|
-x
|
The basename of the index for the reference genome. The basename is the name of
any of the index files up to but not including the final `.1.bt2` / `.rev.1.bt2`
/ etc. `bowtie2` looks for the specified index first in the current directory,
then in the directory specified in the `BOWTIE2_INDEXES` environment variable.
|
|
-1
|
Comma-separated list of files containing mate 1s (filename usually includes
`_1`), e.g. `-1 flyA_1.fq,flyB_1.fq`. Sequences specified with this option must
correspond file-for-file and read-for-read with those specified in ``. Reads
may be a mix of different lengths. If `-` is specified, `bowtie2` will read the
mate 1s from the "standard in" or "stdin" filehandle.
|
|
-2
|
Comma-separated list of files containing mate 2s (filename usually includes
`_2`), e.g. `-2 flyA_2.fq,flyB_2.fq`. Sequences specified with this option must
correspond file-for-file and read-for-read with those specified in ``. Reads
may be a mix of different lengths. If `-` is specified, `bowtie2` will read the
mate 2s from the "standard in" or "stdin" filehandle.
|
|
-U
|
Comma-separated list of files containing unpaired reads to be aligned, e.g.
`lane1.fq,lane2.fq,lane3.fq,lane4.fq`. Reads may be a mix of different lengths.
If `-` is specified, `bowtie2` gets the reads from the "standard in" or "stdin"
filehandle.
|
|
-S
|
File to write SAM alignments to. By default, alignments are written to the
"standard out" or "stdout" filehandle (i.e. the console).
|
### Options
#### Input options
|
-q
|
Reads (specified with ``, ``, ``) are FASTQ files. FASTQ files
usually have extension `.fq` or `.fastq`. FASTQ is the default format. See
also: [`--solexa-quals`] and [`--int-quals`].
|
|
--interleaved
|
Reads interleaved FASTQ files where the first two records (8 lines)
represent a mate pair.
|
|
--tab5
|
Each read or pair is on a single line. An unpaired read line is
`[name]\t[seq]\t[qual]\n`. A paired-end read line is
`[name]\t[seq1]\t[qual1]\t[seq2]\t[qual2]\n`. An input file can be a
mix of unpaired and paired-end reads and Bowtie 2 recognizes each
according to the number of fields, handling each as it should.
|
|
--tab6
|
Similar to [`--tab5`] except, for paired-end reads, the second end can have a
different name from the first:
`[name1]\t[seq1]\t[qual1]\t[name2]\t[seq2]\t[qual2]\n`
|
|
--qseq
|
Reads (specified with ``, ``, ``) are QSEQ files. QSEQ files usually
end in `_qseq.txt`. See also: [`--solexa-quals`] and [`--int-quals`].
|
|
-f
|
Reads (specified with ``, ``, ``) are [`FASTA`] files. [`FASTA`] files
usually have extension `.fa`, `.fasta`, `.mfa`, `.fna` or similar. [`FASTA`] files
do not have a way of specifying quality values, so when `-f` is set, the result
is as if [`--ignore-quals`] is also set.
|
|
-r
|
Reads (specified with ``, ``, ``) are files with one input sequence
per line, without any other information (no read names, no qualities). When
`-r` is set, the result is as if [`--ignore-quals`] is also set.
|
|
-F k:,i:
|
Reads are substrings (k-mers) extracted from a FASTA file ``.
Specifically, for every reference sequence in FASTA file ``, Bowtie
2 aligns the k-mers at offsets 1, 1+i, 1+2i, ... until reaching the
end of the reference. Each k-mer is aligned as a separate read.
Quality values are set to all Is (40 on Phred scale). Each k-mer
(read) is given a name like `_`, where ``
is the name of the FASTA sequence it was drawn from and ``
is its 0-based offset of origin with respect to the sequence. Only
single k-mers, i.e. unpaired reads, can be aligned in this way.
|
|
-c
|
The read sequences are given on command line. I.e. ``, `` and
`` are comma-separated lists of reads rather than lists of read files.
