Booth Tim

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Booth
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Tim
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  • Article
    Toward interoperable bioscience data
    (Nature Publishing Group, 2012-01-27) Sansone, Susanna-Assunta ; Rocca-Serra, Philippe ; Field, Dawn ; Maguire, Eamonn ; Taylor, Chris ; Hofmann, Oliver ; Fang, Hong ; Neumann, Steffen ; Tong, Weida ; Amaral-Zettler, Linda A. ; Begley, Kimberly ; Booth, Tim ; Bougueleret, Lydie ; Burns, Gully ; Chapman, Brad ; Clark, Tim ; Coleman, Lee-Ann ; Copeland, Jay ; Das, Sudeshna ; de Daruvar, Antoine ; de Matos, Paula ; Dix, Ian ; Edmunds, Scott ; Evelo, Chris T. ; Forster, Mark K. ; Gaudet, Pascale ; Gilbert, Jack A. ; Goble, Carole ; Griffin, Julian L. ; Jacob, Daniel ; Kleinjans, Jos ; Harland, Lee ; Haug, Kenneth ; Hermjakob, Henning ; Ho Sui, Shannan J. ; Laederach, Alain ; Liang, Shaoguang ; Marshall, Stephen ; McGrath, Annette ; Merrill, Emily ; Reilly, Dorothy ; Roux, Magali ; Shamu, Caroline E. ; Shang, Catherine A. ; Steinbeck, Christoph ; Trefethen, Anne ; Williams-Jones, Bryn ; Wolstencroft, Katherine ; Xenarios, Ioannis ; Hide, Winston
    To make full use of research data, the bioscience community needs to adopt technologies and reward mechanisms that support interoperability and promote the growth of an open 'data commoning' culture. Here we describe the prerequisites for data commoning and present an established and growing ecosystem of solutions using the shared 'Investigation-Study-Assay' framework to support that vision.
  • Preprint
    Minimum information about a marker gene sequence (MIMARKS) and minimum information about any (x) sequence (MIxS) specifications
    ( 2011-01-04) Yilmaz, Pelin ; Kottmann, Renzo ; Field, Dawn ; Knight, Rob ; Cole, James R. ; Amaral-Zettler, Linda A. ; Gilbert, Jack A. ; Karsch-Mizrachi, Ilene ; Johnston, Anjanette ; Cochrane, Guy R. ; Vaughan, Robert ; Hunter, Christopher ; Park, Joonhong ; Morrison, Norman ; Rocca-Serra, Philippe ; Sterk, Peter ; Arumugam, Manimozhiyan ; Bailey, Mark ; Baumgartner, Laura ; Birren, Bruce W. ; Blaser, Martin J. ; Bonazzi, Vivien ; Booth, Tim ; Bork, Peer ; Bushman, Frederic D. ; Buttigieg, Pier Luigi ; Chain, Patrick S. G. ; Charlson, Emily ; Costello, Elizabeth K. ; Huot-Creasy, Heather ; Dawyndt, Peter ; DeSantis, Todd ; Fierer, Noah ; Fuhrman, Jed A. ; Gallery, Rachel E. ; Gevers, Dirk ; Gibbs, Richard A. ; San Gil, Inigo ; Gonzalez, Antonio ; Gordon, Jeffrey I. ; Guralnick, Robert P. ; Hankeln, Wolfgang ; Highlander, Sarah ; Hugenholtz, Philip ; Jansson, Janet K. ; Kau, Andrew L. ; Kelley, Scott T. ; Kennedy, Jerry ; Knights, Dan ; Koren, Omry ; Kuczynski, Justin ; Kyrpides, Nikos C. ; Larsen, Robert ; Lauber, Christian L. ; Legg, Teresa ; Ley, Ruth E. ; Lozupone, Catherine A. ; Ludwig, Wolfgang ; Lyons, Donna ; Maguire, Eamonn ; Methe, Barbara A. ; Meyer, Folker ; Muegge, Brian ; Nakielny, Sara ; Nelson, Karen E. ; Nemergut, Diana ; Neufeld, Josh D. ; Newbold, Lindsay K. ; Oliver, Anna E. ; Pace, Norman R. ; Palanisamy, Giriprakash ; Peplies, Jorg ; Petrosino, Joseph ; Proctor, Lita ; Pruesse, Elmar ; Quast, Christian ; Raes, Jeroen ; Ratnasingham, Sujeevan ; Ravel, Jacques ; Relman, David A. ; Assunta-Sansone, Susanna ; Schloss, Patrick D. ; Schriml, Lynn M. ; Sinha, Rohini ; Smith, Michelle I. ; Sodergren, Erica ; Spor, Ayme ; Stombaugh, Jesse ; Tiedje, James M. ; Ward, Doyle V. ; Weinstock, George M. ; Wendel, Doug ; White, Owen ; Whiteley, Andrew ; Wilke, Andreas ; Wortman, Jennifer R. ; Yatsunenko, Tanya ; Glockner, Frank Oliver
    Here we present a standard developed by the Genomic Standards Consortium (GSC) to describe marker gene sequences—the minimum information about a marker gene sequence (MIMARKS). We also introduce a system for describing the environment from which a biological sample originates. The “environmental packages” apply to any sequence whose origin is known and can therefore be used in combination with MIMARKS or other GSC checklists. Finally, to establish a unified standard for describing sequence data and to provide a single point of entry for the scientific community to access and learn about GSC checklists, we establish the minimum information about any (x) sequence (MIxS). Adoption of MIxS will enhance our ability to analyze natural genetic diversity across the Tree of Life as it is currently being documented by massive DNA sequencing efforts from myriad ecosystems in our ever-changing biosphere.