A Targeted Sequencing Assay for Serotyping Escherichia coli Using AgriSeq Technology

The gold standard method for serotyping Escherichia coli has relied on antisera-based typing of the O- and H-antigens, which is labor intensive and often unreliable. In the post-genomic era, sequence-based assays are potentially faster to provide results, could combine O-serogrouping and H-typing in...

Descripción completa

Detalles Bibliográficos
Autores principales: Elder, Jacob R., Fratamico, Pina M., Liu, Yanhong, Needleman, David S., Bagi, Lori, Tebbs, Robert, Allred, Adam, Siddavatam, Prasad, Suren, Haktan, Gujjula, Krishna Reddy, DebRoy, Chitrita, Dudley, Edward G., Yan, Xianghe
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2021
Materias:
Microbiology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7844058/
https://www.ncbi.nlm.nih.gov/pubmed/33519788
http://dx.doi.org/10.3389/fmicb.2020.627997
_version_ 1783644260026810368
author Elder, Jacob R.
Fratamico, Pina M.
Liu, Yanhong
Needleman, David S.
Bagi, Lori
Tebbs, Robert
Allred, Adam
Siddavatam, Prasad
Suren, Haktan
Gujjula, Krishna Reddy
DebRoy, Chitrita
Dudley, Edward G.
Yan, Xianghe
author_facet Elder, Jacob R.
Fratamico, Pina M.
Liu, Yanhong
Needleman, David S.
Bagi, Lori
Tebbs, Robert
Allred, Adam
Siddavatam, Prasad
Suren, Haktan
Gujjula, Krishna Reddy
DebRoy, Chitrita
Dudley, Edward G.
Yan, Xianghe
author_sort Elder, Jacob R.
collection PubMed
description The gold standard method for serotyping Escherichia coli has relied on antisera-based typing of the O- and H-antigens, which is labor intensive and often unreliable. In the post-genomic era, sequence-based assays are potentially faster to provide results, could combine O-serogrouping and H-typing in a single test, and could simultaneously screen for the presence of other genetic markers of interest such as virulence factors. Whole genome sequencing is one approach; however, this method has limited multiplexing capabilities, and only a small fraction of the sequence is informative for subtyping or identifying virulence potential. A targeted, sequence-based assay and accompanying software for data analysis would be a great improvement over the currently available methods for serotyping. The purpose of this study was to develop a high-throughput, molecular method for serotyping E. coli by sequencing the genes that are required for production of O- and H-antigens, as well as to develop software for data analysis and serotype identification. To expand the utility of the assay, targets for the virulence factors, Shiga toxins (stx(1), and stx(2)) and intimin (eae) were included. To validate the assay, genomic DNA was extracted from O-serogroup and H-type standard strains and from Shiga toxin-producing E. coli, the targeted regions were amplified, and then sequencing libraries were prepared from the amplified products followed by sequencing of the libraries on the Ion S5™ sequencer. The resulting sequence files were analyzed via the SeroType Caller™ software for identification of O-serogroup, H-type, and presence of stx(1), stx(2), and eae. We successfully identified 169 O-serogroups and 41 H-types. The assay also routinely detected the presence of stx(1a,c,d) (3 of 3 strains), stx(2c−e,g) (8 of 8 strains), stx(2f) (1 strain), and eae (6 of 6 strains). Taken together, the high-throughput, sequence-based method presented here is a reliable alternative to antisera-based serotyping methods for E. coli.
format Online
Article
Text
id pubmed-7844058
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher Frontiers Media S.A.
record_format MEDLINE/PubMed
spelling pubmed-78440582021-01-30 A Targeted Sequencing Assay for Serotyping Escherichia coli Using AgriSeq Technology Elder, Jacob R. Fratamico, Pina M. Liu, Yanhong Needleman, David S. Bagi, Lori Tebbs, Robert Allred, Adam Siddavatam, Prasad Suren, Haktan Gujjula, Krishna Reddy DebRoy, Chitrita Dudley, Edward G. Yan, Xianghe Front Microbiol Microbiology The gold standard method for serotyping Escherichia coli has relied on antisera-based typing of the O- and H-antigens, which is labor intensive and often unreliable. In the post-genomic era, sequence-based assays are potentially faster to provide results, could combine O-serogrouping and H-typing in a single test, and could simultaneously screen for the presence of other genetic markers of interest such as virulence factors. Whole genome sequencing is one approach; however, this method has limited multiplexing capabilities, and only a small fraction of the sequence is informative for subtyping or identifying virulence potential. A targeted, sequence-based assay and accompanying software for data analysis