Lab Medicine Significance 6/10

Sequencing Historical Bacterial Genomes Illuminates Pathogen Evolution and AMR Origins

This review demonstrates the value of sequencing historical bacterial isolates, from ancient DNA to curated culture collections spanning decades, for understanding pathogen phylodynamics and the evolution of antimicrobial resistance. Studies of Yersinia pestis, Mycobacterium tuberculosis, and other pathogens show how historical genomics provides retrospective diagnosis, uncovers epidemiological pathways, and tracks the emergence and spread of resistance genes over time.

The original study

Looking Backward To Move Forward: the Utility of Sequencing Historical Bacterial Genomes.

Authors
Bennett RJ, Baker KS
Journal
Journal of clinical microbiology
Type
Journal Article, Research Support, Non-U.S. Gov't, Review
PMID
31092597
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Original abstract

Many pathogens that caused devastating disease throughout human history, such as Yersinia pestis, Mycobacterium tuberculosis, and Mycobacterium leprae, remain problematic today. Historical bacterial genomes represent a unique source of genetic information and advancements in sequencing technologies have allowed unprecedented insights from this previously understudied resource. This minireview brings together example studies which have utilized ancient DNA, individual historical isolates (both extant and dead) and collections of historical isolates. The studies span human history and highlight the contribution that sequencing and analysis of historical bacterial genomes have made to a wide variety of fields. From providing retrospective diagnosis, to uncovering epidemiological pathways and characterizing genetic diversity, there is clear evidence for the utility of historical isolate studies in understanding disease today. Studies utilizing historical isolate collections, such as those from the National Collection of Type Cultures, the American Type Culture Collection, and the Institut Pasteur, offer enhanced insight since they typically span a wide time period encompassing important historical events and are useful for the investigating the phylodynamics of pathogens. Furthermore, historical sequencing studies are particularly useful for looking into the evolution of antimicrobial resistance, a major public health concern. In summary, although there are limitations to working with historical bacterial isolates, especially when utilizing ancient DNA, continued improvement in molecular and sequencing technologies and the resourcefulness of investigators mean this area of study will continue to expand and contribute to the understanding of pathogens.