Comparison of methods for estimating the nucleotide substitution matrix
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Oscamou, Maribeth
McDonald, Daniel
Yap, Von Bing
Lladser, Manuel E
Knight, Rob
Huttley, Gavin Austin
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BioMed Central
Abstract
BACKGROUND: The nucleotide substitution rate matrix is a key parameter of molecular evolution.
Several methods for inferring this parameter have been proposed, with different mathematical
bases. These methods include counting sequence differences and taking the log of the resulting
probability matrices, methods based on Markov triples, and maximum likelihood methods that infer
the substitution probabilities that lead to the most likely model of evolution. However, the speed
and accuracy of these methods has not been compared.
RESULTS: Different methods differ in performance by orders of magnitude (ranging from 1 ms to
10 s per matrix), but differences in accuracy of rate matrix reconstruction appear to be relatively
small. Encouragingly, relatively simple and fast methods can provide results at least as accurate as
far more complex and computationally intensive methods, especially when the sequences to be
compared are relatively short.
CONCLUSION: Based on the conditions tested, we recommend the use of method of Gojobori et al.
(1982) for long sequences (> 600 nucleotides), and the method of Goldman et al. (1996) for shorter
sequences (< 600 nucleotides). The method of Barry and Hartigan (1987) can provide somewhat
more accuracy, measured as the Euclidean distance between the true and inferred matrices, on long
sequences (> 2000 nucleotides) at the expense of substantially longer computation time. The
availability of methods that are both fast and accurate will allow us to gain a global picture of change
in the nucleotide substitution rate matrix on a genomewide scale across the tree of life.
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BMC Bioinformatics 9.511 (2008)
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BMC Bioinformatics
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