The comparative method is a powerful approach in genomics research. Based on our knowledge about the phylogenetic relationships between species, we can study the evolution, diversification, and constraints of biological processes by comparing genomes, genes, and other genomic loci across species. The orthologr
package aims to provide a framework to perform large scale comparative genomics studies with R. Orthologr
aims to be as easy to use as possible - from genomic data retrieval to orthology inference and dNdS estimation between several genomes.
In combination with the R package biomartr, users can retrieve genomes, proteomes, or coding sequences for several species and use them as input
for orthology inference and dN/dS estimation with orthologr
. The advantage of using biomartr
in combination with orthologr
is that
users can join the new wave of research that promotes and facilitates
computational reproducibility in genomics studies and solve the
issue of comparing genomes with different genome assembly qualities (also referred to as genome version crisis).
You can find a detailed list of all orthologr
functions here: https://drostlab.github.io/orthologr/reference/index.html
Please cite the following paper in which I introduce orthologr
when using this package for your own research. This will allow me to continue
working on this software tool and will motivate me to extend its functionality and usability in the next years. Many thanks in advance :)
Drost et al. 2015. Evidence for Active Maintenance of Phylotranscriptomic Hourglass Patterns in Animal and Plant Embryogenesis. Mol. Biol. Evol. 32 (5): 1221-1231. doi:10.1093/molbev/msv012
In detail, orthologr
allows users to perform orthology inference and dN/dS estimation between two genomes or between several genomes. The following methods
to infer orthologous relationships between genes of entire genomes are available in this package:
The most useful implementation in orthologr
is the ability to compute synonymous versus non-synonymous substitution rates (dN/dS)
for all orthologous genes between two entire genomes.
Available dN/dS estimation methods are:
- "NG": Nei, M. and Gojobori, T. (1986)
- "LWL": Li, W.H., et al. (1985)
- "LPB": Li, W.H. (1993) and Pamilo, P. and Bianchi, N.O. (1993)
- "MLWL" (Modified LWL), MLPB (Modified LPB): Tzeng, Y.H., et al. (2004)
- "YN": Yang, Z. and Nielsen, R. (2000)
- "MYN" (Modified YN): Zhang, Z., et al. (2006)
- "GMYN": Wang, D.P., et al. Biology Direct. (2009)
- "GY": Goldman, N. and Yang, Z. (1994)
- "MS": (Model Selection): based on a set of candidate models, Posada, D. (2003)
- "MA" (Model Averaging): based on a set of candidate models, Posada, D. (2003)
- "ALL": All models toghether
Please find more details here.
# Install Bioconductor
if (!requireNamespace("BiocManager", quietly = TRUE))
install.packages("BiocManager")
BiocManager::install()
# Install package dependencies
BiocManager::install(c(
"Biostrings",
"GenomicRanges",
"GenomicFeatures",
"Rsamtools",
"rtracklayer"
))
# install CRAN dependencies
install.packages(c("doParallel", "foreach", "ape", "Rdpack", "benchmarkme", "devtools"))
# install BLAST dependency metablastr from GitHub
devtools::install_github("drostlab/metablastr")
# install DIAMOND dependency rdiamond from GitHub
devtools::install_github("drostlab/rdiamond")
# install orthologr from GitHub
devtools::install_github("drostlab/orthologr")
Learn orthologr
by reading these tutorials:
- Install Prerequisite Tools
- Perform Orthology Inference and dNdS Estimation
- Perform Only Orthology Inference
- Perform BLAST Searches
- Perform Divergence Stratigraphy
- Perform Sequence Alignments
library(orthologr)
# Detect orthologous genes between a query species and a subject species
# and compute the synonymous versus non-synonymous substitution rates (dN/dS)
# following this paradigm:
# 1) reciprocal best hit for orthology inference (RBH)
# 2) Needleman-Wunsch for pairwise amino acid alignments
# 3) pal2nal for codon alignments
# 4) Comeron for dNdS estimation
# 5) multi-core processing 'comp_cores = 1'
dNdS(query_file = system.file('seqs/ortho_thal_cds.fasta', package = 'orthologr'),
subject_file = system.file('seqs/ortho_lyra_cds.fasta', package = 'orthologr'),
delete_corrupt_cds = TRUE, # coding sequences that cannot be divided by 3 (triplets) will be removed
ortho_detection = "RBH", # perform DIAMOND best reciprocal hit orthology inference
aa_aln_type = "pairwise", # perform pairwise global alignments of AA seqs
aa_aln_tool = "NW", # using Needleman-Wunsch
codon_aln_tool = "pal2nal", # perform codon alignments using the tool Pal2Nal
dnds_est.method = "Comeron", # use Comeron's method for dN/dS inference
comp_cores = 1) # number of compute cores
# A tibble: 20 x 24
query_id subject_id dN dS dNdS perc_identity num_ident_match… alig_length
<chr> <chr> <dbl> <dbl> <dbl> <dbl> <int> <int>
1 AT1G010… 333554|PA… 0.106 0.254 0.420 74.0 347 469
2 AT1G010… 470181|PA… 0.0402 0.104 0.388 91.1 224 246
3 AT1G010… 470180|PA… 0.0150 0.126 0.118 95.5 343 359
4 AT1G010… 333551|PA… 0.0135 0.116 0.116 92.0 1812 1970
5 AT1G010… 909874|PA… 0 0.175 0 100 213 213
