-.TH samtools 1 "10 November 2009" "samtools-0.1.7" "Bioinformatics tools"
+.TH samtools 1 "05 July 2011" "samtools-0.1.17" "Bioinformatics tools"
.SH NAME
.PP
samtools - Utilities for the Sequence Alignment/Map (SAM) format
+
+bcftools - Utilities for the Binary Call Format (BCF) and VCF
.SH SYNOPSIS
.PP
samtools view -bt ref_list.txt -o aln.bam aln.sam.gz
.PP
samtools index aln.sorted.bam
.PP
+samtools idxstats aln.sorted.bam
+.PP
samtools view aln.sorted.bam chr2:20,100,000-20,200,000
.PP
samtools merge out.bam in1.bam in2.bam in3.bam
.PP
samtools faidx ref.fasta
.PP
-samtools pileup -f ref.fasta aln.sorted.bam
+samtools pileup -vcf ref.fasta aln.sorted.bam
+.PP
+samtools mpileup -C50 -gf ref.fasta -r chr3:1,000-2,000 in1.bam in2.bam
.PP
samtools tview aln.sorted.bam ref.fasta
+.PP
+bcftools index in.bcf
+.PP
+bcftools view in.bcf chr2:100-200 > out.vcf
+.PP
+bcftools view -vc in.bcf > out.vcf 2> out.afs
.SH DESCRIPTION
.PP
will download the index upon absence. Samtools does not retrieve the
entire alignment file unless it is asked to do so.
-.SH COMMANDS AND OPTIONS
+.SH SAMTOOLS COMMANDS AND OPTIONS
.TP 10
-.B import
-samtools import <in.ref_list> <in.sam> <out.bam>
+.B view
+samtools view [-bchuHS] [-t in.refList] [-o output] [-f reqFlag] [-F
+skipFlag] [-q minMapQ] [-l library] [-r readGroup] [-R rgFile] <in.bam>|<in.sam> [region1 [...]]
-Since 0.1.4, this command is an alias of:
+Extract/print all or sub alignments in SAM or BAM format. If no region
+is specified, all the alignments will be printed; otherwise only
+alignments overlapping the specified regions will be output. An
+alignment may be given multiple times if it is overlapping several
+regions. A region can be presented, for example, in the following
+format: `chr2' (the whole chr2), `chr2:1000000' (region starting from
+1,000,000bp) or `chr2:1,000,000-2,000,000' (region between 1,000,000 and
+2,000,000bp including the end points). The coordinate is 1-based.
+
+.B OPTIONS:
+.RS
+.TP 8
+.B -b
+Output in the BAM format.
+.TP
+.BI -f \ INT
+Only output alignments with all bits in INT present in the FLAG
+field. INT can be in hex in the format of /^0x[0-9A-F]+/ [0]
+.TP
+.BI -F \ INT
+Skip alignments with bits present in INT [0]
+.TP
+.B -h
+Include the header in the output.
+.TP
+.B -H
+Output the header only.
+.TP
+.BI -l \ STR
+Only output reads in library STR [null]
+.TP
+.BI -o \ FILE
+Output file [stdout]
+.TP
+.BI -q \ INT
+Skip alignments with MAPQ smaller than INT [0]
+.TP
+.BI -r \ STR
+Only output reads in read group STR [null]
+.TP
+.BI -R \ FILE
+Output reads in read groups listed in
+.I FILE
+[null]
+.TP
+.B -S
+Input is in SAM. If @SQ header lines are absent, the
+.B `-t'
+option is required.
+.TP
+.B -c
+Instead of printing the alignments, only count them and print the
+total number. All filter options, such as
+.B `-f',
+.B `-F'
+and
+.B `-q'
+, are taken into account.
+.TP
+.BI -t \ FILE
+This file is TAB-delimited. Each line must contain the reference name
+and the length of the reference, one line for each distinct reference;
+additional fields are ignored. This file also defines the order of the
+reference sequences in sorting. If you run `samtools faidx <ref.fa>',
+the resultant index file
+.I <ref.fa>.fai
+can be used as this
+.I <in.ref_list>
+file.
+.TP
+.B -u
+Output uncompressed BAM. This option saves time spent on
+compression/decomprssion and is thus preferred when the output is piped
+to another samtools command.
+.RE
-samtools view -bt <in.ref_list> -o <out.bam> <in.sam>
+.TP
+.B tview
+samtools tview <in.sorted.bam> [ref.fasta]
+
+Text alignment viewer (based on the ncurses library). In the viewer,
+press `?' for help and press `g' to check the alignment start from a
+region in the format like `chr10:10,000,000' or `=10,000,000' when
+viewing the same reference sequence.
