Basing population genetic inferences and models of molecular evolution upon desired stationary distributions of DNA or protein sequences |
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Authors: | Choi Sang Chul Redelings Benjamin D Thorne Jeffrey L |
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Affiliation: | Bioinformatics Research Center, North Carolina State University, Box 7566, Raleigh, NC 27695-7566, USA. |
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Abstract: | Models of molecular evolution tend to be overly simplistic caricatures of biology that are prone to assigning high probabilities to biologically implausible DNA or protein sequences. Here, we explore how to construct time-reversible evolutionary models that yield stationary distributions of sequences that match given target distributions. By adopting comparatively realistic target distributions,evolutionary models can be improved. Instead of focusing on estimating parameters, we concentrate on the population genetic implications of these models. Specifically, we obtain estimates of the product of effective population size and relative fitness difference of alleles. The approach is illustrated with two applications to protein-coding DNA. In the first, a codon-based evolutionary model yields a stationary distribution of sequences, which, when the sequences are translated,matches a variable-length Markov model trained on human proteins. In the second, we introduce an insertion-deletion model that describes selectively neutral evolutionary changes to DNA. We then show how to modify the neutral model so that its stationary distribution at the amino acid level can match a profile hidden Markov model, such as the one associated with the Pfam database. |
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Keywords: | variable-length Markov model profile hidden Markov model insertion–deletion model scaled selection coefficient fitness Pfam |
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