Welcome to the Genome. Michael Yudell

Welcome to the Genome - Michael Yudell


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articles for that. This book offers something more—something useful to you, the consumer—by elucidating today’s genomic information and tomorrow’s genomic medicines and technologies. It is the latter that will, in various ways, greatly affect our lives. Although we may not directly benefit from incredible genetic discoveries, children born today come into the world with the promise that genomics will have a significant impact on their lives, and for their children the effect will be exponentially greater, continuing likewise through the generations.

      At the American Museum of Natural History (AMNH), we have worked toward integrating genomics into Museum scientific practice and into our exhibits. Way back in the fall of 2000, as part of its mission to bring cutting‐edge science to the public, the Museum held a 2‐day conference examining the social and scientific implications of the genome. Sequencing the Human Genome: New Frontiers in Science and Technology was the first major public forum to examine the implications of genomics after the release of the draft sequence of the human genome. That is where much of the thinking about this book began. Renowned scientists, including two Nobel Laureates, bioethicists, historians, biotechnology entrepreneurs, and others participated in a variety of lectures and panel discussions. This effort was followed in spring 2001 with the opening of the exhibition “The Genomic Revolution,” the largest and most comprehensive popular examination of the genome to date. Efforts continue through the Museum’s education programs and by expanding the reach of “The Genomic Revolution,” which has traveled to a nearly a dozen sites around the United States in the past decade. In addition, in 2008 the AMNH renovated its Hall of Human Biology (renamed the Spitzer Hall of Human Origins). This renovation project changed the focus of the hall from strictly paleo‐anthropological subject matter to include genomics and genetics of primates and humans specifically. Exhibit material on genomes in this permanent hall includes information on how genomes (including the Neanderthal genome) are sequenced, the similarity of primate genomes, how Neanderthal genomes compare with sapiens’ genomes, and how genetic information can be interpreted to give us an idea of the movement of humans across the planet.

      For well over a century the Museum’s halls, replete with fossils, models, and dioramas, have been home to a diversity of exhibitions that, with few exceptions, have centered on objects—exactly the fossils and dioramas that fill the Museum’s galleries. These object‐driven exhibits utilize the charisma of a specimen to engage the visitor. An ancient Barosaurus standing on its hind legs, towering 40 feet in the air does just that in the main rotunda of the Museum every day. Once a visual connection to a specimen is made, the conceptual aspects of an exhibit can be presented. In the case of the Barosaurus, the Museum can discuss a wide range of such dinosaur‐related topics as predation, evolution, and extinction. The specimen draws in the visitor, but precisely because of that charismatic attraction he or she leaves with a much deeper understanding of dinosaurs.

      For this book, a dinosaur example is again useful. Looking at the Titanosaurus skeleton that stretches the length of the Dinosaur Hall Orientation Center (it's actually so big that the designers of the mounted skeleton replica had to arrange its head to stick menacingly out of the entrance to the hall), our imagination takes us to a prehistoric era when dinosaurs ruled. But for the genome our imaginations are used in a much different way. Genes, neurons, and microbes are, in essence, invisible to us. Imagining molecular processes may be of use to a geneticist or biochemist, but for the rest of us picturing the activities of nucleic acids, DNA, and genes is a challenging, if not futile, exercise.

       Credit: American Museum of Natural History

      The charisma of the genome lies instead in its possibilities, not simply in what a molecule of DNA can do, but in what DNA can do for us—its potential to better the human condition and to alter our environment in ways once only dreamed of. Therein lies the public’s fascination with the genome and with other biotechnologies.

Image described by the caption.

       Credit: Denis Finnin, American Museum of Natural History


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