PhyloNet 3.X.X Commands
Name | Description | Since |
| Methods for Species Tree/Network Inference | ||
| MCMC_SEQ | Co-estimates reticulate phylogenies and gene trees on sequences from multiple independent loci. | 3.6.1 |
Simulates gene trees under the multispecies network coalescent (automates the 'ms' program on an arbitrary phylogenetic network). | 3.6.1 | |
| Uses Gibbs Sampling to explore the hypothesis of the evolutionary history from a collection of gene trees. | 3.6.0 | |
| MCMC_GT | Bayesian estimation of the posterior distribution of phylogenetic networks (ILS & hybridization) given a list of gene tree topologies. | 3.6.0 |
| CalIntroRate | Quantifies the introgression probability for each reticulation branch in a given phylogenetic network. | 3.6.0 |
| InferNetwork_MPL | Infers the species network (ILS & hybridization) from gene trees using maximum pseudo-likelihood. | 3.5.5 |
| HmmCommand | Uses a hidden markov to assign a species tree to each loci in data coming from a species network. | 3.5.4 |
| InferNetwork_ML_Bootstrap | Infers a phylogenetic network (ILS & hybridization) from gene trees using maximum likelihood with parametric bootstrap. | 3.5.2 |
| InferNetwork_ML_CV | Infers a phylogenetic network (ILS & hybridization) from gene trees using maximum likelihood with cross-validation. | 3.5.2 |
| InferNetwork_ML | Infers a phylogenetic network (ILS & hybridization) from gene trees using maximum likelihood. | 3.4.0 |
| InferNetwork_MP | Infers a phylogenetic network (ILS & hybridization) from gene trees under MDC criterion using parsimony-based method. | 3.4.0 |
| DeepCoalCount_network | Counts the number of extra lineages contributed by a phylogenetic network and a set of gene trees. | 3.3.0 |
Computes the likelihood of a phylogenetic network given a collection of gene trees. | 3.3.0 | |
Computes the trees, tripartitions and clusters contained in a phylogenetic network. | 3.0.0 | |
Computes the distance between two phylogenetic networks based on their topologies. | 3.0.0 | |
Computes the number of coalescent scenarios that can explain the incongruence observed between two trees. | 3.0.0 | |
Counts the number of extra lineages contributed by a species tree and a set of gene trees. | 3.0.0 | |
Generates CPLEX input for a species tree and a set of gene trees. | 3.0.0 | |
Generates species tree topologies based on maximal sets of compatible clusters. | 3.0.0 | |
Infers the species tree using bootstrap with existing | 3.0.0 | |
Infers a species tree from gene trees using the "Democratic Vote" method. | 3.0.0 | |
Infers a species tree using the GLASS method of Roch and Mossel. | 3.0.0 | |
Infers a species tree from gene trees using greedy consensus (allows for gene trees with multiple alleles in species and for unrooted gene trees). | 3.0.0 | |
Infers a species tree from gene tree topologies using the “Minimize Deep Coalescence” (MDC) criterion. | 3.0.0 | |
Infers a species tree from gene trees with coalescent times using the MDC criterion. | 3.0.0 | |
Infers a species tree from unrooted gene tree topologies using the MDC criterion. | 3.0.0 | |
Computes the least common ancestor of a group of nodes in a tree. | 3.0.0 | |
Computes a Maximum Agreement Subtree of a pair of trees. | 3.0.0 | |
Refines and roots gene trees with respect to a rooted binary species tree under the MDC criterion. | 3.0.0 | |
Detects and reconstructs horizontal gene transfer events from phylogenetic incongruence. | 3.0.0 | |
Computes the symmetric difference, also known as the Robinson-Foulds (RF) distance, between two trees. | 3.0.0 | |