There is no way to specify read names or qualities, so `-c` also implies
[`--ignore-quals`].
|
|
-s/--skip
|
Skip (i.e. do not align) the first `` reads or pairs in the input.
|
|
-u/--qupto
|
Align the first `` reads or read pairs from the input (after the
[`-s`/`--skip`] reads or pairs have been skipped), then stop. Default: no limit.
|
|
-5/--trim5
|
Trim `` bases from 5' (left) end of each read before alignment (default: 0).
|
|
-3/--trim3
|
Trim `` bases from 3' (right) end of each read before alignment (default: 0).
|
|
--trim-to [3:|5:]
|
Trim reads exceeding `` bases. Bases will be trimmed from either the 3' (right)
or 5' (left) end of the read. If the read end if not specified, bowtie 2 will default
to trimming from the 3' (right) end of the read. [`--trim-to`] and [`-3`]/[`-5`] are
mutually exclusive.
|
|
--phred33
|
Input qualities are ASCII chars equal to the [Phred quality] plus 33. This is
also called the "Phred+33" encoding, which is used by the very latest Illumina
pipelines.
|
|
--phred64
|
Input qualities are ASCII chars equal to the [Phred quality] plus 64. This is
also called the "Phred+64" encoding.
|
|
--solexa-quals
|
Convert input qualities from [Solexa][Phred quality] (which can be negative) to
[Phred][Phred quality] (which can't). This scheme was used in older Illumina GA
Pipeline versions (prior to 1.3). Default: off.
|
|
--int-quals
|
Quality values are represented in the read input file as space-separated ASCII
integers, e.g., `40 40 30 40`..., rather than ASCII characters, e.g., `II?I`....
Integers are treated as being on the [Phred quality] scale unless
[`--solexa-quals`] is also specified. Default: off.
|
#### Preset options in `--end-to-end` mode
|
-N
|
Sets the number of mismatches to allowed in a seed alignment during [multiseed
alignment]. Can be set to 0 or 1. Setting this higher makes alignment slower
(often much slower) but increases sensitivity. Default: 0.
|
|
-L
|
Sets the length of the seed substrings to align during [multiseed alignment].
Smaller values make alignment slower but more sensitive. Default: the
[`--sensitive`] preset is used by default, which sets `-L` to 20 both in
[`--end-to-end`] mode and in [`--local`] mode.
|
|
-i
|
Sets a function governing the interval between seed substrings to use during
[multiseed alignment]. For instance, if the read has 30 characters, and seed
length is 10, and the seed interval is 6, the seeds extracted will be:
Read: TAGCTACGCTCTACGCTATCATGCATAAAC
Seed 1 fw: TAGCTACGCT
Seed 1 rc: AGCGTAGCTA
Seed 2 fw: CGCTCTACGC
Seed 2 rc: GCGTAGAGCG
Seed 3 fw: ACGCTATCAT
Seed 3 rc: ATGATAGCGT
Seed 4 fw: TCATGCATAA
Seed 4 rc: TTATGCATGA
Since it's best to use longer intervals for longer reads, this parameter sets
the interval as a function of the read length, rather than a single
one-size-fits-all number. For instance, specifying `-i S,1,2.5` sets the
interval function `f` to `f(x) = 1 + 2.5 * sqrt(x)`, where x is the read length.
See also: [setting function options]. If the function returns a result less than
1, it is rounded up to 1. Default: the [`--sensitive`] preset is used by
default, which sets `-i` to `S,1,1.15` in [`--end-to-end`] mode to `-i S,1,0.75`
in [`--local`] mode.
|
|
--n-ceil
|
Sets a function governing the maximum number of ambiguous characters (usually
`N`s and/or `.`s) allowed in a read as a function of read length. For instance,
specifying `-L,0,0.15` sets the N-ceiling function `f` to `f(x) = 0 + 0.15 * x`,
where x is the read length. See also: [setting function options]. Reads
exceeding this ceiling are [filtered out]. Default: `L,0,0.15`.
|
|
--dpad
|
"Pads" dynamic programming problems by `` columns on either side to allow
gaps. Default: 15.
|
|
--gbar
|
Disallow gaps within `` positions of the beginning or end of the read.