would be a great improvement over the currently available methods for serotyping. The purpose of this study was to develop a high-throughput, molecular method for serotyping E. coli by sequencing the genes that are required for production of O- and H-antigens, as well as to develop software for data analysis and serotype identification. To expand the utility of the assay, targets for the virulence factors, Shiga toxins (stx(1), and stx(2)) and intimin (eae) were included. To validate the assay, genomic DNA was extracted from O-serogroup and H-type standard strains and from Shiga toxin-producing E. coli, the targeted regions were amplified, and then sequencing libraries were prepared from the amplified products followed by sequencing of the libraries on the Ion S5™ sequencer. The resulting sequence files were analyzed via the SeroType Caller™ software for identification of O-serogroup, H-type, and presence of stx(1), stx(2), and eae. We successfully identified 169 O-serogroups and 41 H-types. The assay also routinely detected the presence of stx(1a,c,d) (3 of 3 strains), stx(2c−e,g) (8 of 8 strains), stx(2f) (1 strain), and eae (6 of 6 strains). Taken together, the high-throughput, sequence-based method presented here is a reliable alternative to antisera-based serotyping methods for E. coli. Frontiers Media S.A. 2021-01-15 /pmc/articles/PMC7844058/ /pubmed/33519788 http://dx.doi.org/10.3389/fmicb.2020.627997 Text en Copyright © 2021 Elder, Fratamico, Liu, Needleman, Bagi, Tebbs, Allred, Siddavatam, Suren, Gujjula, DebRoy, Dudley and Yan. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Microbiology
Elder, Jacob R.
Fratamico, Pina M.
Liu, Yanhong
Needleman, David S.
Bagi, Lori
Tebbs, Robert
Allred, Adam
Siddavatam, Prasad
Suren, Haktan
Gujjula, Krishna Reddy
DebRoy, Chitrita
Dudley, Edward G.
Yan, Xianghe
A Targeted Sequencing Assay for Serotyping Escherichia coli Using AgriSeq Technology
title A Targeted Sequencing Assay for Serotyping Escherichia coli Using AgriSeq Technology
title_full A Targeted Sequencing Assay for Serotyping Escherichia coli Using AgriSeq Technology
title_fullStr A Targeted Sequencing Assay for Serotyping Escherichia coli Using AgriSeq Technology
title_full_unstemmed A Targeted Sequencing Assay for Serotyping Escherichia coli Using AgriSeq Technology
title_short A Targeted Sequencing Assay for Serotyping Escherichia coli Using AgriSeq Technology
title_sort targeted sequencing assay for serotyping escherichia coli using agriseq technology
topic Microbiology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7844058/
https://www.ncbi.nlm.nih.gov/pubmed/33519788
http://dx.doi.org/10.3389/fmicb.2020.627997
work_keys_str_mv AT elderjacobr atargetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT fratamicopinam atargetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT liuyanhong atargetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT needlemandavids atargetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT bagilori atargetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT tebbsrobert atargetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT allredadam atargetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT siddavatamprasad atargetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT surenhaktan atargetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT gujjulakrishnareddy atargetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT debroychitrita atargetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT dudleyedwardg atargetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT yanxianghe atargetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT elderjacobr targetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT fratamicopinam targetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT liuyanhong targetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT needlemandavids targetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT bagilori targetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT tebbsrobert targetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT allredadam targetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT siddavatamprasad targetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT surenhaktan targetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT gujjulakrishnareddy targetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT debroychitrita targetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT dudleyedwardg targetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology
AT yanxianghe targetedsequencingassayforserotypingescherichiacoliusingagriseqtechnology

Ejemplares similares