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A flexible ancestral genome reconstruction method based on gapped adjacencies
[摘要] BackgroundThe "small phylogeny" problem consists in inferring ancestral genomes associated with each internal node of a phylogenetic tree of a set of extant species. Existing methods can be grouped into two main categories: the distance-based methods aiming at minimizing a total branch length, and the synteny-based (or mapping) methods that first predict a collection of relations between ancestral markers in term of "synteny", and then assemble this collection into a set of Contiguous Ancestral Regions (CARs). The predicted CARs are likely to be more reliable as they are more directly deduced from observed conservations in extant species. However the challenge is to end up with a completely assembled genome.ResultsWe develop a new synteny-based method that is flexible enough to handle a model of evolution involving whole genome duplication events, in addition to rearrangements, gene insertions, and losses. Ancestral relationships between markers are defined in term of Gapped Adjacencies, i.e. pairs of markers separated by up to a given number of markers. It improves on a previous restricted to direct adjacencies, which revealed a high accuracy for adjacency prediction, but with the drawback of being overly conservative, i.e. of generating a large number of CARs. Applying our algorithm on various simulated data sets reveals good performance as we usually end up with a completely assembled genome, while keeping a low error rate.AvailabilityAll source code is available at http://www.iro.umontreal.ca/~mabrouk.
[发布日期] 2012-12-19 [发布机构] 
[效力级别]  [学科分类] 
[关键词] Travel Salesman Problem;Whole Genome Duplication;Ancestral Genome;Whole Genome Duplication Event;Maximum Multiplicity [时效性] 
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