+
+.TP
+.B mpileup
+.B samtools mpileup
+.RB [ \-EBug ]
+.RB [ \-C
+.IR capQcoef ]
+.RB [ \-r
+.IR reg ]
+.RB [ \-f
+.IR in.fa ]
+.RB [ \-l
+.IR list ]
+.RB [ \-M
+.IR capMapQ ]
+.RB [ \-Q
+.IR minBaseQ ]
+.RB [ \-q
+.IR minMapQ ]
+.I in.bam
+.RI [ in2.bam
+.RI [ ... ]]
+
+Generate BCF or pileup for one or multiple BAM files. Alignment records
+are grouped by sample identifiers in @RG header lines. If sample
+identifiers are absent, each input file is regarded as one sample.
+
+In the pileup format (without
+.BR -u or -g ),
+each
+line represents a genomic position, consisting of chromosome name,
+coordinate, reference base, read bases, read qualities and alignment
+mapping qualities. Information on match, mismatch, indel, strand,
+mapping quality and start and end of a read are all encoded at the read
+base column. At this column, a dot stands for a match to the reference
+base on the forward strand, a comma for a match on the reverse strand,
+a '>' or '<' for a reference skip, `ACGTN' for a mismatch on the forward
+strand and `acgtn' for a mismatch on the reverse strand. A pattern
+`\\+[0-9]+[ACGTNacgtn]+' indicates there is an insertion between this
+reference position and the next reference position. The length of the
+insertion is given by the integer in the pattern, followed by the
+inserted sequence. Similarly, a pattern `-[0-9]+[ACGTNacgtn]+'
+represents a deletion from the reference. The deleted bases will be
+presented as `*' in the following lines. Also at the read base column, a
+symbol `^' marks the start of a read. The ASCII of the character
+following `^' minus 33 gives the mapping quality. A symbol `$' marks the
+end of a read segment.
+
+.B Input Options:
+.RS
+.TP 10
+.B -6
+Assume the quality is in the Illumina 1.3+ encoding.
+.B -A
+Do not skip anomalous read pairs in variant calling.
+.TP
+.B -B
+Disable probabilistic realignment for the computation of base alignment
+quality (BAQ). BAQ is the Phred-scaled probability of a read base being
+misaligned. Applying this option greatly helps to reduce false SNPs
+caused by misalignments.
+.TP
+.BI -b \ FILE
+List of input BAM files, one file per line [null]
+.TP
+.BI -C \ INT
+Coefficient for downgrading mapping quality for reads containing
+excessive mismatches. Given a read with a phred-scaled probability q of
+being generated from the mapped position, the new mapping quality is
+about sqrt((INT-q)/INT)*INT. A zero value disables this
+functionality; if enabled, the recommended value for BWA is 50. [0]
+.TP
+.BI -d \ INT
+At a position, read maximally
+.I INT
+reads per input BAM. [250]
+.TP
+.B -E
+Extended BAQ computation. This option helps sensitivity especially for MNPs, but may hurt
+specificity a little bit.
+.TP
+.BI -f \ FILE
+The
+.BR faidx -indexed
+reference file in the FASTA format. The file can be optionally compressed by
+.BR razip .
+[null]
+.TP
+.BI -l \ FILE
+BED or position list file containing a list of regions or sites where pileup or BCF should be generated [null]
+.TP
+.BI -q \ INT
+Minimum mapping quality for an alignment to be used [0]
+.TP
+.BI -Q \ INT
+Minimum base quality for a base to be considered [13]
+.TP
+.BI -r \ STR
+Only generate pileup in region
+.I STR
+[all sites]
+.TP
+.B Output Options:
+
+.TP
+.B -D
+Output per-sample read depth
+.TP
+.B -g
+Compute genotype likelihoods and output them in the binary call format (BCF).
+.TP
+.B -S
+Output per-sample Phred-scaled strand bias P-value
+.TP
+.B -u
+Similar to
+.B -g
+except that the output is uncompressed BCF, which is preferred for piping.
+
+.TP
+.B Options for Genotype Likelihood Computation (for -g or -u):
+
+.TP
+.BI -e \ INT
+Phred-scaled gap extension sequencing error probability. Reducing
+.I INT
+leads to longer indels. [20]
+.TP
+.BI -h \ INT
+Coefficient for modeling homopolymer errors. Given an
+.IR l -long
+homopolymer
+run, the sequencing error of an indel of size
+.I s
+is modeled as
+.IR INT * s / l .
+[100]
+.TP
+.B -I
+Do not perform INDEL calling
+.TP
+.BI -L \ INT
+Skip INDEL calling if the average per-sample depth is above
+.IR INT .
+[250]
+.TP
+.BI -o \ INT
+Phred-scaled gap open sequencing error probability. Reducing
+.I INT
+leads to more indel calls. [40]
+.TP
+.BI -P \ STR
+Comma dilimited list of platforms (determined by
+.BR @RG-PL )
+from which indel candidates are obtained. It is recommended to collect
+indel candidates from sequencing technologies that have low indel error
+rate such as ILLUMINA. [all]
+.RE
+
+.TP
+.B reheader
+samtools reheader <in.header.sam> <in.bam>
+
+Replace the header in
+.I in.bam
+with the header in
+.I in.header.sam.
