Local genes for local bacteria: Evidence of allopatry in the genomes of transatlantic Campylobacter populations

Ben Pascoe; Guillaume Méric; Koji Yahara; Helen Wimalarathna; Susan Murray; Matthew D. Hitchings; Emma L. Sproston; Catherine D. Carrillo; Eduardo N. Taboada; Kerry K. Cooper; Steven Huynh; Alison J. Cody; Keith A. Jolley; Martin C.J. Maiden; Noel D. McCarthy; Xavier Didelot; Craig T. Parker; Samuel K. Sheppard

doi:10.1111/mec.14176

Local genes for local bacteria: Evidence of allopatry in the genomes of transatlantic Campylobacter populations

Ben Pascoe, Guillaume Méric, Koji Yahara, Helen Wimalarathna, Susan Murray, Matthew D. Hitchings, Emma L. Sproston, Catherine D. Carrillo, Eduardo N. Taboada, Kerry K. Cooper, Steven Huynh, Alison J. Cody, Keith A. Jolley, Martin C.J. Maiden, Noel D. McCarthy, Xavier Didelot, Craig T. Parker, Samuel K. Sheppard

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

18 Scopus citations

Abstract

The genetic structure of bacterial populations can be related to geographical locations of isolation. In some species, there is a strong correlation between geographical distance and genetic distance, which can be caused by different evolutionary mechanisms. Patterns of ancient admixture in Helicobacter pylori can be reconstructed in concordance with past human migration, whereas in Mycobacterium tuberculosis it is the lack of recombination that causes allopatric clusters. In Campylobacter, analyses of genomic data and molecular typing have been successful in determining the reservoir host species, but not geographical origin. We investigated biogeographical variation in highly recombining genes to determine the extent of clustering between genomes from geographically distinct Campylobacter populations. Whole-genome sequences from 294 Campylobacter isolates from North America and the UK were analysed. Isolates from within the same country shared more recently recombined DNA than isolates from different countries. Using 15 UK/American closely matched pairs of isolates that shared ancestors, we identify regions that have frequently and recently recombined to test their correlation with geographical origin. The seven genes that demonstrated the greatest clustering by geography were used in an attribution model to infer geographical origin which was tested using a further 383 UK clinical isolates to detect signatures of recent foreign travel. Patient records indicated that in 46 cases, travel abroad had occurred <2 weeks prior to sampling, and genomic analysis identified that 34 (74%) of these isolates were of a non-UK origin. Identification of biogeographical markers in Campylobacter genomes will contribute to improved source attribution of clinical Campylobacter infection and inform intervention strategies to reduce campylobacteriosis.

Original language	English (US)
Pages (from-to)	4497-4508
Number of pages	12
Journal	Molecular ecology
Volume	26
Issue number	17
DOIs	https://doi.org/10.1111/mec.14176
State	Published - Sep 2017
Externally published	Yes

Keywords

Campylobacter
allopatry
genomics
phylogeny
recombination
source attribution

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
Genetics

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10.1111/mec.14176

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Pascoe, B., Méric, G., Yahara, K., Wimalarathna, H., Murray, S., Hitchings, M. D., Sproston, E. L., Carrillo, C. D., Taboada, E. N., Cooper, K. K., Huynh, S., Cody, A. J., Jolley, K. A., Maiden, M. C. J., McCarthy, N. D., Didelot, X., Parker, C. T., & Sheppard, S. K. (2017). Local genes for local bacteria: Evidence of allopatry in the genomes of transatlantic Campylobacter populations. Molecular ecology, 26(17), 4497-4508. https://doi.org/10.1111/mec.14176

Pascoe, B, Méric, G, Yahara, K, Wimalarathna, H, Murray, S, Hitchings, MD, Sproston, EL, Carrillo, CD, Taboada, EN, Cooper, KK, Huynh, S, Cody, AJ, Jolley, KA, Maiden, MCJ, McCarthy, ND, Didelot, X, Parker, CT & Sheppard, SK 2017, 'Local genes for local bacteria: Evidence of allopatry in the genomes of transatlantic Campylobacter populations', Molecular ecology, vol. 26, no. 17, pp. 4497-4508. https://doi.org/10.1111/mec.14176

