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Toward More Transparent and Reproducible Omics Studies Through a Common Metadata Checklist and Data Publications.
Kolker, Eugene; Özdemir, Vural; Martens, Lennart; Hancock, William; Anderson, Gordon; Anderson, Nathaniel; Aynacioglu, Sukru; Baranova, Ancha; Campagna, Shawn R; Chen, Rui; Choiniere, John; Dearth, Stephen P; Feng, Wu-Chun; Ferguson, Lynnette; Fox, Geoffrey; Frishman, Dmitrij; Grossman, Robert; Heath, Allison; Higdon, Roger; Hutz, Mara H; Janko, Imre; Jiang, Lihua; Joshi, Sanjay; Kel, Alexander; Kemnitz, Joseph W; Kohane, Isaac S; Kolker, Natali; Lancet, Doron; Lee, Elaine; Li, Weizhong; Lisitsa, Andrey; Llerena, Adrian; MacNealy-Koch, Courtney; Marshall, Jean-Claude; Masuzzo, Paola; May, Amanda; Mias, George; Monroe, Matthew; Montague, Elizabeth; Mooney, Sean; Nesvizhskii, Alexey; Noronha, Santosh; Omenn, Gilbert; Rajasimha, Harsha; Ramamoorthy, Preveen; Sheehan, Jerry; Smarr, Larry; Smith, Charles V; Smith, Todd; Snyder, Michael.
Afiliação
  • Kolker E; 1 Bioinformatics and High-Throughput Analysis Laboratory, Seattle Children's Research Institute , Seattle, Washington.
  • Özdemir V; 2 Predictive Analytics , Seattle Children's, Seattle, Washington.
  • Martens L; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Hancock W; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Anderson G; 4 Office of the President, Gaziantep University , International Affairs and Global Development Strategy.
  • Anderson N; 5 Faculty of Communications, Universite Bulvari , Kilis Yolu, Turkey.
  • Aynacioglu S; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Baranova A; 6 Department of Medical Protein Research, Vlaams Instituut voor Biotechnologie , Ghent, Belgium.
  • Campagna SR; 7 Department of Biochemistry, Ghent University, Ghent , Belgium.
  • Chen R; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Choiniere J; 8 Department of Chemistry, Barnett Institute, Northeastern University , Boston, Massachusetts.
  • Dearth SP; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Feng WC; 9 Fundamental & Computational Sciences Directorate, Pacific Northwest National Laboratory , Richland, Washington.
  • Ferguson L; 1 Bioinformatics and High-Throughput Analysis Laboratory, Seattle Children's Research Institute , Seattle, Washington.
  • Fox G; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Frishman D; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Grossman R; 10 Department of Pharmacology, Gaziantep University , Gaziantep, Turkey.
  • Heath A; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Higdon R; 11 School of Systems Biology, George Mason University , Manassas, Virginia.
  • Hutz MH; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Janko I; 12 Department of Chemistry, University of Tennessee Knoxville , Knoxville, Tennessee.
  • Jiang L; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Joshi S; 13 Department of Genetics, Stanford University , Stanford, California.
  • Kel A; 1 Bioinformatics and High-Throughput Analysis Laboratory, Seattle Children's Research Institute , Seattle, Washington.
  • Kemnitz JW; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Kohane IS; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Kolker N; 12 Department of Chemistry, University of Tennessee Knoxville , Knoxville, Tennessee.
  • Lancet D; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Lee E; 14 Department of Computer Science, Virginia Tech, Blacksburg Virginia.
  • Li W; 15 Department of Electrical and Computer Engineering, Virginia Tech, Blacksburg Virginia.
  • Lisitsa A; 16 SyNeRGy Laboratory, Virginia Tech, Blacksburg, Virginia.
  • Llerena A; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • MacNealy-Koch C; 17 Department of Nutrition, Auckland Cancer Society Research Centre, University of Auckland , Auckland, New Zealand.
  • Marshall JC; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Masuzzo P; 18 School of Informatics and Computing, Indiana University , Bloomington, Indiana.
  • May A; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Mias G; 19 Technische Universitat Munchen , Wissenshaftzentrum Weihenstephan, Freising, Germany.
  • Monroe M; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Montague E; 20 Institute for Genomics and Systems Biology, University of Chicago , Chicago Illinois.
  • Mooney S; 21 Department of Medicine, University of Chicago , Chicago, Illinois.
  • Nesvizhskii A; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Noronha S; 20 Institute for Genomics and Systems Biology, University of Chicago , Chicago Illinois.
  • Omenn G; 22 Knapp Center for Biomedical Discovery, University of Chicago , Chicago, Illinois.
  • Rajasimha H; 1 Bioinformatics and High-Throughput Analysis Laboratory, Seattle Children's Research Institute , Seattle, Washington.
  • Ramamoorthy P; 2 Predictive Analytics , Seattle Children's, Seattle, Washington.
  • Sheehan J; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Smarr L; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Smith CV; 23 Departamento de Genetica, Instituto de Biociencias, Federal University of Rio Grande do Sul , Porto Alegre, Brazil.
  • Smith T; 3 Data-Enabled Life Sciences Alliance (DELSA Global) , Seattle, Washington.
  • Snyder M; 24 High-Throughput Analysis Core, Seattle Children's Research Institute , Seattle, Washington.
Big Data ; 1(4): 196-201, 2013 Dec.
Article em En | MEDLINE | ID: mdl-27447251
ABSTRACT
Biological processes are fundamentally driven by complex interactions between biomolecules. Integrated high-throughput omics studies enable multifaceted views of cells, organisms, or their communities. With the advent of new post-genomics technologies, omics studies are becoming increasingly prevalent; yet the full impact of these studies can only be realized through data harmonization, sharing, meta-analysis, and integrated research. These essential steps require consistent generation, capture, and distribution of metadata. To ensure transparency, facilitate data harmonization, and maximize reproducibility and usability of life sciences studies, we propose a simple common omics metadata checklist. The proposed checklist is built on the rich ontologies and standards already in use by the life sciences community. The checklist will serve as a common denominator to guide experimental design, capture important parameters, and be used as a standard format for stand-alone data publications. The omics metadata checklist and data publications will create efficient linkages between omics data and knowledge-based life sciences innovation and, importantly, allow for appropriate attribution to data generators and infrastructure science builders in the post-genomics era. We ask that the life sciences community test the proposed omics metadata checklist and data publications and provide feedback for their use and improvement.
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Texto completo: 1 Base de dados: MEDLINE Tipo de estudo: Systematic_reviews Idioma: En Ano de publicação: 2013 Tipo de documento: Article
Texto completo
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XML
PubMed Links
Buscar no Google

Texto completo: 1 Base de dados: MEDLINE Tipo de estudo: Systematic_reviews Idioma: En Ano de publicação: 2013 Tipo de documento: Article