6 AT1G010… 470177|PA… 0.0449 0.113 0.397 89.5 580 648
7 AT1G010… 918864|PA… 0.0183 0.106 0.173 95.1 348 366
8 AT1G010… 909871|PA… 0.0340 0.106 0.322 90.3 271 300
9 AT1G010… 470171|PA… 0.00910 0.218 0.0417 96.8 420 434
10 AT1G011… 333544|PA… 0.0325 0.122 0.266 93.6 494 528
11 AT1G011… 918858|PA… 0.00307 0.133 0.0232 99.2 525 529
12 AT1G011… 470161|PA… 0.00567 0.131 0.0432 98.5 446 453
13 AT1G011… 918855|PA… 0.13 0.203 0.641 72.6 207 285
14 AT1G011… 918854|PA… 0.105 0.280 0.373 84.9 152 179
15 AT1G011… 311317|PA… 0 0.306 0 85.6 83 97
16 AT1G011… 909860|PA… 0.0297 0.176 0.168 92.6 287 310
17 AT1G011… 311315|PA… 0.0287 0.162 0.177 94.2 502 533
18 AT1G012… 470156|PA… 0.0190 0.168 0.114 95.8 228 238
19 AT1G012… 311313|PA… 0.0207 0.154 0.134 95.3 102 107
20 AT1G012… 470155|PA… 0.0157 0.153 0.102 96.7 1021 1056
# … with 16 more variables: mismatches <int>, gap_openings <int>, n_gaps <int>,
# pos_match <int>, ppos <dbl>, q_start <int>, q_end <int>, q_len <int>, qcov <int>,
# qcovhsp <int>, s_start <int>, s_end <dbl>, s_len <dbl>, evalue <dbl>, bit_score <dbl>,
# score_raw <dbl>
When running your own query file, please specify query_file = "path/to/your/cds.fasta
instead of system.file(..., package = "orthologr")
. The command system.file(..., package = "orthologr")
merely references the path to the example file stored in the orthologr
package itself.
First, users can retrieve all coding sequences from entire genomes using the biomartr package (see details here).
install.packages("biomartr")
library(biomartr)
# download all coding sequences for Mus musculus
Mmusculus_file <- biomartr::getCDS(organism = "Mus musculus", path = getwd())
# download all coding sequences for Homo sapiens
Hsapiens_file <- biomartr::getCDS(organism = "Homo sapiens", path = getwd())
# compute dN/dS values for Homo sapiens versus Mus musculus
Hs_vs_Mm_dNdS <-
dNdS(query_file = Hsapiens_file,
subject_file = Mmusculus_file,
delete_corrupt_cds = FALSE,
ortho_detection = "RBH",
aa_aln_type = "pairwise",
aa_aln_tool = "NW",
codon_aln_tool = "pal2nal",
dnds_est.method = "Comeron",
comp_cores = 1 )
# store result in Excel readable csv file
install.packages("readr")
readr::write_excel_csv(Hs_vs_Mm_dNdS, "Hs_vs_Mm_dNdS.csv")
Users can find the corresponding map at https://github.com/drostlab/dNdS_database.
This way, users can compute dN/dS values for any pairwise genome comparison.
In some cases (when working with WINDOWS machines), the installation via devtools
will not work properly. In this case users can try the follwing steps:
# On Windows, this won't work - see ?build_github_devtools
install_github("drostlab/orthologr", build_vignettes = TRUE, dependencies = TRUE)
# When working with Windows, first users need to install the
# R package: rtools -> install.packages("rtools")
# Afterwards users can install devtools -> install.packages("devtools")
# and then they can run:
devtools::install_github("drostlab/orthologr", build_vignettes = TRUE, dependencies = TRUE)
# and then call it from the library
library("orthologr", lib.loc = "C:/Program Files/R/R-3.1.1/library")
- Install
orthologr
on a Win 8 laptop: solution ( Thanks to Andres Romanowski )
blast()
: Perform a BLAST+ searchblast_best()
: Perform a BLAST+ best hit searchblast_rec()
: Perform a BLAST+ best reciprocal hit (BRH) search
multi_aln()
: Compute Multiple Sequence Alignments based on theclustalw
,t_coffee
,muscle
,clustalo
, andmafft
programs.pairwise_aln()
: Compute Pairwise Alignmentscodon_aln()
: Compute a Codon Alignment
orthologs()
: Main Orthology Inference Function
dNdS()
: Compute dNdS values for two organismssubstitutionrate()
: Internal function for dNdS computations
read.cds()
: Read the CDS of a given organismread.genome()
: Read the genome of a given organismread.proteome()
: Read the proteome of a given organismwrite.proteome()
: Save a proteome in fasta format
I would be very happy to learn more about potential improvements of the concepts and functions provided in this package.
Furthermore, in case you find some bugs, need additional (more flexible) functionality of parts of this package, or want to contribute to this project please let me know:
https://github.com/drostlab/orthologr/issues
The orthologr
package includes source code that has been published under following licenses:
All files included in `orthologr` that were taken from gestimator are
also part of libsequence.
libsequence is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 2 of the License, or
(at your option) any later version.
libsequence is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
long with libsequence. If not, see <http://www.gnu.org/licenses/>.
Modified by Sarah Scharfenberg and Hajk-Georg Drost (2014) to work
in orthologr without using external libraries from libsequence.
All changes are also free under the terms of GNU General Public License
version 2 of the License, or any later version.
In orthologr
the file parseFastaIntoAXT.pl
is stored in /inst/KaKs_Calc_parser
.
The parseFastaIntoAXT.pl script is freely available under GNU GPL v3
Licence and included in the KaKs_Calculator project that can be found at
https://code.google.com/p/kaks-calculator/