Strobealign is a read mapper that is typically significantly faster than other read mappers while achieving comparable or better accuracy, see the performance evaluation.
- Map single-end and paired-end reads
- Multithreading support
- Fast indexing (1-2 minutes for a human-sized reference genome using four cores)
- On-the-fly indexing by default. Optionally create an on-disk index.
- Output in standard SAM format or produce even faster results by writing PAF (without alignments)
- Strobealign is most suited for read lengths between 100 and 500 bp
Strobealign achieves its speedup by using a dynamic seed size obtained from syncmer-thinned strobemers.
For details, refer to Strobealign: flexible seed size enables ultra-fast and accurate read alignment. The paper describes v0.7.1 of the program.
For an introduction, see also the 📺 RECOMB-Seq video from 2022: “Flexible seed size enables ultra-fast and accurate read alignment” (12 minutes). For a more detailed presentation of the underlying seeding mechanism in strobealign (strobemers) see 📺 “Efficient sequence similarity searches with strobemers” (73 minutes).
- Installation
- Usage
- Command-line options
- Index files
- Changelog
- Contributing
- Evaluation
- Citation
- Version info
- License
Strobealign is available from Bioconda.
- Follow the Bioconda setup instructions
- Install strobealign into a new Conda environment:
conda create -n strobealign strobealign
- Activate the environment that was just created:
conda activate strobealign
- Run strobealign:
strobealign --version
To compile from the source, you need to have CMake, a recent g++
(tested with version 8) and zlib installed.
Then do the following:
git clone https://github.com/ksahlin/strobealign
cd strobealign
cmake -B build -DCMAKE_C_FLAGS="-march=native" -DCMAKE_CXX_FLAGS="-march=native"
make -j -C build
The resulting binary is build/strobealign
.
The binary is tailored to the CPU the compiler runs on.
If it needs to run on other machines, use this cmake
command instead for compatibility with most x86-64 CPUs in use today:
cmake -B build -DCMAKE_C_FLAGS="-msse4.2" -DCMAKE_CXX_FLAGS="-msse4.2"
See the contributing instructions for how to compile strobealign as a developer.
Experimental and incomplete Python bindings can be installed with
pip install .
. The only documentation for the moment are the tests in
tests/*.py
.
strobealign ref.fa reads.fq > output.sam # Single-end reads
strobealign ref.fa reads1.fq reads2.fq > output.sam # Paired-end reads
strobealign -x ref.fa reads.fq > output.paf # Single-end reads mapping only (PAF)
strobealign -x ref.fa reads1.fq reads2.fq > output.paf # Paired-end reads mapping only (PAF)
To use interleaved files, use the --interleaved
flag:
strobealign ref.fa reads.fq --interleaved > output.sam # Single and/or paired-end reads
To report secondary alignments, set parameter -N [INT]
for a maximum of [INT]
secondary alignments.
The above commands are suitable for interactive use and test runs.
For normal use, avoid creating SAM files on disk as they get very large compared
to their compressed BAM counterparts. Instead, either pipe strobealign’s output
into samtools view
to create unsorted BAM files:
strobealign ref.fa reads.1.fastq.gz reads.2.fastq.gz | samtools view -o mapped.bam
Or use samtools sort
to create a sorted BAM file:
strobealign ref.fa reads.1.fastq.gz reads.2.fastq.gz | samtools sort -o sorted.bam
This is usually faster than doing the two steps separately because fewer intermediate files are created.
Please run strobealign --help
to see the most up-to-date list of command-line
options. Some important ones are:
-r
: Mean read length. If given, this overrides the read length estimated from the input file(s). This is usually only required in combination with--create-index
, see index files.-t N
,--threads=N
: Use N threads. This mainly applies to the mapping step as the indexing step is only partially parallelized.--eqx
: Emit=
andX
CIGAR operations instead ofM
.-x
: Only map reads, do not do no base-level alignment. This switches the output format from SAM to PAF.--rg-id=ID
: Add RG tag to each SAM record.--rg=TAG:VALUE
: Add read group metadata to the SAM header. This can be specified multiple times. Example:--rg-id=1 --rg=SM:mysamle --rg=LB:mylibrary
.-N INT
: Output up to INT secondary alignments. By default, no secondary alignments are output.-U
: Suppress output of unmapped reads.--use-index
: Use a pre-generated index instead of generating a new one.--create-index
,-i
: Generate a strobemer index file (.sti
) and write it to disk next to the input reference FASTA. Do not map reads. If read files are provided, they are used to estimate read length. See index files.
Strobealign needs to build an index (strobemer index) of the reference before it can map reads to it. The optimal indexing parameters depend on the length of the input reads. There are currently seven different pre-defined sets of parameters that are optimized for different read lengths. These canonical read lengths are 50, 100, 125, 150, 250, 300 and 400. When deciding which of the pre-defined indexing parameter sets to use, strobealign chooses one whose canonical read length is close to the average read length of the input.
The average read length of the input is normally estimated from the first
500 reads, but can also be explicitly set with -r
.
By default, strobealign creates a new index every time the program is run. Depending on CPU, indexing a human-sized genome takes 1 to 2 minutes, which is not long compared to mapping many millions of reads. However, for repeatedly mapping small libraries, it is faster to pre-generate an index on disk and use that.
To create an index, use the --create-index
option.
Since strobealign needs to know the read length, either provide it with
read file(s) as if you wanted to map them:
strobealign --create-index ref.fa reads.1.fastq.gz reads.2.fastq.gz
Or set the read length explicitly with -r
:
strobealign --create-index ref.fa -r 150
This creates a file named ref.fa.rX.sti
containing the strobemer index,
where X
is the canonical read length that the index is optimized for (see
above).
To use the index when mapping, provide option --use-index
when doing the
actual mapping:
strobealign --use-index ref.fa reads.1.fastq.gz reads.2.fastq.gz | samtools ...
- Note that the
.sti
files are usually tied to a specific strobealign version. That is, when upgrading strobealign, the.sti
files need to be regenerated. Strobealign detects whether the index was created with an incompatible version and refuses to load it. - Index files are about four times as large as the reference.
See Changelog.
See Contributing.
See Performance evaluation for some measurements of mapping accuracy and runtime using strobealign 0.7.
Sahlin, K. Strobealign: flexible seed size enables ultra-fast and accurate read alignment. Genome Biol 23, 260 (2022). https://doi.org/10.1186/s13059-022-02831-7
Strobealign is available under the MIT license, see LICENSE.