ChloroKB: A Web Application for the Integration of Knowledge Related to Chloroplast Metabolic Network.

Higher plants, as autotrophic organisms, are effective sources of molecules. They hold great promise for metabolic engineering, but the behavior of plant metabolism at the network level is still incompletely described. Although structural models (stoichiometry matrices) and pathway databases are extremely useful, they cannot describe the complexity of the metabolic context, and new tools are required to visually represent integrated biocurated knowledge for use by both humans and computers. Here, we describe ChloroKB, a Web application (http://chlorokb.fr/) for visual exploration and analysis of the Arabidopsis (Arabidopsis thaliana) metabolic network in the chloroplast and related cellular pathways. The network was manually reconstructed through extensive biocuration to provide transparent traceability of experimental data. Proteins and metabolites were placed in their biological context (spatial distribution within cells, connectivity in the network, participation in supramolecular complexes, and regulatory interactions) using CellDesigner software. The network contains 1,147 reviewed proteins (559 localized exclusively in plastids, 68 in at least one additional compartment, and 520 outside the plastid), 122 proteins awaiting biochemical/genetic characterization, and 228 proteins for which genes have not yet been identified. The visual presentation is intuitive and browsing is fluid, providing instant access to the graphical representation of integrated processes and to a wealth of refined qualitative and quantitative data. ChloroKB will be a significant support for structural and quantitative kinetic modeling, for biological reasoning, when comparing novel data with established knowledge, for computer analyses, and for educational purposes. ChloroKB will be enhanced by continuous updates following contributions from plant researchers.

AT_CHLORO: The First Step When Looking for Information About Subplastidial Localization of Proteins.

Plastids contain several key subcompartments. The two limiting envelope membranes (inner and outer membrane of the plastid envelope with an intermembrane space between), an aqueous phase (stroma), and an internal membrane system terms (thylakoids) formed of flat compressed vesicles (grana) and more light structures (lamellae). The thylakoid vesicles delimit another discrete soluble compartment, the thylakoid lumen. AT_CHLORO ( http://at-chloro.prabi.fr/at_chloro/ ) is a unique database supplying information about the subplastidial localization of proteins. It was created from simultaneous proteomic analyses targeted to the main subcompartments of the chloroplast from Arabidopsis thaliana (i.e., envelope, stroma, thylakoid) and to the two subdomains of thylakoid membranes (i.e., grana and stroma lamellae). AT_CHLORO assembles several complementary information (MS-based experimental data, curated functional annotations and subplastidial localization, links to other public databases and references) which give a comprehensive overview of the current knowledge about the subplastidial localization and the function of chloroplast proteins, with a specific attention given to chloroplast envelope proteins.