Selecting informative data for developing peptide-MHC binding predictors using a query by committee approach

J.K. Christensen, K. Lamberth, Morten Nielsen, Claus Lundegaard, Peder Worning, S.L. Lauemoller, S. Buus, Søren Brunak, Ole Lund

    Research output: Contribution to journalJournal articleResearchpeer-review

    Abstract

    Strategies for selecting informative data points for training prediction algorithms are important, particularly when data points are difficult and costly to obtain. A Query by Committee (QBC) training strategy for selecting new data points uses the disagreement between a committee of different algorithms to suggest new data points, which most rationally complement existing data, that is, they are the most informative data points. In order to evaluate this QBC approach on a real-world problem, we compared strategies for selecting new data points. We trained neural network algorithms to obtain methods to predict the binding affinity of peptides binding to the MHC class I molecule, HLA-A2. We show that the QBC strategy leads to a higher performance than a baseline strategy where new data points are selected at random from a pool of available data. Most peptides bind HLA-A2 with a low affinity, and as expected using a strategy of selecting peptides that are predicted to have high binding affinities also lead to more accurate predictors than the base line strategy. The QBC value is shown to correlate with the measured binding affinity. This demonstrates that the different predictors can easily learn if a peptide will fail to bind, but often conflict in predicting if a peptide binds. Using a carefully constructed computational setup, we demonstrate that selecting peptides with a high QBC performs better than low QBC peptides independently from binding affinity. When predictors are trained on a very limited set of data they cannot be expected to disagree in a meaningful way and we find a data limit below which the QBC strategy fails. Finally, it should be noted that data selection strategies similar to those used here might be of use in other settings in which generation of more data is a costly process.
    Original languageEnglish
    JournalNeural Computation
    Volume15
    Issue number12
    Pages (from-to)2931-2942
    ISSN0899-7667
    DOIs
    Publication statusPublished - 2003

    Fingerprint Dive into the research topics of 'Selecting informative data for developing peptide-MHC binding predictors using a query by committee approach'. Together they form a unique fingerprint.

    Cite this