Default: 4.
|
|
--ignore-quals
|
When calculating a mismatch penalty, always consider the quality value at the
mismatched position to be the highest possible, regardless of the actual value.
I.e. input is treated as though all quality values are high. This is also the
default behavior when the input doesn't specify quality values (e.g. in [`-f`],
[`-r`], or [`-c`] modes).
|
|
--nofw/--norc
|
If `--nofw` is specified, `bowtie2` will not attempt to align unpaired reads to
the forward (Watson) reference strand. If `--norc` is specified, `bowtie2` will
not attempt to align unpaired reads against the reverse-complement (Crick)
reference strand. In paired-end mode, `--nofw` and `--norc` pertain to the
fragments; i.e. specifying `--nofw` causes `bowtie2` to explore only those
paired-end configurations corresponding to fragments from the reverse-complement
(Crick) strand. Default: both strands enabled.
|
|
--no-1mm-upfront
|
By default, Bowtie 2 will attempt to find either an exact or a 1-mismatch
end-to-end alignment for the read *before* trying the [multiseed heuristic]. Such
alignments can be found very quickly, and many short read alignments have exact or
near-exact end-to-end alignments. However, this can lead to unexpected
alignments when the user also sets options governing the [multiseed heuristic],
like [`-L`] and [`-N`]. For instance, if the user specifies `-N 0` and `-L` equal
to the length of the read, the user will be surprised to find 1-mismatch alignments
reported. This option prevents Bowtie 2 from searching for 1-mismatch end-to-end
alignments before using the [multiseed heuristic], which leads to the expected
behavior when combined with options such as [`-L`] and [`-N`]. This comes at the
expense of speed.
|
|
--end-to-end
|
In this mode, Bowtie 2 requires that the entire read align from one end to the
other, without any trimming (or "soft clipping") of characters from either end.
The match bonus [`--ma`] always equals 0 in this mode, so all alignment scores
are less than or equal to 0, and the greatest possible alignment score is 0.
This is mutually exclusive with [`--local`]. `--end-to-end` is the default mode.
|
|
--local
|
In this mode, Bowtie 2 does not require that the entire read align from one end
to the other. Rather, some characters may be omitted ("soft clipped") from the
ends in order to achieve the greatest possible alignment score. The match bonus
[`--ma`] is used in this mode, and the best possible alignment score is equal to
the match bonus ([`--ma`]) times the length of the read. Specifying `--local`
and one of the presets (e.g. `--local --very-fast`) is equivalent to specifying
the local version of the preset (`--very-fast-local`). This is mutually
exclusive with [`--end-to-end`]. `--end-to-end` is the default mode.
|
#### Scoring options
|
--ma
|
Sets the match bonus. In [`--local`] mode `` is added to the alignment
score for each position where a read character aligns to a reference character
and the characters match. Not used in [`--end-to-end`] mode. Default: 2.
|
|
--mp MX,MN
|
Sets the maximum (`MX`) and minimum (`MN`) mismatch penalties, both integers. A
number less than or equal to `MX` and greater than or equal to `MN` is
subtracted from the alignment score for each position where a read character
aligns to a reference character, the characters do not match, and neither is an
`N`. If [`--ignore-quals`] is specified, the number subtracted quals `MX`.
