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SAMtools

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SAMtools
Original author(s)Heng Li
Developer(s)John Marshall and Petr Danecek et al [1]
Initial release2009
Stable release
1.20 / April 15, 2024; 7 months ago (2024-04-15)[2]
Repository
Written inC
Operating systemUnix-like
TypeBioinformatics
LicenseBSD, MIT
Websitewww.htslib.org Edit this on Wikidata

SAMtools is a set of utilities for interacting with and post-processing short DNA sequence read alignments in the SAM (Sequence Alignment/Map), BAM (Binary Alignment/Map) and CRAM formats, written by Heng Li. These files are generated as output by short read aligners like BWA. Both simple and advanced tools are provided, supporting complex tasks like variant calling and alignment viewing as well as sorting, indexing, data extraction and format conversion.[3] SAM files can be very large (tens of Gigabytes is common), so compression is used to save space. SAM files are human-readable text files, and BAM files are simply their binary equivalent, whilst CRAM files are a restructured column-oriented binary container format. BAM files are typically compressed and more efficient for software to work with than SAM. SAMtools makes it possible to work directly with a compressed BAM file, without having to uncompress the whole file. Additionally, since the format for a SAM/BAM file is somewhat complex - containing reads, references, alignments, quality information, and user-specified annotations - SAMtools reduces the effort needed to use SAM/BAM files by hiding low-level details.

As third-party projects were trying to use code from SAMtools despite it not being designed to be embedded in that way, the decision was taken in August 2014 to split the SAMtools package into a stand-alone software library with a well-defined API (HTSlib),[4] a project for variant calling and manipulation of variant data (BCFtools), and the stand-alone SAMtools package for working with sequence alignment data.[5]

Usage and commands

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Like many Unix commands, SAMtool commands follow a stream model, where data runs through each command as if carried on a conveyor belt. This allows combining multiple commands into a data processing pipeline. Although the final output can be very complex, only a limited number of simple commands are needed to produce it. If not specified, the standard streams (stdin, stdout, and stderr) are assumed. Data sent to stdout are printed to the screen by default but are easily redirected to another file using the normal Unix redirectors (> and >>), or to another command via a pipe (|).

SAMtools commands

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SAMtools provides the following commands, each invoked as "samtools some_command".

view
The view command filters SAM or BAM formatted data. Using options and arguments it understands what data to select (possibly all of it) and passes only that data through. Input is usually a sam or bam file specified as an argument, but could be sam or bam data piped from any other command. Possible uses include extracting a subset of data into a new file, converting between BAM and SAM formats, and just looking at the raw file contents. The order of extracted reads is preserved.
sort
The sort command sorts a BAM file based on its position in the reference, as determined by its alignment. The element + coordinate in the reference that the first matched base in the read aligns to is used as the key to order it by. [TODO: verify]. The sorted output is dumped to a new file by default, although it can be directed to stdout (using the -o option). As sorting is memory intensive and BAM files can be large, this command supports a sectioning mode (with the -m options) to use at most a given amount of memory and generate multiple output file. These files can then be merged to produce a complete sorted BAM file [TODO - investigate the details of this more carefully].
index
The index command creates a new index file that allows fast look-up of data in a (sorted) SAM or BAM. Like an index on a database, the generated *.sam.sai or *.bam.bai file allows programs that can read it to more efficiently work with the data in the associated files.
tview
The tview command starts an interactive ascii-based viewer that can be used to visualize how reads are aligned to specified small regions of the reference genome. Compared to a graphics based viewer like IGV,[6] it has few features. Within the view, it is possible to jumping to different positions along reference elements (using 'g') and display help information ('?').
mpileup
The mpileup command produces a pileup format (or BCF) file giving, for each genomic coordinate, the overlapping read bases and indels at that position in the input BAM files(s). This can be used for SNP calling for example.
flagstat

Examples

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view
samtools view sample.bam > sample.sam

Convert a bam file into a sam file.

samtools view -bS sample.sam > sample.bam

Convert a sam file into a bam file. The -b option compresses or leaves compressed input data.

samtools view sample_sorted.bam "chr1:10-13"

Extract all the reads aligned to the range specified, which are those that are aligned to the reference element named chr1 and cover its 10th, 11th, 12th or 13th base. The results is saved to a BAM file including the header. An index of the input file is required for extracting reads according to their mapping position in the reference genome, as created by samtools index.

samtools view -h -b sample_sorted.bam "chr1:10-13" > tiny_sorted.bam

Extract the same reads as above, but instead of displaying them, writes them to a new bam file, tiny_sorted.bam. The -b option makes the output compressed and the -h option causes the SAM headers to be output also. These headers include a description of the reference that the reads in sample_sorted.bam were aligned to and will be needed if the tiny_sorted.bam file is to be used with some of the more advanced SAMtools commands. The order of extracted reads is preserved.

tview
samtools tview sample_sorted.bam

Start an interactive viewer to visualize a small region of the reference, the reads aligned, and mismatches. Within the view, can jump to a new location by typing g: and a location, like g:chr1:10,000,000. If the reference element name and following colon is replaced with =, the current reference element is used, i.e. if g:=10,000,200 is typed after the previous "goto" command, the viewer jumps to the region 200 base pairs down on chr1. Typing ? brings up help information for scroll movement, colors, views, ...

samtools tview -p chrM:1 sample_chrM.bam UCSC_hg38.fa

Set start position and compare.

samtools tview -d T -p chrY:10,000,000 sample_chrY.bam UCSC_hg38.fa >> save.txt
samtools tview -d H -p chrY:10,000,000 sample_chrY.bam UCSC_hg38.fa >> save.html

Save screen in .txt or .html.

sort
samtools sort -o sorted_out unsorted_in.bam

Read the specified unsorted_in.bam as input, sort it by aligned read position, and write it out to sorted_out. Type of output can be either sam, bam, or cram, and will be determined automatically by sorted_out's file-extension.

samtools sort -m 5000000 unsorted_in.bam sorted_out

Read the specified unsorted_in.bam as input, sort it in blocks up to 5 million k (5 Gb)[units verification needed] and write output to a series of bam files named sorted_out.0000.bam, sorted_out.0001.bam, etc., where all bam 0 reads come before any bam 1 read, etc.[verification needed]

index
samtools index sorted.bam

Creates an index file, sorted.bam.bai for the sorted.bam file.

See also

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References

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  1. ^ "SAM tools". SourceForge.
  2. ^ "Releases · samtools/samtools". github.com. Retrieved 2024-07-29.
  3. ^ Li H, Handsaker B, Wysoker A, Fennell T, Ruan J, Homer N, et al. (August 2009). "The Sequence Alignment/Map format and SAMtools" (PDF). Bioinformatics. 25 (16): 2078–9. doi:10.1093/bioinformatics/btp352. PMC 2723002. PMID 19505943.
  4. ^ Bonfield JK, Marshall J, Danecek P, Li H, Ohan V, Whitwham A, et al. (February 2021). "HTSlib: C library for reading/writing high-throughput sequencing data". GigaScience. 10 (2). doi:10.1093/gigascience/giab007. PMC 7931820. PMID 33594436.
  5. ^ Danecek P, Bonfield JK, Liddle J, Marshall J, Ohan V, Pollard MO, et al. (February 2021). "Twelve years of SAMtools and BCFtools". GigaScience. 10 (2). doi:10.1093/gigascience/giab008. PMC 7931819. PMID 33590861.
  6. ^ IGV
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