages 1B, 1A, 1H, and 1C.5 were the major wild-type PRRSV sequences detected over time, whereas vaccine-like strains comprised mostly of sublineages 5A and 8A. A novel sequence detection system was implemented, categorizing sequences based on similarity thresholds, ambiguities, and length criteria, identifying 167 novel sequences for the period between 2010 and 2024, whereas only three had continued detection in the field over time, forming clusters of detection. The analysis of these novel sequences highlighted significant trends, including the dominance of grow-finish animals in sequence origin and the high number of detections of sublineage 5A. Production sites located in states with the largest swine inventory have contributed to the most frequent detection of new PRRSV strains. Additionally, the development of a web-based tool provides end users with the capability to search sequences similar to their query sequence, providing macroepidemiological information and genetic sequence features to support PRRSV management and control. Real-time PRRSV sequencing data analysis informs producers and veterinarians of any upcoming novel sequences and trends of detection. The findings are intended to enhance current surveillance efforts and support more effective strategies for managing PRRSV outbreaks, ultimately safeguarding animal health, economic sustainability in the swine industry, and ultimately contributing to national food production sovereignty through pork-derived products.",

keywords = "BLAST, PRRSV, database, epidemiology, genetics, surveillance",

author = "Srijita Chandra and Guilherme Cezar and Kinath Rupasinghe and Edison Magalh{\~a}es and Silva, \{Gustavo S.\} and Marcelo Almeida and Bret Crim and Eric Burrough and Phillip Gauger and Darin Madson and Joseph Thomas and Michael Zeller and Jianqiang Zhang and Rodger Main and Albert Rovira and Mary Thurn and Paulo Lages and Cesar Corzo and Matthew Sturos and Kimberly VanderWaal and Hemant Naikare and Franco Matias-Ferreyra and Rob McGaughey and Jamie Retallick and Sara McReynolds and Jordan Gebhardt and Angela Pillatzki and Jon Greseth and Darren Kersey and Travis Clement and Jane Christopher-Hennings and Beth Thompson and Jonah Perkins and Melanie Prarat and Dennis Summers and Craig Bowen and Joseph Boyle and Kenitra Hendrix and James Lyons and Kelli Werling and Arruda, \{Andreia G.\} and Mark Schwartz and Paul Yeske and Deborah Murray and Brigitte Mason and Peter Schneider and Samuel Copeland and Luc Dufresne and Daniel Boykin and Corrine Fruge and William Hollis and Rebecca Robbins and Thomas Petznick and Kurt Kuecker and Lauren Glowzenski and Megan Niederwerder and Xiaoqiu Huang and Linhares, \{Daniel C.L.\} and Giovani Trevisan",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 Chandra, Cezar, Rupasinghe, Magalh{\~a}es, Silva, Almeida, Crim, Burrough, Gauger, Madson, Thomas, Zeller, Zhang, Main, Rovira, Thurn, Lages, Corzo, Sturos, VanderWaal, Naikare, Matias-Ferreyra, McGaughey, Retallick, McReynolds, Gebhardt, Pillatzki, Greseth, Kersey, Clement, Christopher-Hennings, Thompson, Perkins, Prarat, Summers, Bowen, Boyle, Hendrix, Lyons, Werling, Arruda, Schwartz, Yeske, Murray, Mason, Schneider, Copeland, Dufresne, Boykin, Fruge, Hollis, Robbins, Petznick, Kuecker, Glowzenski, Niederwerder, Huang, Linhares and Trevisan.",

year = "2025",

doi = "10.3389/fvets.2025.1571020",

language = "English (US)",

volume = "12",

journal = "Frontiers in Veterinary Science",

issn = "2297-1769",

publisher = "Frontiers Media SA",

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TY - JOUR

T1 - Harnessing sequencing data for porcine reproductive and respiratory syndrome virus (PRRSV)

T2 - tracking genetic evolution dynamics and emerging sequences in US swine industry

AU - Chandra, Srijita

AU - Cezar, Guilherme

AU - Rupasinghe, Kinath

AU - Magalhães, Edison

AU - Silva, Gustavo S.

AU - Almeida, Marcelo

AU - Crim, Bret

AU - Burrough, Eric

AU - Gauger, Phillip

AU - Madson, Darin

AU - Thomas, Joseph

AU - Zeller, Michael

AU - Zhang, Jianqiang

AU - Main, Rodger

AU - Rovira, Albert

AU - Thurn, Mary

AU - Lages, Paulo

AU - Corzo, Cesar

AU - Sturos, Matthew

AU - VanderWaal, Kimberly

AU - Naikare, Hemant

AU - Matias-Ferreyra, Franco

AU - McGaughey, Rob

AU - Retallick, Jamie

AU - McReynolds, Sara

AU - Gebhardt, Jordan

AU - Pillatzki, Angela

AU - Greseth, Jon

AU - Kersey, Darren

AU - Clement, Travis

AU - Christopher-Hennings, Jane

AU - Thompson, Beth

AU - Perkins, Jonah

AU - Prarat, Melanie

AU - Summers, Dennis

AU - Bowen, Craig

AU - Boyle, Joseph

AU - Hendrix, Kenitra

AU - Lyons, James

AU - Werling, Kelli

AU - Arruda, Andreia G.