+This command is much faster than replacing the header with a
+BAM->SAM->BAM conversion.
+
+.TP
+.B cat
+samtools cat [-h header.sam] [-o out.bam] <in1.bam> <in2.bam> [ ... ]
+
+Concatenate BAMs. The sequence dictionary of each input BAM must be identical,
+although this command does not check this. This command uses a similar trick
+to
+.B reheader
+which enables fast BAM concatenation.
.TP
.B sort
-samtools sort [-n] [-m maxMem] <in.bam> <out.prefix>
+samtools sort [-no] [-m maxMem] <in.bam> <out.prefix>
Sort alignments by leftmost coordinates. File
.I <out.prefix>.bam
.B OPTIONS:
.RS
.TP 8
+.B -o
+Output the final alignment to the standard output.
+.TP
.B -n
Sort by read names rather than by chromosomal coordinates
.TP
-.B -m INT
+.BI -m \ INT
Approximately the maximum required memory. [500000000]
.RE
.TP
.B merge
-samtools merge [-h inh.sam] [-n] <out.bam> <in1.bam> <in2.bam> [...]
+samtools merge [-nur1f] [-h inh.sam] [-R reg] <out.bam> <in1.bam> <in2.bam> [...]
Merge multiple sorted alignments.
The header reference lists of all the input BAM files, and the @SQ headers of
.B OPTIONS:
.RS
.TP 8
-.B -h FILE
+.B -1
+Use zlib compression level 1 to comrpess the output
+.TP
+.B -f
+Force to overwrite the output file if present.
+.TP 8
+.BI -h \ FILE
Use the lines of
.I FILE
as `@' headers to be copied to
.B -n
The input alignments are sorted by read names rather than by chromosomal
coordinates
+.TP
+.BI -R \ STR
+Merge files in the specified region indicated by
+.I STR
+[null]
+.TP
+.B -r
+Attach an RG tag to each alignment. The tag value is inferred from file names.
+.TP
+.B -u
+Uncompressed BAM output
.RE
.TP
will be created.
.TP
-.B view
-samtools view [-bhuHS] [-t in.refList] [-o output] [-f reqFlag] [-F
-skipFlag] [-q minMapQ] [-l library] [-r readGroup] <in.bam>|<in.sam> [region1 [...]]
+.B idxstats
+samtools idxstats <aln.bam>
-Extract/print all or sub alignments in SAM or BAM format. If no region
-is specified, all the alignments will be printed; otherwise only
-alignments overlapping the specified regions will be output. An
-alignment may be given multiple times if it is overlapping several
-regions. A region can be presented, for example, in the following
-format: `chr2' (the whole chr2), `chr2:1000000' (region starting from
-1,000,000bp) or `chr2:1,000,000-2,000,000' (region between 1,000,000 and
-2,000,000bp including the end points). The coordinate is 1-based.
-
-.B OPTIONS:
-.RS
-.TP 8
-.B -b
-Output in the BAM format.
-.TP
-.B -u
-Output uncompressed BAM. This option saves time spent on
-compression/decomprssion and is thus preferred when the output is piped
-to another samtools command.
-.TP
-.B -h
-Include the header in the output.
-.TP
-.B -H
-Output the header only.
-.TP
-.B -S
-Input is in SAM. If @SQ header lines are absent, the
-.B `-t'
-option is required.
-.TP
-.B -t FILE
-This file is TAB-delimited. Each line must contain the reference name
-and the length of the reference, one line for each distinct reference;
-additional fields are ignored. This file also defines the order of the
-reference sequences in sorting. If you run `samtools faidx <ref.fa>',
-the resultant index file
-.I <ref.fa>.fai
-can be used as this
-.I <in.ref_list>
-file.
-.TP
-.B -o FILE
-Output file [stdout]
-.TP
-.B -f INT
-Only output alignments with all bits in INT present in the FLAG
-field. INT can be in hex in the format of /^0x[0-9A-F]+/ [0]
-.TP
-.B -F INT
-Skip alignments with bits present in INT [0]
-.TP
-.B -q INT
-Skip alignments with MAPQ smaller than INT [0]
-.TP
-.B -l STR
-Only output reads in library STR [null]
-.TP
-.B -r STR
-Only output reads in read group STR [null]
-.RE
+Retrieve and print stats in the index file. The output is TAB delimited
+with each line consisting of reference sequence name, sequence length, #
+mapped reads and # unmapped reads.
.TP
.B faidx
format.
