Generate unique k-mers for every contig in a FASTA file.
Unique k-mer is consisted of k-mer keys (i.e. ATCGATCCTTAAGG) that are only presented in one contig, but not presented in any other contigs (for both forward and reverse strands).
This tool accepts the input of a FASTA file consisting of many contigs, and extract unique k-mers for each contig.
The output unique k-mer file and Genome file can be used for fastv: https://github.com/OpenGene/fastv, which is an ultra-fast tool to identify and visualize microbial sequences from sequencing data.
This tool outputs a folder (folder name can be specified by -o/--outdir
), which contains:
- a
index.html
file. - a
kmercollection.fasta
file, which is a single file lists all the genome names along with their unique k-mer. Each k-mer key is represented by an individual line. - a subfolder
genomes_kmers
, which contains a k-mer file and a Genome file for each contig, both in FASTA format.
You can open the index.html
with any browser, then click on the contig names to find its k-mer file and Genome file.
- a small example: http://opengene.org/uniquekmer/test/index.html. This is generated by a small FASTA (http://opengene.org/test.fasta)
- a big example: http://opengene.org/uniquekmer/viral/index.html. This is generated by a big FASTA (http://opengene.org/viral.genomic.fasta) containing all NCBI complete RefSeq release of viral sequences, which can be found from https://ftp.ncbi.nlm.nih.gov/refseq/release/viral/
This binary is only for Linux systems: http://opengene.org/uniquekmer/uniquekmer
# this binary was compiled on CentOS, and tested on CentOS/Ubuntu
wget http://opengene.org/uniquekmer/uniquekmer
chmod a+x ./uniquekmer
# step 1: get the code
git clone https://github.com/OpenGene/UniqueKMER.git
# step 2: build
cd UniqueKMER
make
# step 3: install it to system if you have a sudo permission
make install
uniquekmer -f test.fasta
You can get the test.fasta from: http://opengene.org/test.fasta
# 16-mer (i.e. ATCGATCGATCGATCG...)
uniquekmer -f test.fasta -k 16
# k-mer sequences that can be mapped to hg38 with `edit distance <=2` will be removed
uniquekmer -f test.fasta -r hg38.fasta -e 2
# the spacing will be 2, which means if `key(pos)` is stored, then `key(pos+1)` and `key(pos+2)` will be skipped
uniquekmer -f test.fasta -s 2
options:
-f, --fasta FASTA input file name (string)
-o, --outdir Directory for output. Default is unique_kmers in the current directory. (string [=unique_kmers])
-k, --kmer The length k of k-mer (3~32), default 25 (int [=25])
-s, --spacing If a key with POS is recorded, then skip [POS+1...POS+spacing] to avoid too compact result (0~100). default 0 means no skipping. (int [=0])
-g, --genome_limit Process up to genome_limit genomes in the FASTA input file. Default 0 means no limit. This option is for DEBUG. (int [=0])
-r, --ref Reference genome FASTA file name. Specify this only when you want to filter out the unique k-mer that can be mapped to reference genome. (string [=])
-e, --edit_distance k-mer mapped to reference genome with edit distance <= edit_distance will be removed (0~16). 3 for default. (int [=3])
-?, --help print this message
- You can download
k-mer
files andgenomes
files of viruses from http://opengene.org/uniquekmer/viral/index.html. This is generated by extracting unique k-mers for all genomes in a big FASTA (http://opengene.org/viral.genomic.fasta), which contains all NCBI complete RefSeq release of viral sequences that can be found from https://ftp.ncbi.nlm.nih.gov/refseq/release/viral/. The k-mers that can be mapped to human reference genome (GRCh38) withedit_distance <= 3
have already been filtered out. - You can download the
k-mer collection
file for viral genomes from: http://opengene.org/viral.kc.fasta.gz
get the pre-built k-mer file, genomes file or k-mer collection file for viruses and human microorganisms
- You can download
k-mer
files andgenomes
files of viruses from http://opengene.org/uniquekmer/microbial/index.html. This is generated by extracting unique k-mers for all genomes in a big FASTA (http://opengene.org/microbial.genomic.fasta), which contains genomes for the viruses above and common human microorganisms. The k-mers that can be mapped to human reference genome (GRCh38) withedit_distance <= 3
have already been filtered out. - You can download the
k-mer collection
file for viral genomes from: http://opengene.org/microbial.kc.fasta.gz
If you use fastv
, UniqueKMER
or the pre-generated resources provided by this repository, please cite our work as:
Shifu Chen, Changshou He, Yingqiang Li, Zhicheng Li, Charles E Melancon III. A Computational Toolset for Rapid Identification of SARS-CoV-2, other Viruses, and Microorganisms from Sequencing Data. bioRxiv 2020.05.12.092163; doi: https://doi.org/10.1101/2020.05.12.092163