Visualizing variation within global pneumococcal sequence clusters (GPSCS) and country population snapshots to contextualize pneumococcal isolates

Rebecca A. Gladstone; Stephanie W. Lo; Richard Goater; Corin Yeats; Ben Taylor; James Hadfield; John A. Lees; Nicholas J. Croucher; Andries J. van Tonder; Leon J. Bentley; Fu Xiang Quah; Anne J. Blaschke; Nicole L. Pershing; Carrie L. Byington; Veeraraghavan Balaji; Waleria Hryniewicz; Betuel Sigauque; K. L. Ravikumar; Samanta Cristine Grassi Almeida; Theresa J. Ochoa; Pak Leung Ho; Mignon du Plessis; Kedibone M. Ndlangisa; Jennifer E. Cornick; Brenda Kwambana-Adams; Rachel Benisty; Susan A. Nzenze; Shabir A. Madhi; Paulina A. Hawkins; Andrew J. Pollard; Dean B. Everett; Martin Antonio; Ron Dagan; Keith P. Klugman; Anne von Gottberg; Benjamin J. Metcalf; Yuan Li; Bernard W. Beall; Lesley McGee; Robert F. Breiman; David M. Aanensen; Stephen D. Bentley; Patrick E. Akpaka; Krow Ampofo; Houria Belabbès; Godfrey Bigogo; Abdullah W. Brooks; Philip E. Carter; Stuart C. Clarke; Alejandra Corso; Maria Cristina de Cunto Brandileone; Alexander Davydov; Idrissa Diawara; Sanjay Doiphode; Ekaterina Egorova; Naima Elmdaghri; Özgen Köseoglu Eser; Diego Faccone; Rebecca Ford; Paula Gagetti; Noga Givon-Lavi; Md Hasanuzzaman; Kristina G. Hulten; Margaret Ip; Aurelie Kapusta; Rama Kandasamy; Tamara Kastrin; Jeremy Keenan; Pierra Y. Law; Deborah Lehmann; Jennifer Moïsi; Helio Mucavele; Michele Nurse-Lucas; Stephen K. Obaro; Metka Paragi; Ewa Sadowy; Samir K. Saha; Eric Sampane-Donkor; Shamala Devi Sekaran; Sadia Shakoor; Shrijana Shrestha; Anna Skoczynska; Soo Ko; Somporn Srifuengfung; Peggy Estelle Tientcheu; Leonid Titov; Paul Turner; Yulia Urban; Jennifer Verani; Elena Voropaeva; Nicole Wolter

doi:10.1099/mgen.0.000357

Visualizing variation within global pneumococcal sequence clusters (GPSCS) and country population snapshots to contextualize pneumococcal isolates

Rebecca A. Gladstone, Stephanie W. Lo, Richard Goater, Corin Yeats, Ben Taylor, James Hadfield, John A. Lees, Nicholas J. Croucher, Andries J. van Tonder, Leon J. Bentley, Fu Xiang Quah, Anne J. Blaschke, Nicole L. Pershing, Carrie L. Byington, Veeraraghavan Balaji, Waleria Hryniewicz, Betuel Sigauque, K. L. Ravikumar, Samanta Cristine Grassi Almeida, Theresa J. OchoaPak Leung Ho, Mignon du Plessis, Kedibone M. Ndlangisa, Jennifer E. Cornick, Brenda Kwambana-Adams, Rachel Benisty, Susan A. Nzenze, Shabir A. Madhi, Paulina A. Hawkins, Andrew J. Pollard, Dean B. Everett, Martin Antonio, Ron Dagan, Keith P. Klugman, Anne von Gottberg, Benjamin J. Metcalf, Yuan Li, Bernard W. Beall, Lesley McGee, Robert F. Breiman, David M. Aanensen, Stephen D. Bentley, Patrick E. Akpaka, Krow Ampofo, Houria Belabbès, Godfrey Bigogo, Abdullah W. Brooks, Philip E. Carter, Stuart C. Clarke, Alejandra Corso, Maria Cristina de Cunto Brandileone, Alexander Davydov, Idrissa Diawara, Sanjay Doiphode, Ekaterina Egorova, Naima Elmdaghri, Özgen Köseoglu Eser, Diego Faccone, Rebecca Ford, Paula Gagetti, Noga Givon-Lavi, Md Hasanuzzaman, Kristina G. Hulten, Margaret Ip, Aurelie Kapusta, Rama Kandasamy, Tamara Kastrin, Jeremy Keenan, Pierra Y. Law, Deborah Lehmann, Jennifer Moïsi, Helio Mucavele, Michele Nurse-Lucas, Stephen K. Obaro, Metka Paragi, Ewa Sadowy, Samir K. Saha, Eric Sampane-Donkor, Shamala Devi Sekaran, Sadia Shakoor, Shrijana Shrestha, Anna Skoczynska, Soo Ko, Somporn Srifuengfung, Peggy Estelle Tientcheu, Leonid Titov, Paul Turner, Yulia Urban, Jennifer Verani, Elena Voropaeva, Nicole Wolter