.TP
-.B pileup
-samtools pileup [-f in.ref.fasta] [-t in.ref_list] [-l in.site_list]
-[-iscgS2] [-T theta] [-N nHap] [-r pairDiffRate] <in.bam>|<in.sam>
+.B fixmate
+samtools fixmate <in.nameSrt.bam> <out.bam>
-Print the alignment in the pileup format. In the pileup format, each
-line represents a genomic position, consisting of chromosome name,
-coordinate, reference base, read bases, read qualities and alignment
-mapping qualities. Information on match, mismatch, indel, strand,
-mapping quality and start and end of a read are all encoded at the read
-base column. At this column, a dot stands for a match to the reference
-base on the forward strand, a comma for a match on the reverse strand,
-`ACGTN' for a mismatch on the forward strand and `acgtn' for a mismatch
-on the reverse strand. A pattern `\\+[0-9]+[ACGTNacgtn]+' indicates
-there is an insertion between this reference position and the next
-reference position. The length of the insertion is given by the integer
-in the pattern, followed by the inserted sequence. Similarly, a pattern
-`-[0-9]+[ACGTNacgtn]+' represents a deletion from the reference. The
-deleted bases will be presented as `*' in the following lines. Also at
-the read base column, a symbol `^' marks the start of a read segment
-which is a contiguous subsequence on the read separated by `N/S/H' CIGAR
-operations. The ASCII of the character following `^' minus 33 gives the
-mapping quality. A symbol `$' marks the end of a read segment.
-
-If option
-.B -c
-is applied, the consensus base, Phred-scaled consensus quality, SNP
-quality (i.e. the Phred-scaled probability of the consensus being
-identical to the reference) and root mean square (RMS) mapping quality
-of the reads covering the site will be inserted between the `reference
-base' and the `read bases' columns. An indel occupies an additional
-line. Each indel line consists of chromosome name, coordinate, a star,
-the genotype, consensus quality, SNP quality, RMS mapping quality, #
-covering reads, the first alllele, the second allele, # reads supporting
-the first allele, # reads supporting the second allele and # reads
-containing indels different from the top two alleles.
+Fill in mate coordinates, ISIZE and mate related flags from a
+name-sorted alignment.
+
+.TP
+.B rmdup
+samtools rmdup [-sS] <input.srt.bam> <out.bam>
+
+Remove potential PCR duplicates: if multiple read pairs have identical
+external coordinates, only retain the pair with highest mapping quality.
+In the paired-end mode, this command
+.B ONLY
+works with FR orientation and requires ISIZE is correctly set. It does
+not work for unpaired reads (e.g. two ends mapped to different
+chromosomes or orphan reads).
.B OPTIONS:
.RS
-
-.TP 10
+.TP 8
.B -s
-Print the mapping quality as the last column. This option makes the
-output easier to parse, although this format is not space efficient.
-
-.TP
+Remove duplicate for single-end reads. By default, the command works for
+paired-end reads only.
+.TP 8
.B -S
-The input file is in SAM.
+Treat paired-end reads and single-end reads.
+.RE
.TP
-.B -i
-Only output pileup lines containing indels.
+.B calmd
+samtools calmd [-EeubSr] [-C capQcoef] <aln.bam> <ref.fasta>
-.TP
-.B -f FILE
-The reference sequence in the FASTA format. Index file
-.I FILE.fai
-will be created if
-absent.
+Generate the MD tag. If the MD tag is already present, this command will
+give a warning if the MD tag generated is different from the existing
+tag. Output SAM by default.
+.B OPTIONS:
+.RS
+.TP 8
+.B -A
+When used jointly with
+.B -r
+this option overwrites the original base quality.
+.TP 8
+.B -e
+Convert a the read base to = if it is identical to the aligned reference
+base. Indel caller does not support the = bases at the moment.
.TP
-.B -M INT
-Cap mapping quality at INT [60]
-
+.B -u
+Output uncompressed BAM
.TP
-.B -t FILE
-List of reference names ane sequence lengths, in the format described
-for the
-.B import
-command. If this option is present, samtools assumes the input
-.I <in.alignment>
-is in SAM format; otherwise it assumes in BAM format.
-
+.B -b
+Output compressed BAM
.TP
-.B -l FILE
-List of sites at which pileup is output. This file is space
-delimited. The first two columns are required to be chromosome and
-1-based coordinate. Additional columns are ignored. It is
-recommended to use option
-.B -s
-together with
-.B -l
-as in the default format we may not know the mapping quality.
-
+.B -S
+The input is SAM with header lines
.TP
-.B -c
-Call the consensus sequence using MAQ consensus model. Options
-.B -T,
-.B -N,
-.B -I
-and
-.B -r
-are only effective when
-.B -c
-or
-.B -g
-is in use.
-
+.BI -C \ INT
+Coefficient to cap mapping quality of poorly mapped reads. See the
+.B pileup
+command for details. [0]
.TP
-.B -g
-Generate genotype likelihood in the binary GLFv3 format. This option
-suppresses -c, -i and -s.
