Whole-genome analysis of diverse Chlamydia trachomatis strains identifies phylogenetic relationships masked by current clinical typing

Simon R. Harris; Ian N. Clarke; Helena M. B. Seth-Smith; Anthony W. Solomon; Lesley T. Cutcliffe; Peter Marsh; Rachel J. Skilton; Martin J. Holland; David Mabey; Rosanna W. Peeling; David A. Lewis; Brian G. Spratt; Magnus Unemo; Kenneth Persson; Carina Bjartling; Robert Brunham; Henry J. C. de Vries; Servaas A. Morre; Arjen Speksnijder; Cecile M. Bebear; Maite Clerc; Bertille de Barbeyrac; Julian Parkhill; Nicholas R. Thomson

doi:10.1038/ng.2214

Whole-genome analysis of diverse Chlamydia trachomatis strains identifies phylogenetic relationships masked by current clinical typing

Simon R. Harris^*, Ian N. Clarke, Helena M. B. Seth-Smith, Anthony W. Solomon, Lesley T. Cutcliffe, Peter Marsh, Rachel J. Skilton, Martin J. Holland, David Mabey, Rosanna W. Peeling, David A. Lewis, Brian G. Spratt, Magnus Unemo, Kenneth Persson, Carina Bjartling, Robert Brunham, Henry J. C. de Vries, Servaas A. Morre, Arjen Speksnijder, Cecile M. BebearMaite Clerc, Bertille de Barbeyrac, Julian Parkhill, Nicholas R. Thomson

^*Corresponding author for this work

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

221 Citations (Web of Science)

Abstract

Chlamydia trachomatis is responsible for both trachoma and sexually transmitted infections, causing substantial morbidity and economic cost globally. Despite this, our knowledge of its population and evolutionary genetics is limited. Here we present a detailed phylogeny based on whole-genome sequencing of representative strains of C. trachomatis from both trachoma and lymphogranuloma venereum (LGV) biovars from temporally and geographically diverse sources. Our analysis shows that predicting phylogenetic structure using ompA, which is traditionally used to classify Chlamydia, is misleading because extensive recombination in this region masks any true relationships present. We show that in many instances, ompA is a chimera that can be exchanged in part or as a whole both within and between biovars. We also provide evidence for exchange of, and recombination within, the cryptic plasmid, which is another key diagnostic target. We used our phylogenetic framework to show how genetic exchange has manifested itself in ocular, urogenital and LGV C. trachomatis strains, including the epidemic LGV serotype L2b.

Original language	English
Pages (from-to)	413-U221
Journal	Nature Genetics
Volume	44
Issue number	4
DOIs	https://doi.org/10.1038/ng.2214
Publication status	Published - Apr 2012

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Harris, S. R., Clarke, I. N., Seth-Smith, H. M. B., Solomon, A. W., Cutcliffe, L. T., Marsh, P., Skilton, R. J., Holland, M. J., Mabey, D., Peeling, R. W., Lewis, D. A., Spratt, B. G., Unemo, M., Persson, K., Bjartling, C., Brunham, R., de Vries, H. J. C., Morre, S. A., Speksnijder, A., ... Thomson, N. R. (2012). Whole-genome analysis of diverse Chlamydia trachomatis strains identifies phylogenetic relationships masked by current clinical typing. Nature Genetics, 44(4), 413-U221. https://doi.org/10.1038/ng.2214

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title = "Whole-genome analysis of diverse Chlamydia trachomatis strains identifies phylogenetic relationships masked by current clinical typing",

abstract = "Chlamydia trachomatis is responsible for both trachoma and sexually transmitted infections, causing substantial morbidity and economic cost globally. Despite this, our knowledge of its population and evolutionary genetics is limited. Here we present a detailed phylogeny based on whole-genome sequencing of representative strains of C. trachomatis from both trachoma and lymphogranuloma venereum (LGV) biovars from temporally and geographically diverse sources. Our analysis shows that predicting phylogenetic structure using ompA, which is traditionally used to classify Chlamydia, is misleading because extensive recombination in this region masks any true relationships present. We show that in many instances, ompA is a chimera that can be exchanged in part or as a whole both within and between biovars. We also provide evidence for exchange of, and recombination within, the cryptic plasmid, which is another key diagnostic target. We used our phylogenetic framework to show how genetic exchange has manifested itself in ocular, urogenital and LGV C. trachomatis strains, including the epidemic LGV serotype L2b.",

