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Microarray and Gene Expression

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Robert Kincaid Agilent. Scott Markel LION. W.L. Marks Iobion ... Charles Troup Agilent. Joe White TIGR. John Yost National Cancer Institute (and many more) ... – PowerPoint PPT presentation

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Title: Microarray and Gene Expression


1
(No Transcript)
2
Microarray and Gene Expression Markup
Language (MAGE-ML) Evolution of a Standard
Michael Miller Senior Application
Developer Rosetta Biosoftware I3C Technical
Meeting November 8, 2002
3
Overview
Acknowledgments A World without
Standards Benefits of Standardization The Road
to Standardization Lessons Learned Links
4
Acknowledgments
  • Bill Andreopoulos University of Toronto
  • Cathy Ball Stanford University
  • Doug Bassett Rosetta Biosoftware
  • Derek Bernhart Affymetrix
  • Alvis Brazma EBI
  • Tina Boussard Stanford University
  • Steve Chervitz Affymetrix
  • Francisco De La Vega Applied Biosystems
  • Eric Deutsch ISB
  • Michael Dickson LION
  • David Frankel IONA
  • Jason Goncalves Iobion
  • Ken Griffiths LION
  • Robert Hubley ISB
  • Brandon Hunt Rosetta Biosoftware
  • Daniel Iordan Iobion
  • Hilmar Lapp Novartis GNF
  • Marc Lepage Molecular Mining
  • Scott Markel LION
  • W.L. Marks Iobion
  • Douglas McArthur UC Santa Cruz
  • Michael Miller Rosetta Biosoftware
  • Helen Parkinson EBI
  • Kjell Petersen University of Bergen
  • Todd Peterson NCGR
  • Angel Pizarro University of Pennsylvania
  • Alan Robinson EBI
  • Ugis Sarkans EBI
  • Martin Senger EBI
  • Paul Spellman UC Berkeley
  • Jason Stewart Open Informatics
  • Marcin Swiatek Imaging Research
  • Charles Troup Agilent
  • Joe White TIGR
  • John Yost National Cancer Institute
  • (and many more)

5
A World without Standards
  • Proprietary Lock-in
  • Customers must use tools specific to the
    technology purchased.
  • Allows vendor control over customers' data.
  • Continual Development
  • Everyone keeps adding or subtracting from a
    moving target.
  • What worked one day suddenly stops working the
    next.

6
Benefits of Standardization
  • Empowers gene expression data and annotation
    interchange
  • Accommodate information from all leading
    industry data formats and gene expression
    platforms.
  • Able to convert from existing formats into
    MAGE-ML.
  • Exchange data with colleagues.
  • Facilitate development of interoperable freeware
    and commercial tools for Conversion,
    Visualization, and Analysis.
  • Empowers online supplements to published
    manuscripts
  • Provide consistent format for peer review.
  • Verify minimum information required for a
    microarray experiment is provided.

7
The Road to Standardization--Beginnings
  • OMG Life Sciences Research Technical Committee
    (LSR) issues a Request for Information about Gene
    Expression, January 1999
  • Requests organizations to submit requirements
    for interchange of Gene Expression Data.
  • EBI, Rosetta Inpharmatics, and NetGenics
    respond.
  • EBI replies with what will become the basis of
    Minimum Information about Microarray Experiments
    (MIAME).
  • Rosetta Inpharmatics replies with what will be
    the basis of the XML format, Gene Expression
    Markup Language (GEML format) v1.0.
  • Microarray Gene Expression Data Group (MGED) was
    established at the International Meeting on
    Microarray Gene Expression Databases, sponsored
    by EBI, November 1999
  • Four working groups established MIAME XML
    Format Ontologies and Normalization.

8
The Road to Standardization--Proposals
  • LSR issues Gene Expression Request for Proposals
    (RFP), March 2000
  • Requirements based on the replies to the Request
    for Information.
  • GEML v1.0 XML format intoduced into production
    environment by Rosetta Inpharmatics and Agilent
    Technologies, June 2000
  • Launch of Rosetta Resolver system.
  • MGED Holds Second Meeting in Heidelberg, May 2000
  • Further develops MIAME.
  • Initial Microarray Markup Language format
    (MAML.dtd) is created.
  • LSR receives the Initial Proposals against the
    Gene Expression RFP, November 2000
  • NetGenics submittal based on CORBA interfaces.
  • Rosetta Inpharmatics submittal based on GEML
    v2.0 format.
  • EBI submittal based on MAML format.

9
The Road to Standardization--Collaboration
  • Submitters decide to collaborate
  • Submitters meet face to face at MGED3
    conference, March 2001.
  • Affymetrix, and other organizations provide
    valuable feedback.
  • Submitters adopt OMG Model Driven Architecture
    (MDA) approach
  • Start with a blank UML model, eventually named
    Microarray and Gene Expression Object Model
    (MAGE-OM).
  • Draw experience from, but do not base the model
    on either GEML or MAML.
  • MDA approach allows the submitters to
    concentrate on the domain problem and not worry
    about implementation details.
  • Follow up
  • Many teleconferences and face to face meetings
    held. Mailing list provides feedback from broad
    community.
  • Programming effort is begun after Toronto OMG
    meeting, September 2001, to generate DTD and
    platform code for Java, Perl, and C.

10
The Road to Standardization--Finalization
  • Revised Submission becomes Adopted by the OMG
  • MAGE-OM v1.0 considered complete, October 2001.
    MAGE-ML.dtd is generated from the model.
  • Submission is adopted by the OMG, January 2002,
    and begins its finalization process to work out
    any problems encountered by implementers.
  • OMG Finalization Task Force (FTF) and MGED
    Programming Effort
  • Finalization Task Force (FTF) formed at OMG to
    handle issues.
  • MGED mailing list generates discussion and
    Programming Jamborees implement and test the code
    generated from the model, finding issues and
    potential solutions to those issues.
  • Adopted Specification passes OMG vote and becomes
    an Available Specification
  • The FTF report is submitted, with an updated
    specification and MAGE-ML.dtd, and accepted by
    the OMG, October 2002.
  • MAGE-ML.dtd v1.0 available at http//schema.omg.o
    rg/lsr/gene_expression/1.0.

11
Lessons Learned
  • Process
  • By going through the OMG adoption process,
    deadlines are setup, ensuring progress will be
    made.
  • Requirements and milestones are clearly called
    out by the adoption process.
  • Peer review ensures fair treatment.
  • Specifications, once adopted, are open to
    members and non-members for comment and use.
  • Collaboration
  • Working together with fellow submitters lets
    "best of breed" emerge.
  • GEML format was strong on those areas that
    benefitted high throughput.
  • MAML format was strong in overview of gene
    expression experiments.
  • MAGE-OM combines both these ideas.
  • All interested parties can contribute, making
    everyone a stakeholder.
  • Discourages proprietary approaches by offering
    open alternative.
  • Freeware and commercially available tools will
    catalyze conversion, publication, and exchange of
    data.

12
Links
  • OMG and Submitters
  • Object Management Group www.omg.org
  • Life Science Research Domain Task Force
    www.omg.org/lsr
  • Rosetta Biosoftware www.rosettabio.com
  • Microarray Gene Expression Data Group
    www.mged.org
  • Open Source
  • Download for reference implementations
  • http//mged.sf.net/downloads.shtml
  • Discussion group
  • mged-mage http//lists.sourceforge.net/lists/lis
    tinfo/mged-mage
  • Generating Code
  • http//cvs.sourceforge.net/cgi-bin/viewcvs.cgi/mg
    ed
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