-
+.B -r
+Compute the BQ tag (without -A) or cap base quality by BAQ (with -A).
.TP
-.B -T FLOAT
-The theta parameter (error dependency coefficient) in the maq consensus
-calling model [0.85]
+.B -E
+Extended BAQ calculation. This option trades specificity for sensitivity, though the
+effect is minor.
+.RE
.TP
-.B -N INT
-Number of haplotypes in the sample (>=2) [2]
+.B targetcut
+samtools targetcut [-Q minBaseQ] [-i inPenalty] [-0 em0] [-1 em1] [-2 em2] [-f ref] <in.bam>
-.TP
-.B -r FLOAT
-Expected fraction of differences between a pair of haplotypes [0.001]
+This command identifies target regions by examining the continuity of read depth, computes
+haploid consensus sequences of targets and outputs a SAM with each sequence corresponding
+to a target. When option
+.B -f
+is in use, BAQ will be applied. This command is
+.B only
+designed for cutting fosmid clones from fosmid pool sequencing [Ref. Kitzman et al. (2010)].
+.RE
.TP
-.B -I INT
-Phred probability of an indel in sequencing/prep. [40]
+.B phase
+samtools phase [-AF] [-k len] [-b prefix] [-q minLOD] [-Q minBaseQ] <in.bam>
+Call and phase heterozygous SNPs.
+.B OPTIONS:
+.RS
+.TP 8
+.B -A
+Drop reads with ambiguous phase.
+.TP 8
+.BI -b \ STR
+Prefix of BAM output. When this option is in use, phase-0 reads will be saved in file
+.BR STR .0.bam
+and phase-1 reads in
+.BR STR .1.bam.
+Phase unknown reads will be randomly allocated to one of the two files. Chimeric reads
+with switch errors will be saved in
+.BR STR .chimeric.bam.
+[null]
+.TP
+.B -F
+Do not attempt to fix chimeric reads.
+.TP
+.BI -k \ INT
+Maximum length for local phasing. [13]
+.TP
+.BI -q \ INT
+Minimum Phred-scaled LOD to call a heterozygote. [40]
+.TP
+.BI -Q \ INT
+Minimum base quality to be used in het calling. [13]
.RE
-.TP
-.B tview
-samtools tview <in.sorted.bam> [ref.fasta]
+.SH BCFTOOLS COMMANDS AND OPTIONS
-Text alignment viewer (based on the ncurses library). In the viewer,
-press `?' for help and press `g' to check the alignment start from a
-region in the format like `chr10:10,000,000'.
+.TP 10
+.B view
+.B bcftools view
+.RB [ \-AbFGNQSucgv ]
+.RB [ \-D
+.IR seqDict ]
+.RB [ \-l
+.IR listLoci ]
+.RB [ \-s
+.IR listSample ]
+.RB [ \-i
+.IR gapSNPratio ]
+.RB [ \-t
+.IR mutRate ]
+.RB [ \-p
+.IR varThres ]
+.RB [ \-P
+.IR prior ]
+.RB [ \-1
+.IR nGroup1 ]
+.RB [ \-d
+.IR minFrac ]
+.RB [ \-U
+.IR nPerm ]
+.RB [ \-X
+.IR permThres ]
+.RB [ \-T
+.IR trioType ]
+.I in.bcf
+.RI [ region ]
+
+Convert between BCF and VCF, call variant candidates and estimate allele
+frequencies.
+.RS
.TP
-.B fixmate
-samtools fixmate <in.nameSrt.bam> <out.bam>
-
-Fill in mate coordinates, ISIZE and mate related flags from a
-name-sorted alignment.
-
+.B Input/Output Options:
+.TP 10
+.B -A
+Retain all possible alternate alleles at variant sites. By default, the view
+command discards unlikely alleles.
+.TP 10
+.B -b
+Output in the BCF format. The default is VCF.
.TP
-.B rmdup
-samtools rmdup <input.srt.bam> <out.bam>
-
-Remove potential PCR duplicates: if multiple read pairs have identical
-external coordinates, only retain the pair with highest mapping quality.
-This command
-.B ONLY
-works with FR orientation and requires ISIZE is correctly set.
-
+.BI -D \ FILE
+Sequence dictionary (list of chromosome names) for VCF->BCF conversion [null]
.TP
-.B rmdupse
-samtools rmdupse <input.srt.bam> <out.bam>
-
-Remove potential duplicates for single-ended reads. This command will
-treat all reads as single-ended even if they are paired in fact.
+.B -F
+Indicate PL is generated by r921 or before (ordering is different).
+.TP
+.B -G
+Suppress all individual genotype information.