Bloomberg School of Public Health

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

6 Scopus citations

Abstract

Knowledge of pneumococcal lineages, their geographic distribution and antibiotic resistance patterns, can give insights into global pneumococcal disease. We provide interactive bioinformatic outputs to explore such topics, aiming to increase dissemi-nation of genomic insights to the wider community, without the need for specialist training. We prepared 12 country-specific phylogenetic snapshots, and international phylogenetic snapshots of 73 common Global Pneumococcal Sequence Clusters (GPSCs) previously defined using PopPUNK, and present them in Microreact. Gene presence and absence defined using Roary, and recombination profiles derived from Gubbins are presented in Phandango for each GPSC. Temporal phylogenetic signal was assessed for each GPSC using BactDating. We provide examples of how such resources can be used. In our example use of a country-specific phylogenetic snapshot we determined that serotype 14 was observed in nine unrelated genetic backgrounds in South Africa. The international phylogenetic snapshot of GPSC9, in which most serotype 14 isolates from South Africa were observed, highlights that there were three independent sub-clusters represented by South African serotype 14 isolates. We estimated from the GPSC9-dated tree that the sub-clusters were each established in South Africa during the 1980s. We show how recombination plots allowed the identification of a 20 kb recombination spanning the capsular polysaccharide locus within GPSC97. This was consistent with a switch from serotype 6A to 19A estimated to have occured in the 1990s from the GPSC97-dated tree. Plots of gene presence/absence of resistance genes (tet, erm, cat) across the GPSC23 phylogeny were consistent with acquisition of a composite transposon. We estimated from the GPSC23-dated tree that the acquisition occurred between 1953 and 1975. Finally, we demonstrate the assignment of GPSC31 to 17 externally generated pneumococcal serotype 1 assemblies from Utah via Pathogenwatch. Most of the Utah isolates clustered within GPSC31 in a USA-specific clade with the most recent common ancestor estimated between 1958 and 1981. The resources we have provided can be used to explore to data, test hypothesis and generate new hypotheses. The accessible assignment of GPSCs allows others to contextualize their own collections beyond the data presented here.

Original language	English (US)
Article number	000357
Pages (from-to)	1-13
Number of pages	13
Journal	Microbial genomics
Volume	6
Issue number	5
DOIs	https://doi.org/10.1099/mgen.0.000357
State	Published - 2020

Keywords

Antibiotic resistance
Pangenome
Phylogenetic dating
Pneumococcal
Population structure
Recombination
Streptococcus pneumoniae
Whole genome sequencing

ASJC Scopus subject areas

Epidemiology
Microbiology
Molecular Biology
Genetics

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10.1099/mgen.0.000357

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Gladstone, R. A., Lo, S. W., Goater, R., Yeats, C., Taylor, B., Hadfield, J., Lees, J. A., Croucher, N. J., van Tonder, A. J., Bentley, L. J., Quah, F. X., Blaschke, A. J., Pershing, N. L., Byington, C. L., Balaji, V., Hryniewicz, W., Sigauque, B., Ravikumar, K. L., Almeida, S. C. G., ... Wolter, N. (2020). Visualizing variation within global pneumococcal sequence clusters (GPSCS) and country population snapshots to contextualize pneumococcal isolates. Microbial genomics, 6(5), 1-13. Article 000357. https://doi.org/10.1099/mgen.0.000357

