mirror of
https://github.com/Ponce/slackbuilds
synced 2024-11-22 19:44:21 +01:00
ea5fd4180b
Signed-off-by: Dave Woodfall <dave@slackbuilds.org>
62 lines
3.1 KiB
Text
62 lines
3.1 KiB
Text
iqtree (IQ-TREE): Efficient and versatile phylogenomic software by
|
|
maximum likelihood (ML)
|
|
|
|
The IQ-TREE software was created as the successor of IQPNNI and TREE-
|
|
PUZZLE (thus the name IQ-TREE). IQ-TREE was motivated by the rapid
|
|
accumulation of phylogenomic data, leading to a need for efficient
|
|
phylogenomic software that can handle a large amount of data and provide
|
|
more complex models of sequence evolution. To this end, IQ-TREE can
|
|
utilize multicore computers and distributed parallel computing to speed
|
|
up the analysis. IQ-TREE automatically performs checkpointing to resume
|
|
an interrupted analysis.
|
|
|
|
As input IQ-TREE accepts all common sequence alignment formats including
|
|
PHYLIP, FASTA, Nexus, Clustal and MSF. As output IQ-TREE will write a
|
|
self-readable report file (name suffix .iqtree), a NEWICK tree file
|
|
(.treefile) which can be visualized by tree viewer programs such as
|
|
FigTree, Dendroscope or iTOL.
|
|
|
|
Key features
|
|
- Efficient search algorithm: Fast and effective stochastic algorithm to
|
|
reconstruct phylogenetic trees by maximum likelihood. IQ-TREE compares
|
|
favorably to RAxML and PhyML in terms of likelihood while requiring
|
|
similar amount of computing time.
|
|
- Ultrafast bootstrap: An ultrafast bootstrap approximation (UFBoot) to
|
|
assess branch supports. UFBoot is 10 to 40 times faster than RAxML
|
|
rapid bootstrap and obtains less biased support values.
|
|
- Ultrafast model selection: An ultrafast and automatic model selection
|
|
(ModelFinder) which is 10 to 100 times faster than jModelTest and
|
|
ProtTest. ModelFinder also finds best-fit partitioning scheme like
|
|
PartitionFinder.
|
|
- Big Data Analysis: Supporting huge datasets with thousands of
|
|
sequences or millions of alignment sites via checkpointing, safe
|
|
numerical and low memory mode. Multicore CPUs and parallel MPI system
|
|
are utilized to speedup analysis.
|
|
- Phylogenetic testing: Several fast branch tests like SH-aLRT and a
|
|
Bayes test and tree topology tests like the approximately unbiased
|
|
(AU) test.
|
|
|
|
The strength of IQ-TREE is the availability of a wide variety of
|
|
phylogenetic models:
|
|
- Common models: All common substitution models for DNA, protein, codon,
|
|
binary and morphological data with rate heterogeneity among sites and
|
|
ascertainment bias correction for e.g. SNP data.
|
|
- Partition models: Allowing individual models for different genomic
|
|
loci (e.g. genes or codon positions), mixed data types, mixed rate
|
|
heterogeneity types, linked or unlinked branch lengths between
|
|
partitions.
|
|
- Mixture models: fully customizable mixture models and empirical
|
|
protein mixture models and.
|
|
- Polymorphism-aware models: Accounting for incomplete lineage sorting
|
|
to infer species tree from genome-wide population data.
|
|
|
|
CITING:
|
|
To maintain IQ-TREE, support users and secure fundings, it is important
|
|
that you cite the papers, whenever the corresponding features were
|
|
applied for your analysis. Note that the paper of Nguyen et al. (2015)
|
|
only described the tree search algorithm. Thus, it is not enough to only
|
|
cite this paper if you, for example, use partition models, where
|
|
Chernomor et al. (2016) should be cited.
|
|
|
|
Check the "References" file in the package doc folder, as well as, the
|
|
program's web-page.
|