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A pipeline for binning metagenomic datasets from metaHiC data.

Project description

MetaTOR

PyPI version PyPI - Python Version Build Status codecov Docker Cloud Build Status Read the docs License: GPLv3 Code style: black

Metagenomic Tridimensional Organisation-based Reassembly - A set of scripts that streamlines the processing and binning of metagenomic metaHiC datasets.

Table of contents

Installation

Requirements

  • Python 3.6 or later is required.
  • The following librairies are required but will be automatically installed with the pip installation: numpy, scipy, sklearn, pandas, docopt, networkx biopython pyfastx and pysam.
  • The following software should be installed separately if you used the pip installation:

Using pip

   pip3 install metator

or, to use the latest version:

   pip3 install -e git+https://github.com/koszullab/metator.git@master#egg=metator

Using conda

conda create -n metator -y --log-level warning -f metator.yaml

Louvain or Leiden dependency

In order to use Louvain or Leiden it's necessary to set a global variable LOUVAIN_PATH and LEIDEN_PATH depending on which algorithm you wan to use with the absolute path where the executable are.

For Louvain algorithm in the directory where you have the archive file (available in the external directory of this repository):

YOUR_DIRECTORY=$(pwd)
tar -xvzf louvain-generic.tar.gz
cd gen-louvain
make
export LOUVAIN_PATH=$YOUR_DIRECTORY/gen-louvain/

For Leiden algorithm, clone the networkanalysis repository from github and build the Java script. Then you can export the Leiden path:

export LEIDEN_PATH=/networkanalysis_repository_path/build/libs/networkanalysis-1.2.0.jar

Using docker container

A dockerfile is also available if that is of interest. You may fetch the image by running the following:

    docker pull koszullab/metator

Usage

    metator {network|partition|validation|pipeline} [parameters]

A metaTOR command takes the form metator action --param1 arg1 --param2 arg2 #etc.

There are three actions/steps in the metaTOR pipeline, which must be run in the following order:

  • network : Generate metaHiC contigs network from fastq reads or bam files and normalize it.

  • partition : Perform the Louvain or Leiden community detection algorithm many times to bin contigs according to the metaHiC signal between contigs.

  • validation : Use CheckM to validate the bins, then do a recursive decontamination step to remove contamination.

There are a number of other, optional, miscellaneous actions:

  • pipeline : Run all three of the above actions sequentially or only some of them depending on the arguments given. This can take a while.

  • contactmap : Generates a contact map from one bin from the final ouptut of metaTOR.

  • version : display current version number.

  • help : display help message.

A tutorial is available here to explain how to use metaTOR. More advanced tutorials to analyze the output files are also available:

  • Anvio manual curation of the contaminated bins. Available here.
  • Visualization and scaffolding of the MAGs with the contactmap modules of MetaTOR. Available here.

Principle of MetaTOR pipeline:

metator_pipeline

Output files

The output files will be in the ouput directory given as parmater or in working directory if no paramater were given. Depending on the command used, different files will be in the ouptut:

Files/Commands description network partition validation pipeline
alignment_N_for.bam Bam file of the forward alignment X X
alignment_N_rev.bam Bam file of the reverse alignment X X
alignment_N.pairs Pairs of the merge alignment X X
network.txt Normalized network of the metaHiC library X X
contig_data_network.txt Information on contigs after network step X
clustering_matrix_partition.txt Matrix of clustering from the partition iterations X
contig_data_partition.txt Information on contigs after partition step X
overlapping_checkm_results.txt CheckM results summary file from the partition step X X
overlapping_checkm_taxonomy.txt CheckM taxonomy file from the partition step X X
recursive_checkm_results.txt CheckM results summary file from the recursive step X X
recursive_checkm_taxonomy.txt CheckM taxonomy file from the recursive step X X
clustering_matrix_validation.txt Matrix of clustering from the recursive iterations X
clustering_matrix.txt Matrix of clustering from the partition and recursive iterations X
contig_data_final.txt Information on contigs after whole pipeline X X
bin_summary.txt Information on the final bins X X
binning.txt File with contigs names and their final clustering X X
overlapping_bin Directory with the fasta of the partition bins X X X
recursive_bin Directory with the fasta of the recursive bins X X
final_bin Directory with the fasta of the final bins X X

Bam alignment files For the bam alignments files, only the aligned reads are kept and the bam are sorted by name. The N value correspond to the id (order of the given fastq started at 0)

Pairs aligment files This format is used to store the relevant information of mapping of the merged alignment. It's a s The N value correspond to the id (order of the given fastq started at 0). It is a tab-separated format holding informations about Hi-C pairs. It has an official specification defined by the 4D Nucleome data coordination and integration center. Here we kept 7 columns readID-chr1-pos1-chr2-pos2-strand1-strand2.