Otherwise, the number subtracted is `MN + floor( (MX-MN)(MIN(Q, 40.0)/40.0) )`
where Q is the Phred quality value. Default: `MX` = 6, `MN` = 2.
|
|
--np
|
Sets penalty for positions where the read, reference, or both, contain an
ambiguous character such as `N`. Default: 1.
|
|
--rdg ,
|
Sets the read gap open (``) and extend (``) penalties. A read gap of
length N gets a penalty of `` + N * ``. Default: 5, 3.
|
|
--rfg ,
|
Sets the reference gap open (``) and extend (``) penalties. A
reference gap of length N gets a penalty of `` + N * ``. Default:
5, 3.
|
|
--score-min
|
Sets a function governing the minimum alignment score needed for an alignment to
be considered "valid" (i.e. good enough to report). This is a function of read
length. For instance, specifying `L,0,-0.6` sets the minimum-score function `f`
to `f(x) = 0 + -0.6 * x`, where `x` is the read length. See also: [setting
function options]. The default in [`--end-to-end`] mode is `L,-0.6,-0.6` and
the default in [`--local`] mode is `G,20,8`.
|
#### Reporting options
|
-k
|
By default, `bowtie2` searches for distinct, valid alignments for each read.
When it finds a valid alignment, it continues looking for alignments that are
nearly as good or better. The best alignment found is reported (randomly
selected from among best if tied). Information about the best alignments is
used to estimate mapping quality and to set SAM optional fields, such as
[`AS:i`] and [`XS:i`].
When `-k` is specified, however, `bowtie2` behaves differently. Instead, it
searches for at most `` distinct, valid alignments for each read. The
search terminates when it can't find more distinct valid alignments, or when it
finds ``, whichever happens first. All alignments found are reported in
descending order by alignment score. The alignment score for a paired-end
alignment equals the sum of the alignment scores of the individual mates. Each
reported read or pair alignment beyond the first has the SAM 'secondary' bit
(which equals 256) set in its FLAGS field. For reads that have more than
`` distinct, valid alignments, `bowtie2` does not guarantee that the
`` alignments reported are the best possible in terms of alignment score.
`-k` is mutually exclusive with [`-a`].
Note: Bowtie 2 is not designed with large values for `-k` in mind, and when
aligning reads to long, repetitive genomes large `-k` can be very, very slow.
|
|
-a
|
Like [`-k`] but with no upper limit on number of alignments to search for. `-a`
is mutually exclusive with [`-k`].
Note: Bowtie 2 is not designed with `-a` mode in mind, and when
aligning reads to long, repetitive genomes this mode can be very, very slow.
|
#### Effort options
|
-I/--minins
|
The minimum fragment length for valid paired-end alignments. E.g. if `-I 60` is
specified and a paired-end alignment consists of two 20-bp alignments in the
appropriate orientation with a 20-bp gap between them, that alignment is
considered valid (as long as [`-X`][`+X`] is also satisfied). A 19-bp gap would not
be valid in that case. If trimming options [`-3`] or [`-5`] are also used, the
[`-I`][`+I`] constraint is applied with respect to the untrimmed mates.
The larger the difference between [`-I`][`+I`] and [`-X`][`+X`], the slower Bowtie 2 will
run. This is because larger differences between [`-I`][`+I`] and [`-X`][`+X`] require that
Bowtie 2 scan a larger window to determine if a concordant alignment exists.
For typical fragment length ranges (200 to 400 nucleotides), Bowtie 2 is very
efficient.
Default: 0 (essentially imposing no minimum)
|
|
-X/--maxins
|
The maximum fragment length for valid paired-end alignments. E.g. if `-X 100`
is specified and a paired-end alignment consists of two 20-bp alignments in the
proper orientation with a 60-bp gap between them, that alignment is considered
valid (as long as [`-I`][`+I`] is also satisfied). A 61-bp gap would not be valid in
that case. If trimming options [`-3`] or [`-5`] are also used, the `-X`
constraint is applied with respect to the untrimmed mates, not the trimmed
mates.
