Version 69 (modified by mn, 16 years ago)

--

Day 3: Visualization Workgroup Discussion

Hands on: March 19 AM at the seminar room

Chairperson

  • Jessica Severin (severin@…)

Purpose

This working group was an opportunity for many people in the area of biological visualization to share their work. Participants were asked to demonstrate their softwares. We divided the visualizations into three main categories: Network, Expression, and genomic region visualization and different visualization systems identified if they were able to support that style of visualization. It was a wonderful opportunity to see what others were working on and what ideas or possible collaborations could be formed in the future. Some data providers were also present, and some discussion occurred regarding extending our visualization to more client/server models of remote data.

Tools

Usecase/Data

  • Cytoscape
    • kozo-ni(kozo-ni@…)
      • usecase
      • data
        • affymetrix gene-chip expression data
      • functionality needs
        • get an organism's all metabolic reactions from KEGG
        • draw enzyme or compound centric network. (In enzyme centric network, enzyme nodes share a common compound. In compound centric network, compound nodes share a common enzyme.)
        • time-series expression mapping function
      • difficulty
        • blah,blah,blah
  • E-Cell 3D
    • show dynamics of cellular simulations as well as the network
    • debug a simulation model - a molecule could be depleted or too concentrated, steady-state (balanced flux), rhythms
    • looking at the overall behavior
  • Genome Projector
    • look at a feature of interest from several different perspectives (zoom level + context)
    • overlay data
  • pARP
    • show links between several features on one genome, e.g. mappings of readpair data
  • genoDive
    • visualize a whole genome data from chromosome level to sequence level seamlessly and interactively
    • easy to use user interface and provide some new accessibility features
    • genome oriented DAS client
    • built in C++, OpenGL.
  • CGAS
    • visualize sequence alignments of genome sequences by dot plot with annotations.
    • dynamic zooming and browsing.
    • data
      • users' alignment data & annotation from NCBI.

Future directions

  • semantic zooming
    • need for queries (DAS?) to define semantic abstraction of data
    • server-side implementation to handle semantic abstraction level of returned data
  • better inter-operability between large data servers and visualization systems
    • builiding collaborations and starting new work together