The abrupt onslaught of the syphilis pandemic that started in the late fifteenth century established this devastating infectious disease as one of the most feared in human history1. Surprisingly, despite the availability of effective antibiotic treatment since the mid-twentieth century, this bacterial infection, which is caused by Treponema pallidum subsp. pallidum (TPA), has been re-emerging globally in the last few decades with an estimated 10.6 million cases in 2008 (ref. 2). Although resistance to penicillin has not yet been identified, an increasing number of strains fail to respond to the second-line antibiotic azithromycin3. Little is known about the genetic patterns in current infections or the evolutionary origins of the disease due to the low quantities of treponemal DNA in clinical samples and difficulties in cultivating the pathogen4. Here, we used DNA capture and whole-genome sequencing to successfully interrogate genome-wide variation from syphilis patient specimens, combined with laboratory samples of TPA and two other subspecies. Phylogenetic comparisons based on the sequenced genomes indicate that the TPA strains examined share a common ancestor after the fifteenth century, within the early modern era. Moreover, most contemporary strains are azithromycin-resistant and are members of a globally dominant cluster, named here as SS14-Ω. The cluster diversified from a common ancestor in the mid-twentieth century subsequent to the discovery of antibiotics. Its recent phylogenetic divergence and global presence point to the emergence of a pandemic strain cluster.

Center for Bioinformatics University of Tübingen 72076 Tübingen Germany

Department of Biology Faculty of Medicine Masaryk University 625 00 Brno Czech Republic

Department of Clinical Microbiology and Virology University College London Hospitals NHS Foundation Trust London W1T 4EU UK

Department of Dermatology Medical University of Graz A 8036 Graz Austria

Department of Dermatology University Hospital of Zurich 8091 Zurich Switzerland

Department of Infectious Diseases Public Health Laboratory GGD Amsterdam 1018 WT Amsterdam the Netherlands

Department of Medicine Division of Allergy and Infectious Diseases and Department of Global Health University of Washington Seattle Washington 98105 USA

Department of Pathology and Laboratory Medicine UTHealth McGovern Medical School Houston Texas 77225 USA

Facultad de Farmacia y Bioquímica Departamento de Bioquímica Clínica Microbiología Clínica Universidad de Buenos Aires 1113 Buenos Aires Argentina

Institute for Archaeological Sciences University of Tübingen 72070 Tübingen Germany

Institute for Evolutionary Biology and Environmental Studies University of Zurich 8057 Zurich Switzerland

Institute of Integrative Biology Department of Environmental Systems Science ETH Zürich 8092 Zurich Switzerland

Instituto de Investigaciones Biomédicas en Retrovirus y SIDA Universidad de Buenos Aires CONICET 1121 Buenos Aires Argentina

Servicio de Dermatología Hospital General Universitario de Valencia 46014 Valencia Spain

The Mortimer Market Centre CNWL Camden Provider Services London NW1 2PL UK

Unidad Mixta Infección y Salud Pública FISABIO Universidad de Valencia; CIBER in Epidemiology and Public Health 46020 Spain

Wellcome Trust Sanger Institute Wellcome Genome Campus Hinxton Cambridge CB10 1SA UK

Zurich Institute of Forensic Medicine University of Zurich 8057 Zurich Switzerland

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Nat Rev Microbiol. 2017 Mar 13;15(4):196. doi: 10.1038/nrmicro.2017.23. PubMed

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