+.TP
+.BI -l \ FILE
+List of sites at which information are outputted [all sites]
+.TP
+.B -N
+Skip sites where the REF field is not A/C/G/T
+.TP
+.B -Q
+Output the QCALL likelihood format
+.TP
+.BI -s \ FILE
+List of samples to use. The first column in the input gives the sample names
+and the second gives the ploidy, which can only be 1 or 2. When the 2nd column
+is absent, the sample ploidy is assumed to be 2. In the output, the ordering of
+samples will be identical to the one in
+.IR FILE .
+[null]
+.TP
+.B -S
+The input is VCF instead of BCF.
+.TP
+.B -u
+Uncompressed BCF output (force -b).
+.TP
+.B Consensus/Variant Calling Options:
+.TP 10
+.B -c
+Call variants using Bayesian inference. This option automatically invokes option
+.BR -e .
+.TP
+.BI -d \ FLOAT
+When
+.B -v
+is in use, skip loci where the fraction of samples covered by reads is below FLOAT. [0]
+.TP
+.B -e
+Perform max-likelihood inference only, including estimating the site allele frequency,
+testing Hardy-Weinberg equlibrium and testing associations with LRT.
+.TP
+.B -g
+Call per-sample genotypes at variant sites (force -c)
+.TP
+.BI -i \ FLOAT
+Ratio of INDEL-to-SNP mutation rate [0.15]
+.TP
+.BI -p \ FLOAT
+A site is considered to be a variant if P(ref|D)<FLOAT [0.5]
+.TP
+.BI -P \ STR
+Prior or initial allele frequency spectrum. If STR can be
+.IR full ,
+.IR cond2 ,
+.I flat
+or the file consisting of error output from a previous variant calling
+run.
+.TP
+.BI -t \ FLOAT
+Scaled muttion rate for variant calling [0.001]
+.TP
+.BI -T \ STR
+Enable pair/trio calling. For trio calling, option
+.B -s
+is usually needed to be applied to configure the trio members and their ordering.
+In the file supplied to the option
+.BR -s ,
+the first sample must be the child, the second the father and the third the mother.
+The valid values of
+.I STR
+are `pair', `trioauto', `trioxd' and `trioxs', where `pair' calls differences between two input samples, and `trioxd' (`trioxs') specifies that the input
+is from the X chromosome non-PAR regions and the child is a female (male). [null]
+.TP
+.B -v
+Output variant sites only (force -c)
+.TP
+.B Contrast Calling and Association Test Options:
+.TP
+.BI -1 \ INT
+Number of group-1 samples. This option is used for dividing the samples into
+two groups for contrast SNP calling or association test.
+When this option is in use, the following VCF INFO will be outputted:
+PC2, PCHI2 and QCHI2. [0]
+.TP
+.BI -U \ INT
+Number of permutations for association test (effective only with
+.BR -1 )
+[0]
+.TP
+.BI -X \ FLOAT
+Only perform permutations for P(chi^2)<FLOAT (effective only with
+.BR -U )
+[0.01]
+.RE
.TP
-.B fillmd
-samtools fillmd [-e] <aln.bam> <ref.fasta>
+.B index
+.B bcftools index
+.I in.bcf
-Generate the MD tag. If the MD tag is already present, this command will
-give a warning if the MD tag generated is different from the existing
-tag.
+Index sorted BCF for random access.
+.RE
-.B OPTIONS:
-.RS
-.TP 8
-.B -e
-Convert a the read base to = if it is identical to the aligned reference
-base. Indel caller does not support the = bases at the moment.
+.TP
+.B cat
+.B bcftools cat
+.I in1.bcf
+.RI [ "in2.bcf " [ ... "]]]"
+Concatenate BCF files. The input files are required to be sorted and
+have identical samples appearing in the same order.
.RE
-
.SH SAM FORMAT
-SAM is TAB-delimited. Apart from the header lines, which are started
+Sequence Alignment/Map (SAM) format is TAB-delimited. Apart from the header lines, which are started
with the `@' symbol, each alignment line consists of:
.TS
n | l | l .
Col Field Description
_
-1 QNAME Query (pair) NAME
+1 QNAME Query template/pair NAME
2 FLAG bitwise FLAG
3 RNAME Reference sequence NAME
4 POS 1-based leftmost POSition/coordinate of clipped sequence
6 CIAGR extended CIGAR string
7 MRNM Mate Reference sequence NaMe (`=' if same as RNAME)
8 MPOS 1-based Mate POSistion
-9 ISIZE Inferred insert SIZE
+9 TLEN inferred Template LENgth (insert size)
10 SEQ query SEQuence on the same strand as the reference
11 QUAL query QUALity (ASCII-33 gives the Phred base quality)
-12 OPT variable OPTional fields in the format TAG:VTYPE:VALUE
+12+ OPT variable OPTional fields in the format TAG:VTYPE:VALUE
.TE
.PP
.TS
center box;
-cb | cb
-l | l .
-Flag Description
+cb | cb | cb
+l | c | l .
