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Compacted and colored de Bruijn graph construction and querying

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GGCAT - compacted and colored de Bruijn graph construction and querying

GGCAT is a tool for building compacted (and optionally colored) de Bruijn graphs from raw sequencing data or for merging multiple existing cDBG in a single graph. It also supports sequence queryies to either a colored or non-colored graph (i.e. number/percentage of present kmers).

Tool usage

Build a new graph

To build a new graph with a specified k of some input files, run:

ggcat build -k <k_value> -j <threads_count> <input_files> -o <output_file>

Or if you have a file with a list of input files:

ggcat build -k <k_value> -j <threads_count> -l <input_files_list> -o <output_file>

Building a colored graph

To build a colored graph, add the -c flag to the above commands

By default the color name is equal to the file name, this behavior can be overridden by specifying color names with associated input files in a separate file, and by passing it to ggcat with the -d flag. The color and file in each line should be separated by one <TAB> character.

Example color_mapping.in:

color1	file1.fa
color2	file2.fa
color2	file3.fa
color1	dir/file4.fa
color3	dir2/file5.fa

Then the graph can be built with the command:

ggcat build -k <k_value> -j <threads_count> -c -d color_mapping.in -o <output_file>

Building links

To build links between maximal unitigs in BCALM2 like format, use the -e flag

Building minimum-plain text representations of kmer sets

Unitigs are a plain-text representation of the set of kmers in the input reads / genomes, but not of minimum size. GGCAT integrates the matchtigs & eulertigs libraries. These libraries assume a set of maximal unitigs as input, and compute such minimum representations, allowing or forbidding repetitions of kmers, respectively. To build greedy matchtigs, use the -g flag; to build eulertigs, use the --eulertigs flag; to build a greedy version of eulertigs, use the --pathtigs flag.

Here are all listed the available options for graph building:

> ggcat build --help
USAGE:
	ggcat build [FLAGS] [OPTIONS] [--] [input]...

FLAGS:
	-c, --colors                            Enable colors
		--eulertigs                         Generate eulertigs instead of maximal unitigs
	-f, --forward-only                      Treats reverse complementary kmers as different
	-e, --generate-maximal-unitigs-links    Generate maximal unitigs connections references, in BCALM2 format
											L:<+/->:<other id>:<+/->
	-g, --greedy-matchtigs                  Generate greedy matchtigs instead of maximal unitigs
	-h, --help                              Prints help information
		--keep-temp-files                   Keep intermediate temporary files for debugging purposes
		--pathtigs                          Generate pathtigs instead of maximal unitigs
	-p, --prefer-memory                     Use all the given memory before writing to disk
	-V, --version                           Prints version information

OPTIONS:
	-b, --buckets-count-log <buckets-count-log>                              The log2 of the number of buckets
	-d, --colored-input-lists <colored-input-lists>...
	-w, --hash-type <hash-type>
			Hash type used to identify kmers [default: Auto]

	-l, --input-lists <input-lists>...                                       The lists of input files
		--intermediate-compression-level <intermediate-compression-level>
			The level of lz4 compression to be used for the intermediate files

	-k <klen>                                                                Specifies the k-mers length [default: 32]
		--last-step <last-step>                                               [default: BuildUnitigs]
	-m, --memory <memory>                                                    Maximum memory usage (GB) [default: 2]
	-s, --min-multiplicity <min-multiplicity>
			Minimum multiplicity required to keep a kmer [default: 2]

		--mlen <mlen>
			Overrides the default m-mers (minimizers) length

	-o, --output-file <output-file>                                           [default: output.fasta.lz4]
		--step <step>                                                         [default: MinimizerBucketing]
	-t, --temp-dir <temp-dir>
			Directory for temporary files (default .temp_files) [default: .temp_files]

	-j, --threads-count <threads-count>                                       [default: 16]

ARGS:
	<input>...    The input files

Querying a graph

To query an uncolored graph use the command:

ggcat query -k <k_value> -j <threads_count> <input-graph> <input-query>

The provided k value must match the one used for graph construction. To query a colored graph use the command:

ggcat query --colors -k <k_value> -j <threads_count> <input-graph> <input-query>

The tool automatically searches for the colormap file associated with the input graph, that must have the same name as the graph with extension '.colors.dat'

The colors in the output are by default represented by an integer, to recover a mapping between the integers and the color filenames, use the command ggcat dump-colors <colormap> <output_file>.

