BMJ : British medical journal
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The field of cancer diagnostics is in constant flux as a result of the rapid discovery of new genes associated with cancer, improvements in laboratory techniques for identifying disease causing events, and novel analytic methods that enable the integration of many different types of data. These advances have helped in the identification of novel, informative biomarkers. ⋯ The recent discovery of many novel DNA sequence variants, advances in sequencing and genomic technology, and improved analytic methods enable the impact of germline and somatic genome variation on tumorigenesis and metastasis to be determined. New molecular targets and companion diagnostics are changing the way geneticists and oncologists think about the causes, diagnosis, and treatment of cancer.
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Whole genome sequencing (WGS) of pathogens enables the sources and patterns of transmission to be identified during specific disease outbreaks and promises to transform epidemiological research on communicable diseases. This review discusses new insights into disease spread and transmission that have come from the use of WGS, particularly when combined with genomic scale phylogenetic analyses. These include elucidation of the mechanisms of cross species transmission, the potential modes of pathogen transmission, and which people in the population contribute most to transmission. ⋯ Importantly, WGS data seem to be sufficiently discriminatory to target cases linked to community or hospital contacts and hence prevent further spread, and to investigate genetically related cases without a clear epidemiological link. Approaches to combine evidence from epidemiological with genomic sequencing observations are summarised. Ongoing genomic surveillance can identify determinants of transmission, monitor pathogen evolution and adaptation, ensure the accurate and timely diagnosis of infections with epidemic potential, and refine strategies for their control.