author = "Harris, {Simon R.} and Clarke, {Ian N.} and Seth-Smith, {Helena M. B.} and Solomon, {Anthony W.} and Cutcliffe, {Lesley T.} and Peter Marsh and Skilton, {Rachel J.} and Holland, {Martin J.} and David Mabey and Peeling, {Rosanna W.} and Lewis, {David A.} and Spratt, {Brian G.} and Magnus Unemo and Kenneth Persson and Carina Bjartling and Robert Brunham and {de Vries}, {Henry J. C.} and Morre, {Servaas A.} and Arjen Speksnijder and Bebear, {Cecile M.} and Maite Clerc and {de Barbeyrac}, Bertille and Julian Parkhill and Thomson, {Nicholas R.}",

year = "2012",

month = apr,

doi = "10.1038/ng.2214",

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Harris, SR, Clarke, IN, Seth-Smith, HMB, Solomon, AW, Cutcliffe, LT, Marsh, P, Skilton, RJ, Holland, MJ, Mabey, D, Peeling, RW, Lewis, DA, Spratt, BG, Unemo, M, Persson, K, Bjartling, C, Brunham, R, de Vries, HJC, Morre, SA, Speksnijder, A, Bebear, CM, Clerc, M, de Barbeyrac, B, Parkhill, J & Thomson, NR 2012, 'Whole-genome analysis of diverse Chlamydia trachomatis strains identifies phylogenetic relationships masked by current clinical typing', Nature Genetics, vol. 44, no. 4, pp. 413-U221. https://doi.org/10.1038/ng.2214

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AU - Cutcliffe, Lesley T.

AU - Marsh, Peter

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AU - Lewis, David A.

AU - Spratt, Brian G.

AU - Unemo, Magnus

AU - Persson, Kenneth

AU - Bjartling, Carina

AU - Brunham, Robert

AU - de Vries, Henry J. C.

AU - Morre, Servaas A.

AU - Speksnijder, Arjen

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AU - de Barbeyrac, Bertille

AU - Parkhill, Julian

AU - Thomson, Nicholas R.

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N2 - Chlamydia trachomatis is responsible for both trachoma and sexually transmitted infections, causing substantial morbidity and economic cost globally. Despite this, our knowledge of its population and evolutionary genetics is limited. Here we present a detailed phylogeny based on whole-genome sequencing of representative strains of C. trachomatis from both trachoma and lymphogranuloma venereum (LGV) biovars from temporally and geographically diverse sources. Our analysis shows that predicting phylogenetic structure using ompA, which is traditionally used to classify Chlamydia, is misleading because extensive recombination in this region masks any true relationships present. We show that in many instances, ompA is a chimera that can be exchanged in part or as a whole both within and between biovars. We also provide evidence for exchange of, and recombination within, the cryptic plasmid, which is another key diagnostic target. We used our phylogenetic framework to show how genetic exchange has manifested itself in ocular, urogenital and LGV C. trachomatis strains, including the epidemic LGV serotype L2b.

AB - Chlamydia trachomatis is responsible for both trachoma and sexually transmitted infections, causing substantial morbidity and economic cost globally. Despite this, our knowledge of its population and evolutionary genetics is limited. Here we present a detailed phylogeny based on whole-genome sequencing of representative strains of C. trachomatis from both trachoma and lymphogranuloma venereum (LGV) biovars from temporally and geographically diverse sources. Our analysis shows that predicting phylogenetic structure using ompA, which is traditionally used to classify Chlamydia, is misleading because extensive recombination in this region masks any true relationships present. We show that in many instances, ompA is a chimera that can be exchanged in part or as a whole both within and between biovars. We also provide evidence for exchange of, and recombination within, the cryptic plasmid, which is another key diagnostic target. We used our phylogenetic framework to show how genetic exchange has manifested itself in ocular, urogenital and LGV C. trachomatis strains, including the epidemic LGV serotype L2b.

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DO - 10.1038/ng.2214

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SN - 1061-4036

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