The larger the difference between [`-I`][`+I`] and [`-X`][`+X`], the slower Bowtie 2 will
run. This is because larger differences between [`-I`][`+I`] and [`-X`][`+X`] require that
Bowtie 2 scan a larger window to determine if a concordant alignment exists.
For typical fragment length ranges (200 to 400 nucleotides), Bowtie 2 is very
efficient.
Default: 500.
|
|
--fr/--rf/--ff
|
The upstream/downstream mate orientations for a valid paired-end alignment
against the forward reference strand. E.g., if `--fr` is specified and there is
a candidate paired-end alignment where mate 1 appears upstream of the reverse
complement of mate 2 and the fragment length constraints ([`-I`][`+I`] and [`-X`][`+X`]) are
met, that alignment is valid. Also, if mate 2 appears upstream of the reverse
complement of mate 1 and all other constraints are met, that too is valid.
`--rf` likewise requires that an upstream mate1 be reverse-complemented and a
downstream mate2 be forward-oriented. ` --ff` requires both an upstream mate 1
and a downstream mate 2 to be forward-oriented. Default: `--fr` (appropriate
for Illumina's Paired-end Sequencing Assay).
|
|
--no-mixed
|
By default, when `bowtie2` cannot find a concordant or discordant alignment for
a pair, it then tries to find alignments for the individual mates. This option
disables that behavior.
|
|
--no-discordant
|
By default, `bowtie2` looks for discordant alignments if it cannot find any
concordant alignments. A discordant alignment is an alignment where both mates
align uniquely, but that does not satisfy the paired-end constraints
([`--fr`/`--rf`/`--ff`], [`-I`][`+I`], [`-X`][`+X`]). This option disables that behavior.
|
|
--dovetail
|
If the mates "dovetail", that is if one mate alignment extends past the
beginning of the other such that the wrong mate begins upstream, consider that
to be concordant. See also: [Mates can overlap, contain or dovetail each
other]. Default: mates cannot dovetail in a concordant alignment.
|
|
--no-contain
|
If one mate alignment contains the other, consider that to be non-concordant.
See also: [Mates can overlap, contain or dovetail each other]. Default: a mate
can contain the other in a concordant alignment.
|
|
--no-overlap
|
If one mate alignment overlaps the other at all, consider that to be
non-concordant. See also: [Mates can overlap, contain or dovetail each other].
Default: mates can overlap in a concordant alignment.
|
#### Output options
|
-t/--time
|
Print the wall-clock time required to load the index files and align the reads.
This is printed to the "standard error" ("stderr") filehandle. Default: off.
|
|
--un
--un-gz
--un-bz2
--un-lz4
|
Write unpaired reads that fail to align to file at ``. These reads
correspond to the SAM records with the FLAGS `0x4` bit set and neither the
`0x40` nor `0x80` bits set. If `--un-gz` is specified, output will be gzip
compressed. If `--un-bz2` or `--un-lz4` is specified, output will be bzip2 or
lz4 compressed. Reads written in this way will appear exactly as they did in
the input file, without any modification (same sequence, same name, same quality
string, same quality encoding). Reads will not necessarily appear in the same
order as they did in the input.
|
|
--al
--al-gz
--al-bz2
--al-lz4
|
Write unpaired reads that align at least once to file at ``. These reads
correspond to the SAM records with the FLAGS `0x4`, `0x40`, and `0x80` bits
unset. If `--al-gz` is specified, output will be gzip compressed. If `--al-bz2`
is specified, output will be bzip2 compressed. Similarly if `--al-lz4` is specified,
output will be lz4 compressed. Reads written in this way will
appear exactly as they did in the input file, without any modification (same
sequence, same name, same quality string, same quality encoding). Reads will
not necessarily appear in the same order as they did in the input.
|
|
--un-conc
--un-conc-gz
--un-conc-bz2
--un-conc-lz4
|
Write paired-end reads that fail to align concordantly to file(s) at ``.
