An extended genotyping framework for Salmonella enterica serovar Typhi, the cause of human typhoid

Vanessa Wong; Stephen Baker; Thomas R. Connor; Derek Pickard; Andrew J. Page; J. Dave; Niamh Murphy; Richard Holliman; Armine Sefton; Michael Millar; Zoe A. Dyson; Gordon Dougan; Kathryn E. Holt; Julian Parkhill; Nicholas Feasey; Robert A. Kingsley; Nicholas R. Thomson; Jacqueline A. Keane; François‐Xavier Weill; Simon Le Hello; Jane Hawkey; David Edwards; Simon R. Harris; Amy K. Cain; James Hadfield; Peter Hart; Nga Tran Vu Thieu; Elizabeth J. Klemm; Robert F. Breiman; Conall Watson; W. John Edmunds; Samuel Kariuki; Melita A. Gordon; Robert S. Heyderman; Chinyere K. Okoro; Jan Jacobs; Octavie Lunguya; Chisomo Msefula; José A. Chabalgoity; Mike Kama; Kylie Jenkins; Shanta Dutta; Florian Marks; Josefina Campos; Corinne N. Thompson; Stephen Obaro; Calman A. MacLennan; Christiane Dolecek; Karen H. Keddy; Anthony M. Smith; Christopher M. Parry; Abhilasha Karkey; Sabina Dongol; Buddha Basnyat; Amit Arjyal; Kim Mulholland; James I. Campbell; Muriel Dufour; Don Bandaranayake; Take N. Toleafoa; Shalini Singh; Mochammad Hatta; Paul N. Newton; David A. B. Dance; Viengmon Davong; Robert Onsaŕe; Lupeoletalalelei Isaia; Guy Thwaites; Lalith Wijedoru; John A. Crump; Elizabeth de Pinna; Satheesh Nair; Eric J. Nilles; Duy Pham Thanh; Paul Turner; Sona Soeng; Mary Valcanis; Joan Powling; Karolina Dimovski; Geoff Hogg; Jeremy Farrar; Alison E. Mather; Ben Amos

doi:10.1038/ncomms12827

An extended genotyping framework for Salmonella enterica serovar Typhi, the cause of human typhoid

Vanessa Wong(Cambridge University Hospitals NHS Foundation Trust), Stephen Baker(University of London), Thomas R. Connor(Cardiff University), Derek Pickard(Wellcome Sanger Institute), Andrew J. Page(Wellcome Sanger Institute), J. Dave(Public Health England), Niamh Murphy(Public Health England), Richard Holliman(Public Health England), Armine Sefton(Barts Health NHS Trust), Michael Millar(Barts Health NHS Trust), Zoe A. Dyson(The University of Melbourne), Gordon Dougan(Wellcome Sanger Institute), Kathryn E. Holt(The University of Melbourne), Julian Parkhill(Wellcome Sanger Institute), Nicholas Feasey(Liverpool School of Tropical Medicine), Robert A. Kingsley(Norwich Research Park), Nicholas R. Thomson(Wellcome Sanger Institute), Jacqueline A. Keane(Wellcome Sanger Institute), François‐Xavier Weill(Institut Pasteur), Simon Le Hello(Institut Pasteur), Jane Hawkey(The University of Melbourne), David Edwards(The University of Melbourne), Simon R. Harris(Wellcome Sanger Institute), Amy K. Cain(Wellcome Sanger Institute), James Hadfield(Wellcome Sanger Institute), Peter Hart(University of Birmingham), Nga Tran Vu Thieu(Oxford University Clinical Research Unit), Elizabeth J. Klemm(Wellcome Sanger Institute), Robert F. Breiman(Centers for Disease Control and Prevention), Conall Watson(London School of Hygiene & Tropical Medicine), W. John Edmunds(London School of Hygiene & Tropical Medicine), Samuel Kariuki(Wellcome Sanger Institute), Melita A. Gordon(University of Liverpool), Robert S. Heyderman(University of Liverpool), Chinyere K. Okoro(Cambridge University Hospitals NHS Foundation Trust), Jan Jacobs(Instituut voor Tropische Geneeskunde), Octavie Lunguya(Kinshasa General Hospital), Chisomo Msefula(University of Liverpool), José A. Chabalgoity, Mike Kama(Ministry Of Health), Kylie Jenkins(Fiji National University), Shanta Dutta(National Institute of Cholera and Enteric Diseases), Florian Marks(International Vaccine Institute), Josefina Campos(Administración Nacional de Laboratorios e Institutos de Salud), Corinne N. Thompson(Nuffield Orthopaedic Centre), Stephen Obaro(Bingham University), Calman A. MacLennan(Wellcome Sanger Institute), Christiane Dolecek(Nuffield Orthopaedic Centre), Karen H. Keddy(National Health Laboratory Service), Anthony M. Smith(National Health Laboratory Service), Christopher M. Parry(University of London), Abhilasha Karkey(Patan Academy of Health Sciences), Sabina Dongol(Patan Academy of Health Sciences), Buddha Basnyat(Patan Academy of Health Sciences), Amit Arjyal(Patan Academy of Health Sciences), Kim Mulholland(London School of Hygiene & Tropical Medicine), James I. Campbell(Nuffield Orthopaedic Centre), Muriel Dufour(New Zealand Institute for Public Health and Forensic Science), Don Bandaranayake(New Zealand Institute for Public Health and Forensic Science), Take N. Toleafoa(National University of Samoa), Shalini Singh, Mochammad Hatta(Hasanuddin University), Paul N. Newton(Mahosot Hospital), David A. B. Dance(Mahosot Hospital), Viengmon Davong(Mahosot Hospital), Robert Onsaŕe(Kenya Medical Research Institute), Lupeoletalalelei Isaia(National University of Samoa), Guy Thwaites(Nuffield Orthopaedic Centre), Lalith Wijedoru(Mahidol University), John A. Crump(University of Otago), Elizabeth de Pinna(Public Health England), Satheesh Nair(Public Health England), Eric J. Nilles(University of the South Pacific), Duy Pham Thanh(Oxford University Clinical Research Unit), Paul Turner(Mahidol University), Sona Soeng(Angkor Hospital for Children), Mary Valcanis(The University of Melbourne), Joan Powling(The University of Melbourne), Karolina Dimovski(The University of Melbourne), Geoff Hogg(The University of Melbourne), Jeremy Farrar(Nuffield Orthopaedic Centre), Alison E. Mather(University of Cambridge), Ben Amos(Rajabu St Augustine's, Hospitali Teule)

Nature Communications

October 5, 2016

10.1038/ncomms12827

Cited by 192Open Access

Full Text

Abstract

The population of Salmonella enterica serovar Typhi (S. Typhi), the causative agent of typhoid fever, exhibits limited DNA sequence variation, which complicates efforts to rationally discriminate individual isolates. Here we utilize data from whole-genome sequences (WGS) of nearly 2,000 isolates sourced from over 60 countries to generate a robust genotyping scheme that is phylogenetically informative and compatible with a range of assays. These data show that, with the exception of the rapidly disseminating H58 subclade (now designated genotype 4.3.1), the global S. Typhi population is highly structured and includes dozens of subclades that display geographical restriction. The genotyping approach presented here can be used to interrogate local S. Typhi populations and help identify recent introductions of S. Typhi into new or previously endemic locations, providing information on their likely geographical source. This approach can be used to classify clinical isolates and provides a universal framework for further experimental investigations.

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