+Flag Chr Description
_
-0x0001 the read is paired in sequencing
-0x0002 the read is mapped in a proper pair
-0x0004 the query sequence itself is unmapped
-0x0008 the mate is unmapped
-0x0010 strand of the query (1 for reverse)
-0x0020 strand of the mate
-0x0040 the read is the first read in a pair
-0x0080 the read is the second read in a pair
-0x0100 the alignment is not primary
-0x0200 the read fails platform/vendor quality checks
-0x0400 the read is either a PCR or an optical duplicate
+0x0001 p the read is paired in sequencing
+0x0002 P the read is mapped in a proper pair
+0x0004 u the query sequence itself is unmapped
+0x0008 U the mate is unmapped
+0x0010 r strand of the query (1 for reverse)
+0x0020 R strand of the mate
+0x0040 1 the read is the first read in a pair
+0x0080 2 the read is the second read in a pair
+0x0100 s the alignment is not primary
+0x0200 f the read fails platform/vendor quality checks
+0x0400 d the read is either a PCR or an optical duplicate
+.TE
+
+where the second column gives the string representation of the FLAG field.
+
+.SH VCF FORMAT
+
+The Variant Call Format (VCF) is a TAB-delimited format with each data line consists of the following fields:
+.TS
+center box;
+cb | cb | cb
+n | l | l .
+Col Field Description
+_
+1 CHROM CHROMosome name
+2 POS the left-most POSition of the variant
+3 ID unique variant IDentifier
+4 REF the REFerence allele
+5 ALT the ALTernate allele(s), separated by comma
+6 QUAL variant/reference QUALity
+7 FILTER FILTers applied
+8 INFO INFOrmation related to the variant, separated by semi-colon
+9 FORMAT FORMAT of the genotype fields, separated by colon (optional)
+10+ SAMPLE SAMPLE genotypes and per-sample information (optional)
.TE
-.SH LIMITATIONS
.PP
+The following table gives the
+.B INFO
+tags used by samtools and bcftools.
+
+.TS
+center box;
+cb | cb | cb
+l | l | l .
+Tag Format Description
+_
+AF1 double Max-likelihood estimate of the site allele frequency (AF) of the first ALT allele
+DP int Raw read depth (without quality filtering)
+DP4 int[4] # high-quality reference forward bases, ref reverse, alternate for and alt rev bases
+FQ int Consensus quality. Positive: sample genotypes different; negative: otherwise
+MQ int Root-Mean-Square mapping quality of covering reads
+PC2 int[2] Phred probability of AF in group1 samples being larger (,smaller) than in group2
+PCHI2 double Posterior weighted chi^2 P-value between group1 and group2 samples
+PV4 double[4] P-value for strand bias, baseQ bias, mapQ bias and tail distance bias
+QCHI2 int Phred-scaled PCHI2
+RP int # permutations yielding a smaller PCHI2
+CLR int Phred log ratio of genotype likelihoods with and without the trio/pair constraint
+UGT string Most probable genotype configuration without the trio constraint
+CGT string Most probable configuration with the trio constraint
+.TE
+
+.SH EXAMPLES
.IP o 2
-Unaligned words used in bam_import.c, bam_endian.h, bam.c and bam_aux.c.
+Import SAM to BAM when
+.B @SQ
+lines are present in the header:
+
+ samtools view -bS aln.sam > aln.bam
+
+If
+.B @SQ
+lines are absent:
+
+ samtools faidx ref.fa
+ samtools view -bt ref.fa.fai aln.sam > aln.bam
+
+where
+.I ref.fa.fai
+is generated automatically by the
+.B faidx
+command.
+
+.IP o 2
+Attach the
+.B RG
+tag while merging sorted alignments:
+
+ perl -e 'print "@RG\\tID:ga\\tSM:hs\\tLB:ga\\tPL:Illumina\\n@RG\\tID:454\\tSM:hs\\tLB:454\\tPL:454\\n"' > rg.txt
+ samtools merge -rh rg.txt merged.bam ga.bam 454.bam
+
+The value in a
+.B RG
+tag is determined by the file name the read is coming from. In this
+example, in the
+.IR merged.bam ,
+reads from
+.I ga.bam
+will be attached
+.IR RG:Z:ga ,
+while reads from
+.I 454.bam
+will be attached
+.IR RG:Z:454 .
+
+.IP o 2
+Call SNPs and short INDELs for one diploid individual:
+
+ samtools mpileup -ugf ref.fa aln.bam | bcftools view -bvcg - > var.raw.bcf
+ bcftools view var.raw.bcf | vcfutils.pl varFilter -D 100 > var.flt.vcf
+
+The
+.B -D
+option of varFilter controls the maximum read depth, which should be
+adjusted to about twice the average read depth. One may consider to add
+.B -C50
+to
+.B mpileup
+if mapping quality is overestimated for reads containing excessive
+mismatches. Applying this option usually helps
+.B BWA-short
+but may not other mappers.