These reads correspond to the SAM records with the FLAGS `0x4` bit set and
either the `0x40` or `0x80` bit set (depending on whether it's mate #1 or #2).
`.1` and `.2` strings are added to the filename to distinguish which file
contains mate #1 and mate #2. If a percent symbol, `%`, is used in ``,
the percent symbol is replaced with `1` or `2` to make the per-mate filenames.
Otherwise, `.1` or `.2` are added before the final dot in `` to make the
per-mate filenames. Reads written in this way will appear exactly as they did
in the input files, without any modification (same sequence, same name, same
quality string, same quality encoding). Reads will not necessarily appear in
the same order as they did in the inputs.
|
|
--al-conc
--al-conc-gz
--al-conc-bz2
--al-conc-lz4
|
Write paired-end reads that align concordantly at least once to file(s) at
``. These reads correspond to the SAM records with the FLAGS `0x4` bit
unset and either the `0x40` or `0x80` bit set (depending on whether it's mate #1
or #2). `.1` and `.2` strings are added to the filename to distinguish which
file contains mate #1 and mate #2. If a percent symbol, `%`, is used in
``, the percent symbol is replaced with `1` or `2` to make the per-mate
filenames. Otherwise, `.1` or `.2` are added before the final dot in `` to
make the per-mate filenames. Reads written in this way will appear exactly as
they did in the input files, without any modification (same sequence, same name,
same quality string, same quality encoding). Reads will not necessarily appear
in the same order as they did in the inputs.
|
|
--quiet
|
Print nothing besides alignments and serious errors.
|
|
--met-file
|
Write `bowtie2` metrics to file ``. Having alignment metric can be useful
for debugging certain problems, especially performance issues. See also:
[`--met`]. Default: metrics disabled.
|
|
--met-stderr
|
Write `bowtie2` metrics to the "standard error" ("stderr") filehandle. This is
not mutually exclusive with [`--met-file`]. Having alignment metric can be
useful for debugging certain problems, especially performance issues. See also:
[`--met`]. Default: metrics disabled.
|
|
--met
|
Write a new `bowtie2` metrics record every `` seconds. Only matters if
either [`--met-stderr`] or [`--met-file`] are specified. Default: 1.
|
#### SAM options
|
--no-unal
|
Suppress SAM records for reads that failed to align.
|
|
--no-hd
|
Suppress SAM header lines (starting with `@`).
|
|
--no-sq
|
Suppress `@SQ` SAM header lines.
|
|
--rg-id
|
Set the read group ID to ``. This causes the SAM `@RG` header line to be
printed, with `` as the value associated with the `ID:` tag. It also
causes the `RG:Z:` extra field to be attached to each SAM output record, with
value set to ``.
|
|
--rg
|
Add `` (usually of the form `TAG:VAL`, e.g. `SM:Pool1`) as a field on the
`@RG` header line. Note: in order for the `@RG` line to appear, [`--rg-id`]
must also be specified. This is because the `ID` tag is required by the [SAM
Spec][SAM]. Specify `--rg` multiple times to set multiple fields. See the
[SAM Spec][SAM] for details about what fields are legal.
|
|
--omit-sec-seq
|
When printing secondary alignments, Bowtie 2 by default will write out the `SEQ`
and `QUAL` strings. Specifying this option causes Bowtie 2 to print an asterisk
in those fields instead.
|
|
--soft-clipped-unmapped-tlen
|
Consider soft-clipped bases unmapped when calculating `TLEN`. Only available
in [`--local`] mode.
|
|
--sam-no-qname-trunc
|
Suppress standard behavior of truncating readname at first whitespace
at the expense of generating non-standard SAM
|
|
--xeq
|
Use `'='/'X'`, instead of `'M'`, to specify matches/mismatches in SAM record
|
#### Performance options
|
-o/--offrate
|
Override the offrate of the index with ``. If `` is greater
than the offrate used to build the index, then some row markings are
discarded when the index is read into memory. This reduces the memory
footprint of the aligner but requires more time to calculate text
offsets. `` must be greater than the value used to build the
index.
