Description:

ncOrtho 0.4.6

ncOrtho


NcOrtho is a tool for the targeted search of orthologous micro RNAs (miRNAs) throughout the tree of life.
Conceptually, it works similar to the program fDOG in that a probabilistic model of
a reference miRNA is created. For training the model, orthologs of the reference sequence are first identified in
a set of taxa that are more closely related to the reference species. In contrast to fDOG, ncOrtho does not train hidden
Markov Models but covariance models (CMs) (Eddy & Durbin, 1994)
which also model conservation of the miRNA's secondary structure.

How to cite
Langschied F, Leisegang MS, Brandes RP, Ebersberger I.
ncOrtho: efficient and reliable identification of miRNA orthologs.
Nucleic Acids Res. 2023 Jun 1:gkad467.
doi: 10.1093/nar/gkad467.
Epub ahead of print. PMID: 37260093.
Getting Started
NcOrtho depends on multiple third party applications, some of which are Linux specific.
All dependencies can be installed with Anaconda.
It is recommended to create a new Anaconda environment for this. For example:
conda create --name ncOrtho python=3.11
conda activate ncOrtho

Prerequisites

Operating System: Linux (tested on: Ubuntu 20.04)
Python: version 3.7 or higher (tested with v3.11)




Tool
Tested version
Anaconda installation




BLASTn
v2.7.1
conda install -c kantorlab blastn


Infernal
v1.1.4
conda install -c bioconda infernal


t_coffee
v13.45
conda install -c bioconda t-coffee


MUSCLE
v5.1
conda install -c bioconda muscle



Installing
After installing all three dependencies, ncOrtho can be installed with pip:
pip install ncOrtho

Usage
CM construction
As a targeted search for orthologs, ncOrtho's biggest strength is its flexibility to change the taxonomic
scope of an analysis according to the research question at hand.
For this reason, a few questions need to be answered, before we can start constructing covariance models:

What is the reference species?
How phylogenetically diverse will my set of target species be?
From which species should the core set of miRNA orthologs be extracted, which will be used for training the CMs?
Which miRNAs are going to be used for the ortholog search?

To identify suitable core species for a given reference species you can calculate an estimate of conserved synteny
given a set of pairwise ortholog predictions with:
ncCheck -p <parameters.yaml> -o <outdir>

You can find additional information about ncCheck in the
WIKI.
As soon as you know what your core species are going to be, you will need to collect the following data:

Genomic sequence in FASTA format (e.g "genomic.fna" from RefSeq)
Genome annotation in GFF3 format (e.g. "genomic.gff" from RefSeq)
Pairwise orthologs of all proteins between the reference and each core species (more information
here

Modify the example parameters file to contain all
relevant paths to your input files. The "name" property of your reference and core species has to merely be a
unique identifier. It is however recommended to use whitespace-free species names to increase readability.
Additional to the parameters file, you will need a tab separated file containing the position and sequence of each
miRNA for which a model should be constructed (more information
here).
You can then start CM construction with:
ncCreate -p <parameters.yaml> -n <mirnas.tsv> -o <outdir>

If you encounter errors, make sure that:

The identifiers in the pairwise orthologs files match the ones in the gff files (use the -idtype= flag to use other
ID types)
The contig/chromosome column in tab separated miRNA input file match the contig/chromosome id
in the reference gff file

Use ncCreate -h to see all available options for CM construction.
Orthology search
You can start the orthology search with:
ncSearch -m <CMs/> -n <mirnas.tsv> -q <query_genome.fa> -r <reference_genome.fa> -o <outdir>

Use ncSearch -h to see all available options for the orthology search or have a look at the
WIKI.
Phylogenetic Analysis
To facilitate the downstream analyses of miRNA orthologs, we also supply the ncAnalyze function:
ncAnalzye -r <result directory of ncOrtho> -o <output_dir> -m <mappingfile>

This will create a phylogenetic Profile ready for visualisation in PhyloProfile
as well as calculate a supermatrix species tree based on the miRNA orthologs.
More information can be found with ncAnalyze -h or the WIKI
Support
Please refer to our Wiki Page of known issues first,
then consider opening an issue on GitHub or contacting me directly via mail
Contributors

Felix Langschied
Andreas Blaumeiser
Mirko Brüggemann
Daniel Amsel

Dept. for Applied Bioinformatics Institute for Cell Biology and Neurosciences, Goethe University, Frankfurt am Main

Ingo Ebersberger

License
This project is licensed under the GNU General Public License v3.0 - see the LICENSE.md file for details
Acknowledgments

Lorenz et al. 2011: ViennaRNA Package 2.0
Nawrocki et al. 2013: Infernal 1.1:
100-fold faster RNA homology searches
Notredame et al. 2000: T-Coffee: A Novel Method for Fast and
AccurateMultiple Sequence Alignment
Shirley et al. 2015: Efficient "pythonic" access to FASTA files using pyfaidx

Contact
For support or bug reports please contact: langschied@bio.uni-frankfurt.de

License

For personal and professional use. You cannot resell or redistribute these repositories in their original state.

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