Gladstone, RA, Lo, SW, Goater, R, Yeats, C, Taylor, B, Hadfield, J, Lees, JA, Croucher, NJ, van Tonder, AJ, Bentley, LJ, Quah, FX, Blaschke, AJ, Pershing, NL, Byington, CL, Balaji, V, Hryniewicz, W, Sigauque, B, Ravikumar, KL, Almeida, SCG, Ochoa, TJ, Ho, PL, Plessis, MD, Ndlangisa, KM, Cornick, JE, Kwambana-Adams, B, Benisty, R, Nzenze, SA, Madhi, SA, Hawkins, PA, Pollard, AJ, Everett, DB, Antonio, M, Dagan, R, Klugman, KP, von Gottberg, A, Metcalf, BJ, Li, Y, Beall, BW, McGee, L, Breiman, RF, Aanensen, DM, Bentley, SD, Akpaka, PE, Ampofo, K, Belabbès, H, Bigogo, G, Brooks, AW, Carter, PE, Clarke, SC, Corso, A, de Cunto Brandileone, MC, Davydov, A, Diawara, I, Doiphode, S, Egorova, E, Elmdaghri, N, Eser, ÖK, Faccone, D, Ford, R, Gagetti, P, Givon-Lavi, N, Hasanuzzaman, M, Hulten, KG, Ip, M, Kapusta, A, Kandasamy, R, Kastrin, T, Keenan, J, Law, PY, Lehmann, D, Moïsi, J, Mucavele, H, Nurse-Lucas, M, Obaro, SK, Paragi, M, Sadowy, E, Saha, SK, Sampane-Donkor, E, Sekaran, SD, Shakoor, S, Shrestha, S, Skoczynska, A, Ko, S, Srifuengfung, S, Tientcheu, PE, Titov, L, Turner, P, Urban, Y, Verani, J, Voropaeva, E & Wolter, N 2020, 'Visualizing variation within global pneumococcal sequence clusters (GPSCS) and country population snapshots to contextualize pneumococcal isolates', Microbial genomics, vol. 6, no. 5, 000357, pp. 1-13. https://doi.org/10.1099/mgen.0.000357

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title = "Visualizing variation within global pneumococcal sequence clusters (GPSCS) and country population snapshots to contextualize pneumococcal isolates",

abstract = "Knowledge of pneumococcal lineages, their geographic distribution and antibiotic resistance patterns, can give insights into global pneumococcal disease. We provide interactive bioinformatic outputs to explore such topics, aiming to increase dissemi-nation of genomic insights to the wider community, without the need for specialist training. We prepared 12 country-specific phylogenetic snapshots, and international phylogenetic snapshots of 73 common Global Pneumococcal Sequence Clusters (GPSCs) previously defined using PopPUNK, and present them in Microreact. Gene presence and absence defined using Roary, and recombination profiles derived from Gubbins are presented in Phandango for each GPSC. Temporal phylogenetic signal was assessed for each GPSC using BactDating. We provide examples of how such resources can be used. In our example use of a country-specific phylogenetic snapshot we determined that serotype 14 was observed in nine unrelated genetic backgrounds in South Africa. The international phylogenetic snapshot of GPSC9, in which most serotype 14 isolates from South Africa were observed, highlights that there were three independent sub-clusters represented by South African serotype 14 isolates. We estimated from the GPSC9-dated tree that the sub-clusters were each established in South Africa during the 1980s. We show how recombination plots allowed the identification of a 20 kb recombination spanning the capsular polysaccharide locus within GPSC97. This was consistent with a switch from serotype 6A to 19A estimated to have occured in the 1990s from the GPSC97-dated tree. Plots of gene presence/absence of resistance genes (tet, erm, cat) across the GPSC23 phylogeny were consistent with acquisition of a composite transposon. We estimated from the GPSC23-dated tree that the acquisition occurred between 1953 and 1975. Finally, we demonstrate the assignment of GPSC31 to 17 externally generated pneumococcal serotype 1 assemblies from Utah via Pathogenwatch. Most of the Utah isolates clustered within GPSC31 in a USA-specific clade with the most recent common ancestor estimated between 1958 and 1981. The resources we have provided can be used to explore to data, test hypothesis and generate new hypotheses. The accessible assignment of GPSCs allows others to contextualize their own collections beyond the data presented here.",