Network file This is a tsv file of the network with edgelist form: Id of the first contig, id of the second contig and the weigth of edge normalized.

Contig data files These are the files with all the informations from the contigs:

ID Name Size GC_content Hit Shotgun_coverage Restriction_site Core_bin_ID Core_bin_contigs Core_bin_size Overlapping_bin_ID Overlapping_bin_contigs Overlapping_bin_size Recursive_bin_ID Recursive_bin_contigs Recursive_bin_size Final_bin
1 NODE_1 642311 38.6876450815882 3837 41.1565 2006 1 65 2175226 1 396 6322353 1 52 2158803 MetaTOR_1_1
2 NODE_2 576356 30.235826468363303 1724 24.509 1256 2 40 1735419 2 401 735419 0 - - MetaTOR_2_0
3 NODE_3 540571 42.305266098255366 2188 14.5855 3405 3 127 6409484 3 431 13615480 1 112 6385126 MetaTOR_3_1

They have to have the header when they are use as input but the order of the columns nd if they are others columns doesn't matter when they are used as input files. Depending on which step of the pipeline have been launch they just have some of these columns:

  • contig_data_network.txt: columns: ID, Name, Size, GC content, Hit, Shotgun_coverage and Restriction Site only.
  • contig_data_partition.txt: The same as the previous with the information of core bins and overlapping bins.
  • contig_data_final.txt: All the columns.

The shotgun coverage will be filled only if the depth.txt file is given, otherwise it will be filled with -. This column is only necessarry for the abundance and the theoritical_hit normalization. The restriction will also be filled with - if no enzyme are given. This column is only necessary for the RS and the theoritical_hit normalization. Moreover, if the contig is not binned (no HiC reads mapped on it) all the columns with binning information will be filled with -, and if a bin is not recursively decontamined because it's smaller than the size threshold or it doesn't have any contamination the recusive bin information will be filled 0, -, -. Finally, if the bin is not in a final bin, it will be annotated ND in the last column (for not determined).

clustering matrix files The clustering matrix files are at the .npz format which is a compresed foramt for sparsed matrix. This sparsed matrix contains the ratio of time each pairs of contigs are clusterize together by the algorithm of clustering (either Louvain or Leiden). The partition matrix contains the information for the partition step, the recursive one for the recursive step and the general one is the mean of both matrices. Be careful the index of the contigs are zero-based and not one-based as in the contig data file.

It's possible to read them in python using the scipy.sparse.load_npz() function. If the users wants a tsv file instead, he or she could load the matrix in python using load_npz and make sure to transform the matrix in the scipy.sparse.coo_matrix function and used the function from metator metator.io.save_sparse_matrix to save it as tsv file.

CheckM results Files from checkM output. Two types of files one with the main results of checkM checkm_results.txt and one with the taxonomy checkm_taxonomy.txt for both the partition and the recurisve bins.

binning.txt file This is a tsv file with two columns: the contig name and the final were the contig is. It only contains contigs which are binned. It could be use a an input to import a binning results in anvio.

Bin summary file This is the summary of the data of the final bins build with all the step of metaTOR. The HiC coverage is the number of contacts (intra and inter contigs) per kilobase in the whole bin. The Shotgun coverage is the mean coverage normalized by the size of the shotgun reads from the depth file.

lineage completness contamination size contigs N50 longest_contig GC coding_density taxonomy Coverage
MetaTOR_8_1 o__Clostridiales 68.29 2.46 1431612 15 116129 291620 26.36 87.97 k__Bacteria;p__Firmicutes;c__Clostridia;o__Clostridiales 146.46719755483332
MetaTOR_8_2 o__Clostridiales 58.42 2.01 1396934 58 41290 174682 28.89 83.70 k__Bacteria;p__Firmicutes;c__Clostridia;o__Clostridiales 22.252416224710686
MetaTOR_8_3 o__Clostridiales 49.37 0.94 1420821 82 33095 89964 30.29 83.24 k__Bacteria;p__Firmicutes;c__Clostridia;o__Clostridiales;f__Peptostreptococcaceae_3;g__Clostridium_3 44.27369196532141

References

Contact

Authors

Research lab

Spatial Regulation of Genomes (Institut Pasteur, Paris)

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