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title = "Local genes for local bacteria: Evidence of allopatry in the genomes of transatlantic Campylobacter populations",

abstract = "The genetic structure of bacterial populations can be related to geographical locations of isolation. In some species, there is a strong correlation between geographical distance and genetic distance, which can be caused by different evolutionary mechanisms. Patterns of ancient admixture in Helicobacter pylori can be reconstructed in concordance with past human migration, whereas in Mycobacterium tuberculosis it is the lack of recombination that causes allopatric clusters. In Campylobacter, analyses of genomic data and molecular typing have been successful in determining the reservoir host species, but not geographical origin. We investigated biogeographical variation in highly recombining genes to determine the extent of clustering between genomes from geographically distinct Campylobacter populations. Whole-genome sequences from 294 Campylobacter isolates from North America and the UK were analysed. Isolates from within the same country shared more recently recombined DNA than isolates from different countries. Using 15 UK/American closely matched pairs of isolates that shared ancestors, we identify regions that have frequently and recently recombined to test their correlation with geographical origin. The seven genes that demonstrated the greatest clustering by geography were used in an attribution model to infer geographical origin which was tested using a further 383 UK clinical isolates to detect signatures of recent foreign travel. Patient records indicated that in 46 cases, travel abroad had occurred <2 weeks prior to sampling, and genomic analysis identified that 34 (74%) of these isolates were of a non-UK origin. Identification of biogeographical markers in Campylobacter genomes will contribute to improved source attribution of clinical Campylobacter infection and inform intervention strategies to reduce campylobacteriosis.",

keywords = "Campylobacter, allopatry, genomics, phylogeny, recombination, source attribution",

author = "Ben Pascoe and Guillaume M{\'e}ric and Koji Yahara and Helen Wimalarathna and Susan Murray and Hitchings, {Matthew D.} and Sproston, {Emma L.} and Carrillo, {Catherine D.} and Taboada, {Eduardo N.} and Cooper, {Kerry K.} and Steven Huynh and Cody, {Alison J.} and Jolley, {Keith A.} and Maiden, {Martin C.J.} and McCarthy, {Noel D.} and Xavier Didelot and Parker, {Craig T.} and Sheppard, {Samuel K.}",

note = "Funding Information: SKS is a Wellcome Trust Fellow (088786/C/09/Z), and research in his laboratory is funded by grants from the Medical Research Council (MR/L015080/1), the Food Standards Agency (FS246004) and the Biotechnology and Biological Sciences Research Council (BB/I02464X/1). We acknowledge Canada's Michael Smith Genome Sciences Centre, Vancouver, Canada, for whole-genome sequencing. GM is supported by a postdoctoral research fellowship from Health and Care Research Wales (HF-14-13). KY was supported by a JSPS Research Fellowship for Young Scientists. This publication made use of the PubMLST website (http://pubmlst.org/) developed by Keith Jolley and Martin Maiden (Jolley & Maiden,) and sited at the University of Oxford. The development of that website was funded by the Wellcome Trust. We also acknowledge MRC CLIMB and HPC Wales for the use of HPC facilities and thank William G. Miller for taking the time to read the manuscript prior to publication and provide helpful feedback. Publisher Copyright: {\textcopyright} 2017 The Authors. Molecular Ecology Published by John Wiley & Sons Ltd",

year = "2017",

month = sep,

doi = "10.1111/mec.14176",

language = "English (US)",

volume = "26",

pages = "4497--4508",

journal = "Molecular Ecology",

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AU - Pascoe, Ben

AU - Méric, Guillaume

AU - Yahara, Koji

AU - Wimalarathna, Helen

AU - Murray, Susan

AU - Hitchings, Matthew D.

AU - Sproston, Emma L.

AU - Carrillo, Catherine D.

AU - Taboada, Eduardo N.

AU - Cooper, Kerry K.

AU - Huynh, Steven

AU - Cody, Alison J.

AU - Jolley, Keith A.

AU - Maiden, Martin C.J.

AU - McCarthy, Noel D.

AU - Didelot, Xavier

AU - Parker, Craig T.

AU - Sheppard, Samuel K.

