Drawing reconciled phylogenetic trees allowing 1, 2 or 3 reconciliation levels
Build svg representations of phylogenetic reconciled (or not) trees with events (loss, duplication, speciation, transfer).
Input one newick or phyloxml file -> a svg representation of the tree with node events
Input one recphyloxml file -> a svg representation of the "path" gene (or symbiot) tree(s) inside the associated "pipe" species (or host) tree
Input two recphyloxml files -> several svg representations allowing to display 3 level reconciliations (for example gene/symbiot/host)
Keywords: phylogeny, reconciled trees, phylogenetic trees
phyloXML, recPhyloXML, rooted newick ( NHX balises will not be considered ).
single gene reconciliation in recphyloxml:
https://raw.githubusercontent.com/simonpenel/rectree2svg/5e23e92396d44a68337b33c579f2d9d372d18b4d/FAM000696reconciliatedrecphyloxml.svg
the same gene reconciliation in phyloxml:
https://raw.githubusercontent.com/simonpenel/rectree2svg/9244f3136961f909fd7b33818f0a220e3f32c880/FAM000696reconciliatedxml.svg
multiple genes reconciliation recphyloxml:
https://raw.githubusercontent.com/simonpenel/rectree2svg/684e2ecccf04408cf15815e3fb71bbeebfa19d12/tree2svg.example.svg
multiple gene trees with redundant transfers. Display only 1 gene tree and the transfers according to the abundance of the transfer:
https://raw.githubusercontent.com/simonpenel/rectree2svg/f9ee031fa23b815ff7cc7298fd0dc4fb45707d53/transfers_abundance.svg
reconciled symbiote tree with associated gene trees: https://raw.githubusercontent.com/simonpenel/thirdkind/abfb9e6a28d03860bea43b52312dc706554fd53d/outputexamples/thirdkindexample3mapped1.svg
symbiote-host reconciliation plus mapped gene transfers: https://raw.githubusercontent.com/simonpenel/thirdkind/abfb9e6a28d03860bea43b52312dc706554fd53d/outputexamples/thirdkindexample3mapped2.svg
host tree with associated gene trees: https://raw.githubusercontent.com/simonpenel/thirdkind/abfb9e6a28d03860bea43b52312dc706554fd53d/outputexamples/thirdkindexample3mapped3.svg
reconciled symbiote trees with associated gene trees: https://raw.githubusercontent.com/simonpenel/thirdkind/abfb9e6a28d03860bea43b52312dc706554fd53d/outputexamples/thirdkindexample4mapped1.svg
symbiote-host reconciliation plus mapped gene transfers: https://raw.githubusercontent.com/simonpenel/thirdkind/abfb9e6a28d03860bea43b52312dc706554fd53d/outputexamples/thirdkindexample4mapped2.svg
host tree with associated gene trees: https://raw.githubusercontent.com/simonpenel/thirdkind/abfb9e6a28d03860bea43b52312dc706554fd53d/outputexamples/thirdkindexample4mapped3.svg
thirdkind is written in Rust. The code is managed using Cargo and published on crates.io.
Install cargo:
curl https://sh.rustup.rs -sSf | sh
or for Windows see https://doc.rust-lang.org/cargo/getting-started/installation.html
Once Cargo is installed just open a new terminal and type:
cargo install thirdkind
thirdkind
You may as well install from the sources. This may be useful if you want to use the examples. Clone or download the sources here https://github.com/simonpenel/thirdkind and type:
cargo build --release
target/release/thirdkind -h
Note:
Since Rust does not include its own linker yet, you need to have a C compiler like gcc installed to act as the linker.
Read a newick, phyloxml or recPhyloXML file and create a svg.
Format is guessed according to filename (default is newick)
Usage:
thirdkind -f input file [-b][-c config file][-F format][-g input file][-G #][-h][-i][-I][-l factor][-o output file][-p][-r ratio][-s][-v]
-b : open svg in browser
-c configfile: use a configuration file
-F phylo/recphylo: force format phyloXML/recPhyloXML
-g 2nd level input file
-G <n> : display the gene #n in phyloxml style (no species tree)
-h : help
-H height : multiply the tree height by factor 'height' (default 1.0)
-i : display internal gene nodes
-I : display internal species nodes
-J : with option -t, display the abundance of redudant transfers
-L : display as landscape
-l factor: use branch length, using the given factor
-o outputfile : set name of output file
-O switching nodes in order to minimise transfer crossings (under development)
-p : build a phylogram
-r ratio : set the ratio between width of species and gene tree.
Default 1.0, you usualy do not need to change it.
-s : drawing species tree only
-S : display node support
-t <t> : redudant transfers are displayed as one, with opacity according to abundance and only if abundance is higher tan t. Only one gene is displayed.
-T <n> : with option -t, select the gene to display
-v : verbose
-W width : multiply the tree width by factor 'width' (default 1.0)
Note on -b option : you must set a browser as default application for opening svg file
Note on -g option : this will generate 3-levels reconciliation svg. For example you may input a gene-symbiote recphyloxml file with -g and symbiote-host recphyloxml file with -f
Input format is guessed according to the file name extension:
- .phyloxml => phyloXML
- .xml => recPhyloxml
- .recphyloxml => recPhyloXML
- .recPhyloXML => recPhyloXML
- .recphylo => recPhyloXML
- any other => newick
You will find several input file examples in recphyloexamples and xmlexamples directories.
thirdkind -f recphylo_examples/FAM000297_reconciliated.recphylo -b
thirdkind -f recphylo_examples/concat.xml -b -t 0
thirdkind -f recphylo_examples/test2/hote_parasite_page2.recphylo -g recphylo_examples/test2/gene_parasite_page2.recphylo -b
thirdkind -f recphylo_examples/test1_mult_parasite/rechp_dtl.recphyloxml -g recphylo_examples/test1_mult_parasite/recgs_mult_host_dtl.recphyloxml -b
You may configure some of the features of the svg with the -c option.
The default values are the values of the "config_default.txt" file.
Modify the default values and save it into "my_config.txt" then type:
``` thirdkind -f recphyloexamples/FAM000600reconciliatedbig.recphylo -c myconfig.txt -b
```
thirdkind uses the light_phylogeny library:
https://github.com/simonpenel/light_phylogeny/wiki
See http://phylariane.univ-lyon1.fr/recphyloxml/
recPhyloXML paper: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6198865/
See: http://www.phyloxml.org/
phyloXML paper: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2774328/
CECILL: https://choosealicense.com/licenses/cecill-2.1/