AU - Schwartz, Mark

AU - Yeske, Paul

AU - Murray, Deborah

AU - Mason, Brigitte

AU - Schneider, Peter

AU - Copeland, Samuel

AU - Dufresne, Luc

AU - Boykin, Daniel

AU - Fruge, Corrine

AU - Hollis, William

AU - Robbins, Rebecca

AU - Petznick, Thomas

AU - Kuecker, Kurt

AU - Glowzenski, Lauren

AU - Niederwerder, Megan

AU - Huang, Xiaoqiu

AU - Linhares, Daniel C.L.

AU - Trevisan, Giovani

N1 - Publisher Copyright: Copyright © 2025 Chandra, Cezar, Rupasinghe, Magalhães, Silva, Almeida, Crim, Burrough, Gauger, Madson, Thomas, Zeller, Zhang, Main, Rovira, Thurn, Lages, Corzo, Sturos, VanderWaal, Naikare, Matias-Ferreyra, McGaughey, Retallick, McReynolds, Gebhardt, Pillatzki, Greseth, Kersey, Clement, Christopher-Hennings, Thompson, Perkins, Prarat, Summers, Bowen, Boyle, Hendrix, Lyons, Werling, Arruda, Schwartz, Yeske, Murray, Mason, Schneider, Copeland, Dufresne, Boykin, Fruge, Hollis, Robbins, Petznick, Kuecker, Glowzenski, Niederwerder, Huang, Linhares and Trevisan.

PY - 2025

Y1 - 2025

N2 - Porcine reproductive and respiratory syndrome virus (PRRSV) is the most important swine pathogen affecting the United States of America (USA), leading to significant economic losses. Despite advances in diagnostic testing, there remains a gap in understanding the genetic evolution of PRRSV, especially in tracking the emergence of novel sequences and their spread across different regions and production stages. This research addresses this gap by developing a systematic methodology for directly collecting and analyzing PRRSV ORF5 sequences from veterinary diagnostic laboratories. The study aimed to identify trends among collected sequences and emerging PRRSV sequences by integrating nucleotide sequence data with metadata, providing critical insights into their geographic distribution, collected specimens, swine age groups, lineages, variants, and restriction fragment length polymorphism (RFLP) patterns. As of December 2024, the database housed 115,643 PRRSV ORF5 sequences. Sublineages 1B, 1A, 1H, and 1C.5 were the major wild-type PRRSV sequences detected over time, whereas vaccine-like strains comprised mostly of sublineages 5A and 8A. A novel sequence detection system was implemented, categorizing sequences based on similarity thresholds, ambiguities, and length criteria, identifying 167 novel sequences for the period between 2010 and 2024, whereas only three had continued detection in the field over time, forming clusters of detection. The analysis of these novel sequences highlighted significant trends, including the dominance of grow-finish animals in sequence origin and the high number of detections of sublineage 5A. Production sites located in states with the largest swine inventory have contributed to the most frequent detection of new PRRSV strains. Additionally, the development of a web-based tool provides end users with the capability to search sequences similar to their query sequence, providing macroepidemiological information and genetic sequence features to support PRRSV management and control. Real-time PRRSV sequencing data analysis informs producers and veterinarians of any upcoming novel sequences and trends of detection. The findings are intended to enhance current surveillance efforts and support more effective strategies for managing PRRSV outbreaks, ultimately safeguarding animal health, economic sustainability in the swine industry, and ultimately contributing to national food production sovereignty through pork-derived products.

AB - Porcine reproductive and respiratory syndrome virus (PRRSV) is the most important swine pathogen affecting the United States of America (USA), leading to significant economic losses. Despite advances in diagnostic testing, there remains a gap in understanding the genetic evolution of PRRSV, especially in tracking the emergence of novel sequences and their spread across different regions and production stages. This research addresses this gap by developing a systematic methodology for directly collecting and analyzing PRRSV ORF5 sequences from veterinary diagnostic laboratories. The study aimed to identify trends among collected sequences and emerging PRRSV sequences by integrating nucleotide sequence data with metadata, providing critical insights into their geographic distribution, collected specimens, swine age groups, lineages, variants, and restriction fragment length polymorphism (RFLP) patterns. As of December 2024, the database housed 115,643 PRRSV ORF5 sequences. Sublineages 1B, 1A, 1H, and 1C.5 were the major wild-type PRRSV sequences detected over time, whereas vaccine-like strains comprised mostly of sublineages 5A and 8A. A novel sequence detection system was implemented, categorizing sequences based on similarity thresholds, ambiguities, and length criteria, identifying 167 novel sequences for the period between 2010 and 2024, whereas only three had continued detection in the field over time, forming clusters of detection. The analysis of these novel sequences highlighted significant trends, including the dominance of grow-finish animals in sequence origin and the high number of detections of sublineage 5A. Production sites located in states with the largest swine inventory have contributed to the most frequent detection of new PRRSV strains. Additionally, the development of a web-based tool provides end users with the capability to search sequences similar to their query sequence, providing macroepidemiological information and genetic sequence features to support PRRSV management and control. Real-time PRRSV sequencing data analysis informs producers and veterinarians of any upcoming novel sequences and trends of detection. The findings are intended to enhance current surveillance efforts and support more effective strategies for managing PRRSV outbreaks, ultimately safeguarding animal health, economic sustainability in the swine industry, and ultimately contributing to national food production sovereignty through pork-derived products.

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KW - PRRSV

KW - database

KW - epidemiology

KW - genetics

KW - surveillance

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JO - Frontiers in Veterinary Science

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M1 - 1571020

ER -

Harnessing sequencing data for porcine reproductive and respiratory syndrome virus (PRRSV): tracking genetic evolution dynamics and emerging sequences in US swine industry

Abstract

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