keywords = "Antibiotic resistance, Pangenome, Phylogenetic dating, Pneumococcal, Population structure, Recombination, Streptococcus pneumoniae, Whole genome sequencing",

author = "Gladstone, {Rebecca A.} and Lo, {Stephanie W.} and Richard Goater and Corin Yeats and Ben Taylor and James Hadfield and Lees, {John A.} and Croucher, {Nicholas J.} and {van Tonder}, {Andries J.} and Bentley, {Leon J.} and Quah, {Fu Xiang} and Blaschke, {Anne J.} and Pershing, {Nicole L.} and Byington, {Carrie L.} and Veeraraghavan Balaji and Waleria Hryniewicz and Betuel Sigauque and Ravikumar, {K. L.} and Almeida, {Samanta Cristine Grassi} and Ochoa, {Theresa J.} and Ho, {Pak Leung} and Plessis, {Mignon du} and Ndlangisa, {Kedibone M.} and Cornick, {Jennifer E.} and Brenda Kwambana-Adams and Rachel Benisty and Nzenze, {Susan A.} and Madhi, {Shabir A.} and Hawkins, {Paulina A.} and Pollard, {Andrew J.} and Everett, {Dean B.} and Martin Antonio and Ron Dagan and Klugman, {Keith P.} and {von Gottberg}, Anne and Metcalf, {Benjamin J.} and Yuan Li and Beall, {Bernard W.} and Lesley McGee and Breiman, {Robert F.} and Aanensen, {David M.} and Bentley, {Stephen D.} and Akpaka, {Patrick E.} and Krow Ampofo and Houria Belabb{\`e}s and Godfrey Bigogo and Brooks, {Abdullah W.} and Carter, {Philip E.} and Clarke, {Stuart C.} and Alejandra Corso and {de Cunto Brandileone}, {Maria Cristina} and Alexander Davydov and Idrissa Diawara and Sanjay Doiphode and Ekaterina Egorova and Naima Elmdaghri and Eser, {{\"O}zgen K{\"o}seoglu} and Diego Faccone and Rebecca Ford and Paula Gagetti and Noga Givon-Lavi and Md Hasanuzzaman and Hulten, {Kristina G.} and Margaret Ip and Aurelie Kapusta and Rama Kandasamy and Tamara Kastrin and Jeremy Keenan and Law, {Pierra Y.} and Deborah Lehmann and Jennifer Mo{\"i}si and Helio Mucavele and Michele Nurse-Lucas and Obaro, {Stephen K.} and Metka Paragi and Ewa Sadowy and Saha, {Samir K.} and Eric Sampane-Donkor and Sekaran, {Shamala Devi} and Sadia Shakoor and Shrijana Shrestha and Anna Skoczynska and Soo Ko and Somporn Srifuengfung and Tientcheu, {Peggy Estelle} and Leonid Titov and Paul Turner and Yulia Urban and Jennifer Verani and Elena Voropaeva and Nicole Wolter",

year = "2020",

doi = "10.1099/mgen.0.000357",

language = "English (US)",

volume = "6",

pages = "1--13",

journal = "Microbial genomics",

issn = "2057-5858",

publisher = "Microbiology Society",

number = "5",

}

TY - JOUR

T1 - Visualizing variation within global pneumococcal sequence clusters (GPSCS) and country population snapshots to contextualize pneumococcal isolates

AU - Gladstone, Rebecca A.

