Lateral gene transfer (LGT) is an important mechanism for genome diversification in microbial populations, including the human microbiome. While prior work has surveyed LGT events in human-associated microbial isolate genomes, the scope and dynamics of novel LGT events arising in personal microbiomes are not well understood, as there are no widely adopted computational methods to detect, quantify, and characterize LGT from complex microbial communities. We addressed this by developing, benchmarking, and experimentally validating a computational method (WAAFLE) to profile novel LGT events from assembled metagenomes. Applying WAAFLE to >2K human metagenomes from diverse body sites, we identified >100K putative high-confidence but previously uncharacterized LGT events (~2 per assembled microbial genome-equivalent). These events were enriched for mobile elements (as expected), as well as restriction-modification and transport functions typically associated with the destruction of foreign DNA. LGT frequency was quantifiably influenced by biogeography, the phylogenetic similarity of the involved taxa, and the ecological abundance of the donor taxon. These forces manifest as LGT networks in which hub species abundant in a community type donate unequally with their close phylogenetic neighbors. Our findings suggest that LGT may be a more ubiquitous process in the human microbiome than previously described. The open-source WAAFLE implementation, documentation, and data from this work are available at http://huttenhower.sph.harvard.edu/waafle.
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| http://dx.doi.org/10.1101/2023.08.08.552500 | DOI Listing |
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Profiling lateral gene transfer events in the human microbiome using WAAFLE.
Nat Microbiol
January 2025
Harvard T.H. Chan School of Public Health, Boston, MA, USA.
Lateral gene transfer (LGT), also known as horizontal gene transfer, facilitates genomic diversification in microbial populations. While previous work has surveyed LGT in human-associated microbial isolate genomes, the landscape of LGT arising in personal microbiomes is not well understood, as there are no widely adopted methods to characterize LGT from complex communities. Here we developed, benchmarked and validated a computational algorithm (WAAFLE or Workflow to Annotate Assemblies and Find LGT Events) to profile LGT from assembled metagenomes.
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From Memorial Sloan Kettering Cancer Center and Weill Cornell Medical College, New York (K.L.J.); University Hospitals Leuven, Leuven, Belgium (P.N.); Hospital María Curie, Buenos Aires (M.L.C.); Asan Medical Center, University of Ulsan College of Medicine, Seoul, South Korea (S.-B.K.); National Hospital Organization Kyushu Cancer Center, Fukuoka, Japan (E.T.); Institut Jules Bordet, Hôpital Universitaire de Bruxelles, Brussels (P.A.); Vall d'Hebron University Hospital, Vall d'Hebron Institute of Oncology, Barcelona (C.S.); Baylor University Medical Center, Texas Oncology, U.S. Oncology, Dallas (J.O.); the Breast Center, Department of Obstetrics and Gynecology and Comprehensive Cancer Center Munich, Ludwig Maximilians University Munich University Hospital, Munich, Germany (N.H.); the University of North Carolina at Chapel Hill, Chapel Hill (L.A.C.); the University of Milan, Milan (G.C.); the European Institute of Oncology, IRCCS, Milan (G.C.); Hospital Arnau de Vilanova, Valencia, Spain (A.L.-C.); Garvan Institute of Medical Research and University of New South Wales, Sydney (E.L.); Hospital de Oncología, Centro Médico Nacional Siglo XXI, Mexico City (M.L.G.T.); Yonsei University College of Medicine, Seoul, South Korea (J.S.); the Mastology Department, Women's Health Hospital, São Paulo (A.M.); Harbin Medical University Cancer Hospital, Harbin, China (Q.Z.); National Taiwan University Hospital and National Taiwan University College of Medicine, Taipei (C.-S.H.); the Division of Breast Surgery, Department of Surgery, Taichung Veterans General Hospital, Taichung, Taiwan (C.-C.H.); Filios Alta Medicina, Monterrey, Mexico (J.L.M.R.); the Medical Oncology Department, Hospital Universitario Virgen del Rocío, Seville, Spain (M.R.B.); the Department of Breast Surgery, Chiba Cancer Center Hospital, Chiba, Japan (R.N.); Eli Lilly, Indianapolis (K.R.P., C.C.L., E.B., S.C., X.A.W., L.M.S.); and Institut Curie and University of Versailles Saint-Quentin-en-Yvelines-Paris-Saclay University, Paris (F.-C.B.).
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F22 Life, Earth and Environmental Sciences Building, School of Life and Environmental Sciences, University of Sydney, Sydney, NSW 2006, Australia.
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