Plant Methods (Mar 2011)

Exploration of plant genomes in the FLAGdb<sup>++ </sup>environment

  • Leplé Jean-Charles,
  • Label Philippe,
  • Gagnot Séverine,
  • Grevet Philippe,
  • Brunaud Véronique,
  • Guichard Cécile,
  • Tamby Jean-Philippe,
  • Samson Franck,
  • Dèrozier Sandra,
  • Lecharny Alain,
  • Aubourg Sébastien

DOI
https://doi.org/10.1186/1746-4811-7-8
Journal volume & issue
Vol. 7, no. 1
p. 8

Abstract

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Abstract Background In the contexts of genomics, post-genomics and systems biology approaches, data integration presents a major concern. Databases provide crucial solutions: they store, organize and allow information to be queried, they enhance the visibility of newly produced data by comparing them with previously published results, and facilitate the exploration and development of both existing hypotheses and new ideas. Results The FLAGdb++ information system was developed with the aim of using whole plant genomes as physical references in order to gather and merge available genomic data from in silico or experimental approaches. Available through a JAVA application, original interfaces and tools assist the functional study of plant genes by considering them in their specific context: chromosome, gene family, orthology group, co-expression cluster and functional network. FLAGdb++ is mainly dedicated to the exploration of large gene groups in order to decipher functional connections, to highlight shared or specific structural or functional features, and to facilitate translational tasks between plant species (Arabidopsis thaliana, Oryza sativa, Populus trichocarpa and Vitis vinifera). Conclusion Combining original data with the output of experts and graphical displays that differ from classical plant genome browsers, FLAGdb++ presents a powerful complementary tool for exploring plant genomes and exploiting structural and functional resources, without the need for computer programming knowledge. First launched in 2002, a 15th version of FLAGdb++ is now available and comprises four model plant genomes and over eight million genomic features.