Compression of whole genome alignments
IEEE Transactions on Information Theory - Special issue on information theory in molecular biology and neuroscience
Research article: On the evolution rate in mammalian mitochondrial genomes
Computational Biology and Chemistry
Fast learning of gamma mixture models with k-MLE
SIMBAD'13 Proceedings of the Second international conference on Similarity-Based Pattern Recognition
Finite mixtures of unimodal beta and gamma densities and the $$k$$-bumps algorithm
Computational Statistics
Test for homogeneity in gamma mixture models using likelihood ratio
Computational Statistics & Data Analysis
Review: A review of novelty detection
Signal Processing
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Motivation: Variation of substitution rates across nucleotide and amino acid sites has long been recognized as a characteristic of molecular sequence evolution. Evolutionary models that account for this rate heterogeneity usually use a gamma density function to model the rate distribution across sites. This density function, however, may not fit real datasets, especially when there is a multimodal distribution of rates. Here, we present a novel evolutionary model based on a mixture of gamma density functions. This model better describes the among-site rate variation characteristic of molecular sequence evolution. The use of this model may improve the accuracy of various phylogenetic methods, such as reconstructing phylogenetic trees, dating divergence events, inferring ancestral sequences and detecting conserved sites in proteins. Results: Using diverse sets of protein sequences we show that the gamma mixture model better describes the stochastic process underlying protein evolution. We show that the proposed gamma mixture model fits protein datasets significantly better than the single-gamma model in 9 out of 10 datasets tested. We further show that using the gamma mixture model improves the accuracy of model-based prediction of conserved residues in proteins. Availability: C++ source codes are available from the authors upon request. Contact: talp@post.tau.ac.il