An Overview of Spotfire for Gene‐Expression Studies

Deepak Kaushal1, Clayton W. Naeve1

1 St. Jude Children's Research Hospital, Memphis, Tennessee
Publication Name:  Current Protocols in Human Genetics
Unit Number:  Unit 11.9
DOI:  10.1002/0471142905.hg1109s45
Online Posting Date:  May, 2005
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Abstract

Spotfire DecisionSite for Functional Genomics (referred to here as Spotfire) is a powerful data mining and visualization application with use in many disciplines. This unit provides an overview of Spotfire's utility in analyzing gene expression data obtained from DNA microarray experiments. Analysis of microarray data requires software-based solutions able to handle and manipulate the enormous amount of data generated. Spotfire provides a solution for accessing, analyzing and visualizing data generated from microarray experiments. Spotfire is designed to allow biologists with little or no programming or statistical skills to transform, process, and analyze microarray data.

Keywords: microarray; Spotfire; gene expression; overview; DNA

     
 
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Table of Contents

  • Unit Introduction
  • Necessary Requirements for Using the Functional Genomics Module of Spotfire
  • Overview of Spotfire Visualization Window
  • DecisionSite Navigator
  • Visualizations
  • Query Devices
  • Details-on-Demand
  • Strengths and Weaknesses of Spotfire as a Desktop Microarray Analysis Software
  • Literature Cited
  • Figures
     
 
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Materials

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Figures

  •  FigureFigure 11.9.1 Various components of Spotfire DecisionSite.
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  •  FigureFigure 11.9.2 Different components of the DecisionSite Navigator.
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  •  FigureFigure 11.9.3 The Properties Dialog Box.
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  •  FigureFigure 11.9.4 Various features of the Scatter plot visualization in Spotfire.
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  •  FigureFigure 11.9.5 The Customize Colors window for scatter plot (and other visualizations).
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  •  FigureFigure 11.9.6 The Customize Shapes window for scatter plot.
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  •  FigureFigure 11.9.7 The 3D Scatter Plot visualization in Spotfire.
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  •  FigureFigure 11.9.8 The Profile Chart visualization in Spotfire.
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  •  FigureFigure 11.9.9 The Heat Map visualization in Spotfire.
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  •  FigureFigure 11.9.10 Heat Map Properties dialog box.
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  •  FigureFigure 11.9.11 The Edit Color Range dialog box allows users to choose the colors for their heat map visualization.
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  •  FigureFigure 11.9.12 The Table visualization allows users to view data in a sortable spreadsheet format. Like other visualizations, Table is also dynamically linked to the query devices and to other visualizations.
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  •  FigureFigure 11.9.13 Annotations can be appended to most visualizations (example shown here with the scatter plot) through the Properties dialog box.
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  •  FigureFigure 11.9.14 The number and type of columns in a scatter plot can be controlled via the Columns tab in the Properties dialog.
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  •  FigureFigure 11.9.15 The auto-tile feature allows all the visualizations present in a particular Spotfire session to be viewed at once.
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  •  FigureFigure 11.9.16 Various types of query devices are assigned to different data columns.
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  •  FigureFigure 11.9.17 (A) Records can be marked by left-clicking the mouse and dragging the cursor around the desired region. (B) Marking records in an irregular shape (by lasso) can be achieved by pressing Shift while left-clicking the mouse and dragging the cursor around the desired region.
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  •  FigureFigure 11.9.18 Details-on-Demand window shows a snapshot of the marked data. Data shown in this window can be exported to Excel or as text/HTML data.
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  •  FigureFigure 11.9.19 Details-on-Demand window can also be used to exhibit data for a single highlighted record.
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  •  FigureFigure 11.9.20 (A) Details-on-Demand (HTML) format. (B) Selecting the external Web browser option from the View tab allows export of the HTML data to an external browser window (C).
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Videos

Literature Cited

Literature Cited
    Blake, J.A. and Harris, M.A. 2004. The Gene Ontology (GO) Project: Structured vocabularies for molecular biology and their application to genome and expression analysis. In Current Protocols in Bioinformatics (A.D. Baxevanis, D.B. Davison, R.D.M. Page, G.A. Petsko, L.D. Stein, and G.D. Stormo, eds.) pp. 7.2.1-7.2.8. John Wiley & Sons, Hoboken, N.J.
    Cheok, M.H., Yang, W., Pui, C.H., Downing, J.R., Cheng, C., Naeve, C.W., Relling, M.V., and Evans, W.E. 2003. Treatment-specific changes in gene expression discriminate in vivo drug response in human leukemia cells. Nat. Genet. 34:85-90.
    Iyer, V.R., Eisen, M.B., Ross, D.T., Schuler, G., Moore, T., Lee, J.C., Trent, J.M., Staudt, L.M., Hudson, J. Jr., Boguski, M.S., Lashkari, D., Shalon, D., Botstein, D., and Brown, P.O. 1999. The transcriptional program in the response of human fibroblasts to serum. Science 283:83-87.
    Jamison, D.C. 2003. Structured Query Language fundamentals. In Current Protocols in Bioinformatics (A.D. Baxevanis, D.B. Davison, R.D.M. Page, G.A. Petsko, L.D. Stein, and G.D. Stormo, eds.) pp. 9.2.1-9.2.29. John Wiley & Sons, Hoboken, N.J.
    Kaushal, D. and Naeve, C.W. 2004a. Loading and preparing data for analysis in Spotfire. In Current Protocols in Bioinformatics (A.D. Baxevanis, D.B. Davison, R.D.M. Page, G.A. Petsko, L.D. Stein, and G.D. Stormo, eds.) pp. 7.8.1-7.8.25. John Wiley & Sons, Hoboken, N.J.
    Kaushal, D. and Naeve, C.W. 2004b. Analyzing and visualizing expression data with Spotfire. In Current Protocols in Bioinformatics (A.D. Baxevanis, D.B. Davison, R.D.M. Page, G.A. Petsko, L.D. Stein, and G.D. Stormo, eds.) pp. 7.9.1-7.9.43. John Wiley & Sons, Hoboken, N.J.
    Kerr, M.K. and Churchill, G.A. 2001. Experimental design for gene expression microarrays. Biostatistics 2:183-201.
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    Leung, Y.F. and Cavalieri, D. 2003. Fundamentals of cDNA microarray data analysis. Trends Genet. 19:649-659.
    Schena, M., Shalon, D, Davis, R.W., and Brown, P.O. 1995. Quantitative monitoring of gene expression patterns with a complementary DNA microarray. Science 270:467-470.
    Schena, M., Heller, R.A., Theriault, T.P., Konrad, K., Lachenmeier, E., and Davis, R.W. 1998. Microarrays: Biotechnology's discovery platform for functional genomics. Trends Biotechnol. 16:301-306.
    Smyth, G.K., Yang, Y.H., and Speed, T. 2003. Statistical issues in cDNA microarray data analysis. Methods Mol. Biol. 224:111-136.
    Yeoh, E.J., Ross, M.E., Shurtleff, S.A., Williams, W.K., Patel, D., Mahfouz, R., Behm, F.G., Raimondi, S.C., Relling, M.V., Patel, A., Cheng, C., Campana, D., Wilkins, D., Zhou, X., Li, J., Liu, H., Pui, C.H., Evans, W.E., Naeve, C., Wong, L., and Downing, J.R. 2002. Classification, subtype discovery, and prediction of outcome in pediatric acute lymphoblastic leukemia by gene expression profiling. Cancer Cell 1:133-143.
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