AU - Lo, Stephanie W.

AU - Goater, Richard

AU - Yeats, Corin

AU - Taylor, Ben

AU - Hadfield, James

AU - Lees, John A.

AU - Croucher, Nicholas J.

AU - van Tonder, Andries J.

AU - Bentley, Leon J.

AU - Quah, Fu Xiang

AU - Blaschke, Anne J.

AU - Pershing, Nicole L.

AU - Byington, Carrie L.

AU - Balaji, Veeraraghavan

AU - Hryniewicz, Waleria

AU - Sigauque, Betuel

AU - Ravikumar, K. L.

AU - Almeida, Samanta Cristine Grassi

AU - Ochoa, Theresa J.

AU - Ho, Pak Leung

AU - Plessis, Mignon du

AU - Ndlangisa, Kedibone M.

AU - Cornick, Jennifer E.

AU - Kwambana-Adams, Brenda

AU - Benisty, Rachel

AU - Nzenze, Susan A.

AU - Madhi, Shabir A.

AU - Hawkins, Paulina A.

AU - Pollard, Andrew J.

AU - Everett, Dean B.

AU - Antonio, Martin

AU - Dagan, Ron

AU - Klugman, Keith P.

AU - von Gottberg, Anne

AU - Metcalf, Benjamin J.

AU - Li, Yuan

AU - Beall, Bernard W.

AU - McGee, Lesley

AU - Breiman, Robert F.

AU - Aanensen, David M.

AU - Bentley, Stephen D.

AU - Akpaka, Patrick E.

AU - Ampofo, Krow

AU - Belabbès, Houria

AU - Bigogo, Godfrey

AU - Brooks, Abdullah W.

AU - Carter, Philip E.

AU - Clarke, Stuart C.

AU - Corso, Alejandra

AU - de Cunto Brandileone, Maria Cristina

AU - Davydov, Alexander

AU - Diawara, Idrissa

AU - Doiphode, Sanjay

AU - Egorova, Ekaterina

AU - Elmdaghri, Naima

AU - Eser, Özgen Köseoglu

AU - Faccone, Diego

AU - Ford, Rebecca

AU - Gagetti, Paula

AU - Givon-Lavi, Noga

AU - Hasanuzzaman, Md

AU - Hulten, Kristina G.

AU - Ip, Margaret

AU - Kapusta, Aurelie

AU - Kandasamy, Rama

AU - Kastrin, Tamara

AU - Keenan, Jeremy

AU - Law, Pierra Y.

AU - Lehmann, Deborah

AU - Moïsi, Jennifer

AU - Mucavele, Helio

AU - Nurse-Lucas, Michele

AU - Obaro, Stephen K.

AU - Paragi, Metka

AU - Sadowy, Ewa

AU - Saha, Samir K.