N1 - Funding Information: SKS is a Wellcome Trust Fellow (088786/C/09/Z), and research in his laboratory is funded by grants from the Medical Research Council (MR/L015080/1), the Food Standards Agency (FS246004) and the Biotechnology and Biological Sciences Research Council (BB/I02464X/1). We acknowledge Canada's Michael Smith Genome Sciences Centre, Vancouver, Canada, for whole-genome sequencing. GM is supported by a postdoctoral research fellowship from Health and Care Research Wales (HF-14-13). KY was supported by a JSPS Research Fellowship for Young Scientists. This publication made use of the PubMLST website (http://pubmlst.org/) developed by Keith Jolley and Martin Maiden (Jolley & Maiden,) and sited at the University of Oxford. The development of that website was funded by the Wellcome Trust. We also acknowledge MRC CLIMB and HPC Wales for the use of HPC facilities and thank William G. Miller for taking the time to read the manuscript prior to publication and provide helpful feedback. Publisher Copyright: © 2017 The Authors. Molecular Ecology Published by John Wiley & Sons Ltd

PY - 2017/9

Y1 - 2017/9

N2 - The genetic structure of bacterial populations can be related to geographical locations of isolation. In some species, there is a strong correlation between geographical distance and genetic distance, which can be caused by different evolutionary mechanisms. Patterns of ancient admixture in Helicobacter pylori can be reconstructed in concordance with past human migration, whereas in Mycobacterium tuberculosis it is the lack of recombination that causes allopatric clusters. In Campylobacter, analyses of genomic data and molecular typing have been successful in determining the reservoir host species, but not geographical origin. We investigated biogeographical variation in highly recombining genes to determine the extent of clustering between genomes from geographically distinct Campylobacter populations. Whole-genome sequences from 294 Campylobacter isolates from North America and the UK were analysed. Isolates from within the same country shared more recently recombined DNA than isolates from different countries. Using 15 UK/American closely matched pairs of isolates that shared ancestors, we identify regions that have frequently and recently recombined to test their correlation with geographical origin. The seven genes that demonstrated the greatest clustering by geography were used in an attribution model to infer geographical origin which was tested using a further 383 UK clinical isolates to detect signatures of recent foreign travel. Patient records indicated that in 46 cases, travel abroad had occurred <2 weeks prior to sampling, and genomic analysis identified that 34 (74%) of these isolates were of a non-UK origin. Identification of biogeographical markers in Campylobacter genomes will contribute to improved source attribution of clinical Campylobacter infection and inform intervention strategies to reduce campylobacteriosis.

AB - The genetic structure of bacterial populations can be related to geographical locations of isolation. In some species, there is a strong correlation between geographical distance and genetic distance, which can be caused by different evolutionary mechanisms. Patterns of ancient admixture in Helicobacter pylori can be reconstructed in concordance with past human migration, whereas in Mycobacterium tuberculosis it is the lack of recombination that causes allopatric clusters. In Campylobacter, analyses of genomic data and molecular typing have been successful in determining the reservoir host species, but not geographical origin. We investigated biogeographical variation in highly recombining genes to determine the extent of clustering between genomes from geographically distinct Campylobacter populations. Whole-genome sequences from 294 Campylobacter isolates from North America and the UK were analysed. Isolates from within the same country shared more recently recombined DNA than isolates from different countries. Using 15 UK/American closely matched pairs of isolates that shared ancestors, we identify regions that have frequently and recently recombined to test their correlation with geographical origin. The seven genes that demonstrated the greatest clustering by geography were used in an attribution model to infer geographical origin which was tested using a further 383 UK clinical isolates to detect signatures of recent foreign travel. Patient records indicated that in 46 cases, travel abroad had occurred <2 weeks prior to sampling, and genomic analysis identified that 34 (74%) of these isolates were of a non-UK origin. Identification of biogeographical markers in Campylobacter genomes will contribute to improved source attribution of clinical Campylobacter infection and inform intervention strategies to reduce campylobacteriosis.

KW - Campylobacter

KW - allopatry

KW - genomics

KW - phylogeny

KW - recombination

KW - source attribution

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Local genes for local bacteria: Evidence of allopatry in the genomes of transatlantic Campylobacter populations

Abstract

Keywords

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