HISAT2-Teaching
Category
Bioinformatics
Program On
Teaching
Version
2.1.0
Author / Distributor
Description
"HISAT2 is a fast and sensitive alignment program for mapping next-generation sequencing reads (both DNA and RNA) against the general human population (as well as against a single reference genome)." More details are at HISAT2
Running Program
The last version of this application is at /apps/eb/HISAT2/2.1.0-foss-2019b
To use this version, please load the module with
ml HISAT2/2.1.0-foss-2019b
Here is an example of a shell script, sub.sh, to run on the batch queue:
#!/bin/bash
#SBATCH --job-name=j_HISAT2
#SBATCH --partition=batch
#SBATCH --mail-type=ALL
#SBATCH --mail-user=username@uga.edu
#SBATCH --ntasks=1
#SBATCH --mem=10gb
#SBATCH --time=08:00:00
#SBATCH --output=HISAT2.%j.out
#SBATCH --error=HISAT2.%j.err
cd $SLURM_SUBMIT_DIR
ml HISAT2/2.1.0-foss-2019b
hisat2 [options]
In the real submission script, at least all the above underlined values need to be reviewed or to be replaced by the proper values.
Please refer to Running_Jobs_on_the_teaching_cluster, Run X window Jobs and Run interactive Jobs for more details of running jobs at Teaching cluster.
Here is an example of job submission command:
sbatch ./sub.sh
Documentation
ml HISAT2/2.1.0-foss-2019b hisat2 -help HISAT2 version 2.1.0 by Daehwan Kim (infphilo@gmail.com, www.ccb.jhu.edu/people/infphilo) Usage: hisat2 [options]* -x <ht2-idx> {-1 <m1> -2 <m2> | -U <r> | --sra-acc <SRA accession number>} [-S <sam>] <ht2-idx> Index filename prefix (minus trailing .X.ht2). <m1> Files with #1 mates, paired with files in <m2>. Could be gzip'ed (extension: .gz) or bzip2'ed (extension: .bz2). <m2> Files with #2 mates, paired with files in <m1>. Could be gzip'ed (extension: .gz) or bzip2'ed (extension: .bz2). <r> Files with unpaired reads. Could be gzip'ed (extension: .gz) or bzip2'ed (extension: .bz2). <SRA accession number> Comma-separated list of SRA accession numbers, e.g. --sra-acc SRR353653,SRR353654. <sam> File for SAM output (default: stdout) <m1>, <m2>, <r> can be comma-separated lists (no whitespace) and can be specified many times. E.g. '-U file1.fq,file2.fq -U file3.fq'. Options (defaults in parentheses): Input: -q query input files are FASTQ .fq/.fastq (default) --qseq query input files are in Illumina's qseq format -f query input files are (multi-)FASTA .fa/.mfa -r query input files are raw one-sequence-per-line -c <m1>, <m2>, <r> are sequences themselves, not files -s/--skip <int> skip the first <int> reads/pairs in the input (none) -u/--upto <int> stop after first <int> reads/pairs (no limit) -5/--trim5 <int> trim <int> bases from 5'/left end of reads (0) -3/--trim3 <int> trim <int> bases from 3'/right end of reads (0) --phred33 qualities are Phred+33 (default) --phred64 qualities are Phred+64 --int-quals qualities encoded as space-delimited integers --sra-acc SRA accession ID Alignment: --n-ceil <func> func for max # non-A/C/G/Ts permitted in aln (L,0,0.15) --ignore-quals treat all quality values as 30 on Phred scale (off) --nofw do not align forward (original) version of read (off) --norc do not align reverse-complement version of read (off) Spliced Alignment: --pen-cansplice <int> penalty for a canonical splice site (0) --pen-noncansplice <int> penalty for a non-canonical splice site (12) --pen-canintronlen <func> penalty for long introns (G,-8,1) with canonical splice sites --pen-noncanintronlen <func> penalty for long introns (G,-8,1) with noncanonical splice sites --min-intronlen <int> minimum intron length (20) --max-intronlen <int> maximum intron length (500000) --known-splicesite-infile <path> provide a list of known splice sites --novel-splicesite-outfile <path> report a list of splice sites --novel-splicesite-infile <path> provide a list of novel splice sites --no-temp-splicesite disable the use of splice sites found --no-spliced-alignment disable spliced alignment --rna-strandness <string> specify strand-specific information (unstranded) --tmo reports only those alignments within known transcriptome --dta reports alignments tailored for transcript assemblers --dta-cufflinks reports alignments tailored specifically for cufflinks --avoid-pseudogene tries to avoid aligning reads to pseudogenes (experimental option)� --no-templatelen-adjustment disables template length adjustment for RNA-seq reads Scoring: --mp <int>,<int> max and min penalties for mismatch; lower qual = lower penalty <6,2> --sp <int>,<int> max and min penalties for soft-clipping; lower qual = lower penalty <2,1> --no-softclip no soft-clipping --np <int> penalty for non-A/C/G/Ts in read/ref (1) --rdg <int>,<int> read gap open, extend penalties (5,3) --rfg <int>,<int> reference gap open, extend penalties (5,3) --score-min <func> min acceptable alignment score w/r/t read length (L,0.0,-0.2) Reporting: -k <int> (default: 5) report up to <int> alns per read Paired-end: -I/--minins <int> minimum fragment length (0), only valid with --no-spliced-alignment -X/--maxins <int> maximum fragment length (500), only valid with --no-spliced-alignment --fr/--rf/--ff -1, -2 mates align fw/rev, rev/fw, fw/fw (--fr) --no-mixed suppress unpaired alignments for paired reads --no-discordant suppress discordant alignments for paired reads Output: -t/--time print wall-clock time taken by search phases --un <path> write unpaired reads that didn't align to <path> --al <path> write unpaired reads that aligned at least once to <path> --un-conc <path> write pairs that didn't align concordantly to <path> --al-conc <path> write pairs that aligned concordantly at least once to <path> (Note: for --un, --al, --un-conc, or --al-conc, add '-gz' to the option name, e.g. --un-gz <path>, to gzip compress output, or add '-bz2' to bzip2 compress output.) --summary-file print alignment summary to this file. --new-summary print alignment summary in a new style, which is more machine-friendly. --quiet print nothing to stderr except serious errors --met-file <path> send metrics to file at <path> (off) --met-stderr send metrics to stderr (off) --met <int> report internal counters & metrics every <int> secs (1) --no-head supppress header lines, i.e. lines starting with @ --no-sq supppress @SQ header lines --rg-id <text> set read group id, reflected in @RG line and RG:Z: opt field --rg <text> add <text> ("lab:value") to @RG line of SAM header. Note: @RG line only printed when --rg-id is set. --omit-sec-seq put '*' in SEQ and QUAL fields for secondary alignments. Performance: -o/--offrate <int> override offrate of index; must be >= index's offrate -p/--threads <int> number of alignment threads to launch (1) --reorder force SAM output order to match order of input reads --mm use memory-mapped I/O for index; many 'hisat2's can share Other: --qc-filter filter out reads that are bad according to QSEQ filter --seed <int> seed for random number generator (0) --non-deterministic seed rand. gen. arbitrarily instead of using read attributes --remove-chrname remove 'chr' from reference names in alignment --add-chrname add 'chr' to reference names in alignment --version print version information and quit -h/--help print this usage message
Installation
Source code is obtained from HISAT2
System
64-bit Linux