6 research outputs found
Screenshot of the Cuebee interface after formulation of the query 1, âList the genes that are downregulated in the epimastigote stage and exist in a single metabolic pathway.â
<p>Each row contains triples that are required to formulate the query. The query formulation is initiated by first selecting the server (PE All Datasets). After selecting the dataset, users begin to type in the search field and Cuebee provides suggestions matching the first letters typed in a drop down list. In this case âMicroarray Analysisâ is selected, and the query was limited to microarray analysis data pertaining to only âepimastigoteâ lifecycle stage of the parasite using filtering function of Cuebee. The triples are then extended as shown to achieve the desired query. The query uses âGroup byâ function of Cuebee to group all the epimastigote genes associated with a single metabolic pathway and âRefineâ function to identify only those genes from the group that are downregulated; i.e, with log2 ratio less than â1. Specific results show a part of the results that include gene information from microarray lab data and pathway information from KEGG where each pathway ID represents specific pathway in KEGG.</p
Screenshot of the Cuebee interface for query formulation.
<p>The row contains a triple (subject-predicate-object) that is required to formulate the query. The expressions over arrows represent relationships (predicates) that link the subject and object. The query formulation is initiated by first selecting the server (PE All Datasets). If the users know which particular datasets will be used for the query, they can select dataset there, such as microarray dataset, gene knockout dataset, etc. However, if the users are not sure about this, then they can select PE All Datasets, and Cuebee will try to find answers using all the datasets in Parasite Knowledge Base (PKB). Users then begin to type in the search field and Cuebee provides suggestions matching the first letters typed in a drop-down list. In this case âMicroarray Analysisâ is selected. The users can select specific instance of Microarray Analysis if known. Else, users can select âany_Microarray_analysisâ. This will let Cuebee find answers using all the microarray data. Cuebee provides definitions on each concept (under Class Description) and more information about relationships (under Relations) as shown for the concept âgeneâ in this figure. Relationships that have asterix in front means that they are directly associated with the concept âgeneâ where âgeneâ acts as a subject of the triple. This information comes from the ontology, PEO in this case. Once the desired query is formulated, the users can click on Search and Cuebee will provide results under Specific results or General results section. Users can also query on the results of their first query using Refine button. The video demo on querying using Cuebee is available at: <a href="http://wiki.knoesis.org/index.php/Manuscript_Details" target="_blank">http://wiki.knoesis.org/index.php/Manuscript_Details</a>.</p
New Web forms that store the data in a RDF subject-predicate-object (i.e., triple) format providing opportunity to relate the data to ontology concepts.
<p>Storing the data using these Web forms has no impact on the front-end user experience, but it offers extended querying functionality through the use of ontology concepts. Provenance information added through these Web forms is instantly available for querying.</p
SPSE architecture showing how the various components work together.
<p>SPSE architecture showing how the various components work together.</p
Old Web forms in the lab that stored the experimental provenance data in a conventional relational database.
<p>Old Web forms in the lab that stored the experimental provenance data in a conventional relational database.</p