AU - Sampane-Donkor, Eric

AU - Sekaran, Shamala Devi

AU - Shakoor, Sadia

AU - Shrestha, Shrijana

AU - Skoczynska, Anna

AU - Ko, Soo

AU - Srifuengfung, Somporn

AU - Tientcheu, Peggy Estelle

AU - Titov, Leonid

AU - Turner, Paul

AU - Urban, Yulia

AU - Verani, Jennifer

AU - Voropaeva, Elena

AU - Wolter, Nicole

PY - 2020

Y1 - 2020

N2 - Knowledge of pneumococcal lineages, their geographic distribution and antibiotic resistance patterns, can give insights into global pneumococcal disease. We provide interactive bioinformatic outputs to explore such topics, aiming to increase dissemi-nation of genomic insights to the wider community, without the need for specialist training. We prepared 12 country-specific phylogenetic snapshots, and international phylogenetic snapshots of 73 common Global Pneumococcal Sequence Clusters (GPSCs) previously defined using PopPUNK, and present them in Microreact. Gene presence and absence defined using Roary, and recombination profiles derived from Gubbins are presented in Phandango for each GPSC. Temporal phylogenetic signal was assessed for each GPSC using BactDating. We provide examples of how such resources can be used. In our example use of a country-specific phylogenetic snapshot we determined that serotype 14 was observed in nine unrelated genetic backgrounds in South Africa. The international phylogenetic snapshot of GPSC9, in which most serotype 14 isolates from South Africa were observed, highlights that there were three independent sub-clusters represented by South African serotype 14 isolates. We estimated from the GPSC9-dated tree that the sub-clusters were each established in South Africa during the 1980s. We show how recombination plots allowed the identification of a 20 kb recombination spanning the capsular polysaccharide locus within GPSC97. This was consistent with a switch from serotype 6A to 19A estimated to have occured in the 1990s from the GPSC97-dated tree. Plots of gene presence/absence of resistance genes (tet, erm, cat) across the GPSC23 phylogeny were consistent with acquisition of a composite transposon. We estimated from the GPSC23-dated tree that the acquisition occurred between 1953 and 1975. Finally, we demonstrate the assignment of GPSC31 to 17 externally generated pneumococcal serotype 1 assemblies from Utah via Pathogenwatch. Most of the Utah isolates clustered within GPSC31 in a USA-specific clade with the most recent common ancestor estimated between 1958 and 1981. The resources we have provided can be used to explore to data, test hypothesis and generate new hypotheses. The accessible assignment of GPSCs allows others to contextualize their own collections beyond the data presented here.

AB - Knowledge of pneumococcal lineages, their geographic distribution and antibiotic resistance patterns, can give insights into global pneumococcal disease. We provide interactive bioinformatic outputs to explore such topics, aiming to increase dissemi-nation of genomic insights to the wider community, without the need for specialist training. We prepared 12 country-specific phylogenetic snapshots, and international phylogenetic snapshots of 73 common Global Pneumococcal Sequence Clusters (GPSCs) previously defined using PopPUNK, and present them in Microreact. Gene presence and absence defined using Roary, and recombination profiles derived from Gubbins are presented in Phandango for each GPSC. Temporal phylogenetic signal was assessed for each GPSC using BactDating. We provide examples of how such resources can be used. In our example use of a country-specific phylogenetic snapshot we determined that serotype 14 was observed in nine unrelated genetic backgrounds in South Africa. The international phylogenetic snapshot of GPSC9, in which most serotype 14 isolates from South Africa were observed, highlights that there were three independent sub-clusters represented by South African serotype 14 isolates. We estimated from the GPSC9-dated tree that the sub-clusters were each established in South Africa during the 1980s. We show how recombination plots allowed the identification of a 20 kb recombination spanning the capsular polysaccharide locus within GPSC97. This was consistent with a switch from serotype 6A to 19A estimated to have occured in the 1990s from the GPSC97-dated tree. Plots of gene presence/absence of resistance genes (tet, erm, cat) across the GPSC23 phylogeny were consistent with acquisition of a composite transposon. We estimated from the GPSC23-dated tree that the acquisition occurred between 1953 and 1975. Finally, we demonstrate the assignment of GPSC31 to 17 externally generated pneumococcal serotype 1 assemblies from Utah via Pathogenwatch. Most of the Utah isolates clustered within GPSC31 in a USA-specific clade with the most recent common ancestor estimated between 1958 and 1981. The resources we have provided can be used to explore to data, test hypothesis and generate new hypotheses. The accessible assignment of GPSCs allows others to contextualize their own collections beyond the data presented here.

KW - Antibiotic resistance

KW - Pangenome

KW - Phylogenetic dating

KW - Pneumococcal

KW - Population structure

KW - Recombination

KW - Streptococcus pneumoniae

KW - Whole genome sequencing

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U2 - 10.1099/mgen.0.000357

DO - 10.1099/mgen.0.000357

M3 - Article

C2 - 32375991

AN - SCOPUS:85085904716

SN - 2057-5858

VL - 6

SP - 1

EP - 13

JO - Microbial genomics

JF - Microbial genomics

IS - 5

M1 - 000357

ER -

Visualizing variation within global pneumococcal sequence clusters (GPSCS) and country population snapshots to contextualize pneumococcal isolates

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