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Issue No.04 - July-Aug. (2012 vol.9)
pp: 1046-1058
L. Hodgkinson , Div. of Comput. Sci., Univ. of California, Berkeley, CA, USA
Detecting essential multiprotein modules that change infrequently during evolution is a challenging algorithmic task that is important for understanding the structure, function, and evolution of the biological cell. In this paper, we define a measure of modularity for interactomes and present a linear-time algorithm, Produles, for detecting multiprotein modularity conserved during evolution that improves on the running time of previous algorithms for related problems and offers desirable theoretical guarantees. We present a biologically motivated graph theoretic set of evaluation measures complementary to previous evaluation measures, demonstrate that Produles exhibits good performance by all measures, and describe certain recurrent anomalies in the performance of previous algorithms that are not detected by previous measures. Consideration of the newly defined measures and algorithm performance on these measures leads to useful insights on the nature of interactomics data and the goals of previous and current algorithms. Through randomization experiments, we demonstrate that conserved modularity is a defining characteristic of interactomes. Computational experiments on current experimentally derived interactomes for Homo sapiens and Drosophila melanogaster, combining results across algorithms, show that nearly 10 percent of current interactome proteins participate in multiprotein modules with good evidence in the protein interaction data of being conserved between human and Drosophila.
graph theory, biology, evolutionary computation, interactomics data, multiprotein modularity conserved detection, essential multiprotein module detection, biological cell, linear time algorithm, multiprotein modularity, graph theoretic set, Proteins, Evolution (biology), Organisms, Current measurement, Computational biology, Radiation detectors, Bioinformatics, algorithms., Modularity, interactomes, evolution
L. Hodgkinson, "Algorithms to Detect Multiprotein Modularity Conserved during Evolution", IEEE/ACM Transactions on Computational Biology and Bioinformatics, vol.9, no. 4, pp. 1046-1058, July-Aug. 2012, doi:10.1109/TCBB.2011.125
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