If you instead want the color file names to be written directly in the query output (leading to a potentially much bigger output file), pass the option -f JsonLinesWithNames.

Here are listed all the available options for graph querying:

> ggcat query --help
USAGE:
	ggcat query [FLAGS] [OPTIONS] <input-graph> <input-query>

FLAGS:
	-c, --colors             Enable colors
	-f, --forward-only       Treats reverse complementary kmers as different
	-h, --help               Prints help information
		--keep-temp-files    Keep intermediate temporary files for debugging purposes
	-p, --prefer-memory      Use all the given memory before writing to disk
	-V, --version            Prints version information

OPTIONS:
	-b, --buckets-count-log <buckets-count-log>                              The log2 of the number of buckets
	-f, --colored-query-output-format <colored-query-output-format>
	-w, --hash-type <hash-type>
			Hash type used to identify kmers [default: Auto]

		--intermediate-compression-level <intermediate-compression-level>
			The level of lz4 compression to be used for the intermediate files

	-k <klen>                                                                Specifies the k-mers length [default: 32]
	-m, --memory <memory>                                                    Maximum memory usage (GB) [default: 2]
		--mlen <mlen>
			Overrides the default m-mers (minimizers) length

	-o, --output-file-prefix <output-file-prefix>                             [default: output]
	-x, --step <step>                                                         [default: MinimizerBucketing]
	-t, --temp-dir <temp-dir>
			Directory for temporary files (default .temp_files) [default: .temp_files]

	-j, --threads-count <threads-count>                                       [default: 16]

ARGS:
	<input-graph>    The input graph
	<input-query>    The input query as a .fasta file

Installation

At the moment building from source is the only option to install the tool. To build the tool the Rust stable (>= 1.75) toolchain is required, and can be downloaded with the following commands:

Linux/Mac

curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh
rustup toolchain install stable

Windows

Follow the instructions at the site: https://rustup.rs/

The building process was not tested on windows, but it should work with minor tweaks.

Additional opt-in features

Additional features can be enabled by specifying them in the command line while building/installing GGCAT (ex. --features "feature1,feature2"):

  • kmer-counters: Adds kmer abundance for each unitig, in a BCALM2 compatible format. If enabled GGCAT uses more memory while building colored graphs

Building

Then the tool can be installed with the commands:

git clone https://github.com/algbio/ggcat --recursive
cd ggcat/
cargo install --path crates/cmdline/ --locked

the binary is automatically copied to $HOME/.cargo/bin

To launch the tool directly from the command line, the above directory should be added to the $PATH variable.

Experimental API

GGCAT has an experimental API for Rust and C++.

Rust

Add a dependency to the crates/api/ crate to use it in your project. Check crates/api/example for usage examples.

C++

Run the makefile inside crates/capi/ggcat-cpp-api to build the library. Check crates/capi/ggcat-cpp-api/example for usage examples.

Citing

If you use GGCAT in your research, please cite the following article:

Extremely-fast construction and querying of compacted and colored de Bruijn graphs with GGCAT Andrea Cracco, Alexandru I. Tomescu Genome Research gr.277615.122; doi: https://doi.org/10.1101/gr.277615.122

If you use a matchtigs/eulertigs output, please also cite the following articles:

Matchtigs: minimum plain text representation of kmer sets Sebastian Schmidt, Shahbaz Khan, Jarno Alanko, Alexandru I. Tomescu bioRxiv 2021.12.15.472871; doi: https://doi.org/10.1101/2021.12.15.472871

Eulertigs: minimum plain text representation of k-mer sets without repetitions in linear time Sebastian Schmidt and Jarno N. Alanko WABI 2022. 10.4230/LIPIcs.WABI.2022.2.