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bab finds all most parsimonious trees.
bab(data, tree = NULL, trace = 1, ...)an object of class phyDat.
a phylogenetic tree an object of class phylo, otherwise a pratchet search is performed.
defines how much information is printed during optimization.
Further arguments passed to or from other methods
bab returns all most parsimonious trees in an object of class
multiPhylo.
This implementation is very slow and depending on the data may take very
long time. In the worst case all (2n-5)!! possible trees have to be
examined, where n is the number of species / tips. For 10 species there are
already 2027025 tip-labelled unrooted trees. It only uses some basic
strategies to find a lower and upper bounds similar to penny from phylip.
bab uses a very basic heuristic approach of MinMax Squeeze
(Holland et al. 2005) to improve the lower bound. On the positive side
bab is not like many other implementations restricted to binary or
nucleotide data.
Hendy, M.D. and Penny D. (1982) Branch and bound algorithms to determine minimal evolutionary trees. Math. Biosc. 59, 277-290
Holland, B.R., Huber, K.T. Penny, D. and Moulton, V. (2005) The MinMax Squeeze: Guaranteeing a Minimal Tree for Population Data, Molecular Biology and Evolution, 22, 235--242
White, W.T. and Holland, B.R. (2011) Faster exact maximum parsimony search with XMP. Bioinformatics, 27(10),1359--1367
# NOT RUN {
data(yeast)
dfactorial(11)
# choose only the first two genes
gene12 <- yeast[, 1:3158]
trees <- bab(gene12)
# }
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