Difference between revisions of "Basics"

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==Introduction==
 
 
geWorkbench is an open-source bioinformatics platform that offers a comprehensive and extensible collection of tools for the management, analysis, visualization and annotation of biomedical data.  Many kinds of analysis are supported - for microarrays, there are filtering and normalization, basic statistical analyses, clustering, network reverse engineering, as well as many common visualization tools.  For sequence data there are routines such as BLAST, pattern detection, transcription factor mapping, and syntenic region analyis.  Furthermore, genomic sequences around markers of interest found in microarray experiements can be easily retrieved and, for example, used for promoter/transcription factor analysis.
 
 
Specific types of data supported include:
 
 
*Microarray Gene Expression
 
**Affymetrix GCOS/MAS5
 
**Matrix format (geWorkbench)
 
**RMAExpress
 
**GenePix
 
*DNA and Protein Sequences
 
**FASTA
 
*Pathways
 
**BioCarta
 
*Patterns
 
**Regular Expressions
 
*Gene Ontology
 
*Networks
 
 
Most importantly, geWorkbench provides an environment which supports moving from one data type to another in a seamless fashion, e.g. from gene expression to sequences to patterns.
 
 
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==Developing for geWorkbench==
 
 
geWorkbench has been designed using a plug-in framework which allows new modules to be developed with relative ease.  A repository will be maintained for community-developed modules.  Developers can take advantage of all the existing capabilities for data management and visualization, and thus concentrate development efforts on the more important, novel aspects of their project.
 
 
 
==geWorkbench as an interface to external data and computational resources==
 
 
geWorkbench provides access to a variety of external data sources, including:
 
*Microarray gene expression repositories (caArray)
 
*Gene annotation pages (via CGAP)
 
*DNA sequence retrieval
 
*Pathway diagrams (BioCarta)
 
 
geWorkbench also provides a gateway to several computational services currently hosted on Columbia servers and clusters, including:
 
*BLAST
 
*Pattern Discovery
 
*Synteny
 
  
  

Revision as of 16:23, 1 March 2006

Home | Quick Start | Basics | Menu Bar | Preferences | Component Configuration Manager | Workspace | Information Panel | Local Data Files | File Formats | caArray | Array Sets | Marker Sets | Microarray Dataset Viewers | Filtering | Normalization | Tutorial Data | geWorkbench-web Tutorials

Analysis Framework | ANOVA | ARACNe | BLAST | Cellular Networks KnowledgeBase | CeRNA/Hermes Query | Classification (KNN, WV) | Color Mosaic | Consensus Clustering | Cytoscape | Cupid | DeMAND | Expression Value Distribution | Fold-Change | Gene Ontology Term Analysis | Gene Ontology Viewer | GenomeSpace | genSpace | Grid Services | GSEA | Hierarchical Clustering | IDEA | Jmol | K-Means Clustering | LINCS Query | Marker Annotations | MarkUs | Master Regulator Analysis | (MRA-FET Method) | (MRA-MARINa Method) | MatrixREDUCE | MINDy | Pattern Discovery | PCA | Promoter Analysis | Pudge | SAM | Sequence Retriever | SkyBase | SkyLine | SOM | SVM | T-Test | Viper Analysis | Volcano Plot



Basic Layout of the Graphical User Interface

The graphical user interface for geWorkbench is divided into four major sections, for

1. Projects - Data management (upper left)

2. Marker and Array/Phenotype set selection and management (lower left)

3. Visualization tools (upper right)

4. Analytical tools (lower right)


(T)MGettingStarted.png


The Data Management area can hold one workspace, and a workspace in turn can hold one or more projects. Projects can be used as wished to group different data sets. Each opened data file or analysis result is stored in a project. A workspace and all the data it contains can be saved and returned to later.

The GUI provides a menu bar at top with a standard choice of commands. Many commands that are available in the menu bar are also available by right-clicking on data objects.

Component Interoperability

The most important design goal of geWorkbench is to allow data produced or altered in one module to be easily transfered to other modules for successive analysis steps. There are two places that hold shared data - the Project component (1), and the Set Selection component(2). While the Project component holds files and various types of analysis result sets, the Set Selection component groups markers or arrays/phenotypes into sets. These sets can then be selected for further analysis of only that particular subset of data. For example, several analysis components produce lists of markers, and each such new list is placed into the Markers component as a new marker set. An example of using a phenotype set is to group microarrays by their disease state.

A key feature of the GUI is that the modules displayed in the Visualization (3) and Analysis (4) areas depend on the type of data currently selected in the Project area (1). Thus you will see a different set of choices (tabs) when a microarray data set is selected, as compared to when a DNA or protein sequence file is selected. When a new data file is loaded, or an analysis produces a new data set, not only is it added to the Project area, but an appropriate viewer in the Visualization area is automatically selected.

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