+
+.IP o 2
+Generate the consensus sequence for one diploid individual:
+
+ samtools mpileup -uf ref.fa aln.bam | bcftools view -cg - | vcfutils.pl vcf2fq > cns.fq
+
+.IP o 2
+Call somatic mutations from a pair of samples:
+
+ samtools mpileup -DSuf ref.fa aln.bam | bcftools view -bvcgT pair - > var.bcf
+
+In the output INFO field,
+.I CLR
+gives the Phred-log ratio between the likelihood by treating the
+two samples independently, and the likelihood by requiring the genotype to be identical.
+This
+.I CLR
+is effectively a score measuring the confidence of somatic calls. The higher the better.
+
+.IP o 2
+Call de novo and somatic mutations from a family trio:
+
+ samtools mpileup -DSuf ref.fa aln.bam | bcftools view -bvcgT pair -s samples.txt - > var.bcf
+
+File
+.I samples.txt
+should consist of three lines specifying the member and order of samples (in the order of child-father-mother).
+Similarly,
+.I CLR
+gives the Phred-log likelihood ratio with and without the trio constraint.
+.I UGT
+shows the most likely genotype configuration without the trio constraint, and
+.I CGT
+gives the most likely genotype configuration satisfying the trio constraint.
+
+.IP o 2
+Phase one individual:
+
+ samtools calmd -AEur aln.bam ref.fa | samtools phase -b prefix - > phase.out
+
+The
+.B calmd
+command is used to reduce false heterozygotes around INDELs.
+
+.IP o 2
+Call SNPs and short indels for multiple diploid individuals:
+
+ samtools mpileup -P ILLUMINA -ugf ref.fa *.bam | bcftools view -bcvg - > var.raw.bcf
+ bcftools view var.raw.bcf | vcfutils.pl varFilter -D 2000 > var.flt.vcf
+
+Individuals are identified from the
+.B SM
+tags in the
+.B @RG
+header lines. Individuals can be pooled in one alignment file; one
+individual can also be separated into multiple files. The
+.B -P
+option specifies that indel candidates should be collected only from
+read groups with the
+.B @RG-PL
+tag set to
+.IR ILLUMINA .
+Collecting indel candidates from reads sequenced by an indel-prone
+technology may affect the performance of indel calling.
+
.IP o 2
-CIGAR operation P is not properly handled at the moment.
+Derive the allele frequency spectrum (AFS) on a list of sites from multiple individuals:
+
+ samtools mpileup -Igf ref.fa *.bam > all.bcf
+ bcftools view -bl sites.list all.bcf > sites.bcf
+ bcftools view -cGP cond2 sites.bcf > /dev/null 2> sites.1.afs
+ bcftools view -cGP sites.1.afs sites.bcf > /dev/null 2> sites.2.afs
+ bcftools view -cGP sites.2.afs sites.bcf > /dev/null 2> sites.3.afs
+ ......
+
+where
+.I sites.list
+contains the list of sites with each line consisting of the reference
+sequence name and position. The following
+.B bcftools
+commands estimate AFS by EM.
+
.IP o 2
-In merging, the input files are required to have the same number of
-reference sequences. The requirement can be relaxed. In addition,
-merging does not reconstruct the header dictionaries
-automatically. Endusers have to provide the correct header. Picard is
-better at merging.
+Dump BAQ applied alignment for other SNP callers:
+
+ samtools calmd -bAr aln.bam > aln.baq.bam
+
+It adds and corrects the
+.B NM
+and
+.B MD
+tags at the same time. The
+.B calmd
+command also comes with the
+.B -C
+option, the same as the one in
+.B pileup
+and
+.BR mpileup .
+Apply if it helps.
+
+.SH LIMITATIONS
+.PP
+.IP o 2
+Unaligned words used in bam_import.c, bam_endian.h, bam.c and bam_aux.c.
.IP o 2
-Samtools' rmdup does not work for single-end data and does not remove
-duplicates across chromosomes. Picard is better.
+Samtools paired-end rmdup does not work for unpaired reads (e.g. orphan
+reads or ends mapped to different chromosomes). If this is a concern,
+please use Picard's MarkDuplicate which correctly handles these cases,
+although a little slower.
.SH AUTHOR
.PP
Heng Li from the Sanger Institute wrote the C version of samtools. Bob
Handsaker from the Broad Institute implemented the BGZF library and Jue
-Ruan from Beijing Genomics Institute wrote the RAZF library. Various
-people in the 1000Genomes Project contributed to the SAM format
+Ruan from Beijing Genomics Institute wrote the RAZF library. John
+Marshall and Petr Danecek contribute to the source code and various
+people from the 1000 Genomes Project have contributed to the SAM format
specification.
.SH SEE ALSO
projects / samtools.git / blobdiff