|
|
-p/--threads NTHREADS
|
Launch `NTHREADS` parallel search threads (default: 1). Threads will run on
separate processors/cores and synchronize when parsing reads and outputting
alignments. Searching for alignments is highly parallel, and speedup is close
to linear. Increasing `-p` increases Bowtie 2's memory footprint. E.g. when
aligning to a human genome index, increasing `-p` from 1 to 8 increases the
memory footprint by a few hundred megabytes. This option is only available if
`bowtie` is linked with the `pthreads` library (i.e. if `BOWTIE_PTHREADS=0` is
not specified at build time).
|
|
--reorder
|
Guarantees that output SAM records are printed in an order corresponding to the
order of the reads in the original input file, even when [`-p`] is set greater
than 1. Specifying `--reorder` and setting [`-p`] greater than 1 causes Bowtie
2 to run somewhat slower and use somewhat more memory than if `--reorder` were
not specified. Has no effect if [`-p`] is set to 1, since output order will
naturally correspond to input order in that case.
|
|
--mm
|
Use memory-mapped I/O to load the index, rather than typical file I/O.
Memory-mapping allows many concurrent `bowtie` processes on the same computer to
share the same memory image of the index (i.e. you pay the memory overhead just
once). This facilitates memory-efficient parallelization of `bowtie` in
situations where using [`-p`] is not possible or not preferable.
|
#### Other options
|
--qc-filter
|
Filter out reads for which the QSEQ filter field is non-zero. Only has an
effect when read format is [`--qseq`]. Default: off.
|
|
--seed
|
Use `` as the seed for pseudo-random number generator. Default: 0.
|
|
--non-deterministic
|
Normally, Bowtie 2 re-initializes its pseudo-random generator for each read. It
seeds the generator with a number derived from (a) the read name, (b) the
nucleotide sequence, (c) the quality sequence, (d) the value of the [`--seed`]
option. This means that if two reads are identical (same name, same
nucleotides, same qualities) Bowtie 2 will find and report the same alignment(s)
for both, even if there was ambiguity. When `--non-deterministic` is specified,
Bowtie 2 re-initializes its pseudo-random generator for each read using the
current time. This means that Bowtie 2 will not necessarily report the same
alignment for two identical reads. This is counter-intuitive for some users,
but might be more appropriate in situations where the input consists of many
identical reads.
|
|
--version
|
Print version information and quit.
|
|
-h/--help
|
Print usage information and quit.
|
SAM output
----------
Following is a brief description of the [SAM] format as output by `bowtie2`.
For more details, see the [SAM format specification][SAM].
By default, `bowtie2` prints a SAM header with `@HD`, `@SQ` and `@PG` lines.
When one or more [`--rg`] arguments are specified, `bowtie2` will also print
an `@RG` line that includes all user-specified [`--rg`] tokens separated by
tabs.
Each subsequent line describes an alignment or, if the read failed to align, a
read. Each line is a collection of at least 12 fields separated by tabs; from
left to right, the fields are:
1. Name of read that aligned.
Note that the [SAM specification] disallows whitespace in the read name.
If the read name contains any whitespace characters, Bowtie 2 will truncate
the name at the first whitespace character. This is similar to the
behavior of other tools. The standard behavior of truncating at the first
whitespace can be suppressed with `--sam-no-qname-trunc` at the expense of
generating non-standard SAM.
2. Sum of all applicable flags. Flags relevant to Bowtie are:
|
AS:i:
|
Alignment score. Can be negative. Can be greater than 0 in [`--local`]
mode (but not in [`--end-to-end`] mode). Only present if SAM record is for
an aligned read.
|
|
XS:i:
|
Alignment score for the best-scoring alignment found other than the
alignment reported. Can be negative. Can be greater than 0 in [`--local`]
mode (but not in [`--end-to-end`] mode). Only present if the SAM record is
for an aligned read and more than one alignment was found for the read.
