Welcome to the Genome. Michael Yudell

Welcome to the Genome - Michael Yudell


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to a single locus. Ultimately, this approach has been fruitful only in the simplest cases of inheritance. The inheritance of these types of diseases is rare, probably accounting for “no more than 5% of known disease.” (8) Yet, this single‐gene, single‐trait approach still holds considerable sway—even more than a decade into the post‐genomic era—among the general public. This despite science’s failure to genetically understand common and stubborn diseases such as cancer, heart disease, and diabetes, all of which claim many lives each year, and all of which have complex etiologies that are both genetic and environmental. If genetics in the twentieth century was about the search for origins of human traits gene by gene, then twenty‐first‐century genomics is about the transition away from single‐gene thinking and toward thinking about organisms as complex biological systems that are always interacting with our environments.

      Genomic technologies are opening up new ways of thinking about the mechanisms of our heredity, disease, and evolutionary history on this planet. For instance, the post‐genomic world has altered our view of the microbial world, and scientists are coming to understand how the microbiome impacts our health. In the field of microbial infectious disease, germ theory has dominated the way we look at and treat infectious disorders for over a century. But post‐genomic technology allows us to look at and characterize the communities of microscopic organisms involved in the functioning of our bodies in new ways, thus revolutionizing the germ theory of infectious disease. This new germ theory/microbiome paradigm is, in many ways, a radical change. Where we once thought of interactions with microbes as arms races against specific pathogens (using antibiotics to defeat microorganisms that threatened us), we are beginning to view our health more as a détente between our cells and the cells of communities of microbes.

      Another area of paradigm shift in health‐related research in the post‐genome world involves assessing genetic variability between and among human populations. The initial paradigm in using the genome to study genetic disorders was to use a group‐based approach (usually using race) called Genome Wide Association Studies (GWAS) to look for correlation of disease with genetic polymorphism. This race‐based approach has slowly given way to individualized approaches to health and a new hope for personalized medicine. Coincidentally, the sequencing of large numbers of Homo sapiens for projects like the 1000 genomes project have also led to a broader understanding, and in some cases confusions, about the relationships of human population groups to each other and a better understanding of the involvement of genetics in our conception of race.

      Welcome back to the genome.

      1 1. Richard Saltus. 2000. “Decoding of Genome Declared,” Boston Globe (June 27, 2000): p.A1.

      2 2. Nicholas Wade. 2000. “Reading the Book of Life,” New York Times (June 27, 2000): p.A1.

      3 3. Nicolas Wade. 2001. “Long Held Beliefs are Challenged by New Human Genome Analysis,” NYTimes (February 21, 2001): p.A20, https://www.nytimes.com/2001/02/12/us/long‐held‐beliefs‐are‐challenged‐by‐new‐human‐genome‐analysis.html; Natalie Angier. 2001. “Reading the Book of Life: Genome Shows Evolution Has an Eye for Hyperbole,” NYTimes (February 13, 2001): p.F1, https://www.nytimes.com/2001/02/13/science/reading‐the‐book‐of‐life‐genome‐shows‐evolution‐has‐an‐eye‐for‐hyperbole.html; Geoff Dyer, David Firn, and Victoria Griffith, 2003. “Double Helix is Starting to Make its Mark in Medicine,” Financial Times (July 4, 2003): p.20.

      4 4. Hallam Stevens. 2015. “Networks’ Representations and Tools in Postgenomics,” in Postgenomics: Perspectives on Biology After the Genome. Sarah S. Richardson and Hallam Stevens, eds. Durham, NC: Duke University Press, p.105.

      5 5. Evelyn Fox Keller. 2015. “The Postgenomic Genome,” in Postgenomics: Perspectives on Biology After the Genome. Sarah S. Richardson and Hallam Stevens, eds. Durham, NC: Duke University Press, p.25.

      6 6. Leif Bertilsson. 1995. “Geographical/Interracial Differences in Polymorphic Drug Oxidation. Current State of Knowledge of Cytochromes P450 (CYP) 2D6 and 2C19.” Clinical Pharmacokinetics 29: pp.192–209.

      7 7. Terence R. Flotte. 2015. “Therapeutic Germ Line Alteration: Has CRISPR/Cas9 Technology Forced the Question? Human Gene Therapy 26: pp.245–246.

      8 8. Kenneth Olden and Samuel Wilson. 2000. “Environmental Health and Genomics: Visions and Implications.” Nature Reviews Genetics 1: pp.149–153.

      Without any further ado, may we present to you the human genome!


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