Note that, when the read is part of a concordantly-aligned pair, this score
could be greater than [`AS:i`].
|
|
YS:i:
|
Alignment score for opposite mate in the paired-end alignment. Only present
if the SAM record is for a read that aligned as part of a paired-end
alignment.
|
|
XN:i:
|
The number of ambiguous bases in the reference covering this alignment.
Only present if SAM record is for an aligned read.
|
|
XM:i:
|
The number of mismatches in the alignment. Only present if SAM record is
for an aligned read.
|
|
XO:i:
|
The number of gap opens, for both read and reference gaps, in the alignment.
Only present if SAM record is for an aligned read.
|
|
XG:i:
|
The number of gap extensions, for both read and reference gaps, in the
alignment. Only present if SAM record is for an aligned read.
|
|
NM:i:
|
The edit distance; that is, the minimal number of one-nucleotide edits
(substitutions, insertions and deletions) needed to transform the read
string into the reference string. Only present if SAM record is for an
aligned read.
|
YF:Z:
|
String indicating reason why the read was filtered out. See also:
[Filtering]. Only appears for reads that were filtered out.
|
YT:Z:
|
Value of `UU` indicates the read was not part of a pair. Value of `CP`
indicates the read was part of a pair and the pair aligned concordantly.
Value of `DP` indicates the read was part of a pair and the pair aligned
discordantly. Value of `UP` indicates the read was part of a pair but the
pair failed to aligned either concordantly or discordantly.
|
MD:Z:
|
A string representation of the mismatched reference bases in the alignment.
See [SAM Tags format specification][SAMTags] for details. Only present if SAM record is
for an aligned read.
|
The `bowtie2-build` indexer
===========================
`bowtie2-build` builds a Bowtie index from a set of DNA sequences.
`bowtie2-build` outputs a set of 6 files with suffixes `.1.bt2`, `.2.bt2`,
`.3.bt2`, `.4.bt2`, `.rev.1.bt2`, and `.rev.2.bt2`. In the case of a large
index these suffixes will have a `bt2l` termination. These files together
constitute the index: they are all that is needed to align reads to that
reference. The original sequence [`FASTA`] files are no longer used by Bowtie 2
once the index is built.
Bowtie 2's `.bt2` index format is different from Bowtie 1's `.ebwt` format, and
they are not compatible with each other.
Use of Karkkainen's [blockwise algorithm] allows `bowtie2-build` to trade off
between running time and memory usage. `bowtie2-build` has three options
governing how it makes this trade: [`-p`/`--packed`], [`--bmax`]/[`--bmaxdivn`],
and [`--dcv`]. By default, `bowtie2-build` will automatically search for the
settings that yield the best running time without exhausting memory. This
behavior can be disabled using the [`-a`/`--noauto`] option.
The indexer provides options pertaining to the "shape" of the index, e.g.
[`--offrate`](#bowtie2-build-options-o) governs the fraction of [Burrows-Wheeler]
rows that are "marked" (i.e., the density of the suffix-array sample; see the
original [FM Index][FM Index Paper] paper for details). All of these options are potentially
profitable trade-offs depending on the application. They have been set to
defaults that are reasonable for most cases according to our experiments. See
[Performance tuning] for details.
`bowtie2-build` can generate either [small or large indexes](#small-and-large-indexes). The wrapper
will decide which based on the length of the input genome. If the reference
does not exceed 4 billion characters but a large index is preferred, the user
can specify [`--large-index`] to force `bowtie2-build` to build a large index
instead.
The Bowtie 2 index is based on the [FM Index][FM Index Paper] of Ferragina and Manzini, which in
turn is based on the [Burrows-Wheeler] transform. The algorithm used to build
the index is based on the [blockwise algorithm] of Karkkainen.
Command Line
------------
Usage:
bowtie2-build [options]*