nhmmer - search DNA queries against a DNA sequence database
nhmmer [options] queryfile seqdb
nhmmer is used to search one or more nucleotide queries
against a nucleotide sequence database. For each query in queryfile,
use that query to search the target database of sequences in seqdb,
and output a ranked list of the hits with the most significant matches to
the query. A query may be either a profile model built using
hmmbuild, a sequence alignment, or a single sequence. Sequence based
queries can be in a number of formats (see --qformat), and can
typically be autodetected. Note that only Stockholm format supports queries
made up of more than one sequence alignment.
Either the query queryfile or the target seqdb may
be '-' (a dash character), in which case the query file or target database
input will be read from a <stdin> pipe instead of from a file. Only
one input source can come through <stdin>, not both. If the
queryfile contains more than one query, then seqdb cannot come
from stdin, because we can't rewind the streaming target database to search
it with another profile.
If the query is sequence-based, a new file containing the HMM(s)
built from the input(s) in queryfile may optionally be produced, with
the filename set using the --hmmout flag.
The output format is designed to be human-readable, but is often
so voluminous that reading it is impractical, and parsing it is a pain. The
--tblout option saves output in a simple tabular format that is
concise and easier to parse. The -o option allows redirecting the
main output, including throwing it away in /dev/null.
- -h
- Help; print a brief reminder of command line usage and all available
options.
- -o <f>
- Direct the main human-readable output to a file <f> instead
of the default stdout.
- -A <f>
- Save a multiple alignment of all significant hits (those satisfying
"inclusion thresholds") to the file <f>.
- --tblout
<f>
- Save a simple tabular (space-delimited) file summarizing the per-target
output, with one data line per homologous target sequence found.
- --dfamtblout
<f>
- Save a tabular (space-delimited) file summarizing the per-hit output,
similar to --tblout but more succinct.
- --aliscoresout
<f>
- Save to file a list of per-position scores for each hit. This is useful,
for example, in identifying regions of high score density for use in
resolving overlapping hits from different models.
- --hmmout
<f>
- If queryfile is sequence-based, write the internally-computed
HMM(s) to file <f>.
- --acc
- Use accessions instead of names in the main output, where available for
profiles and/or sequences.
- --noali
- Omit the alignment section from the main output. This can greatly reduce
the output volume.
- --notextw
- Unlimit the length of each line in the main output. The default is a limit
of 120 characters per line, which helps in displaying the output cleanly
on terminals and in editors, but can truncate target profile description
lines.
- --textw
<n>
- Set the main output's line length limit to <n> characters per
line. The default is 120.
By default, if a query is a single sequence from a file in fasta
format, nhmmer uses a search model constructed from that sequence and
a standard 20x20 substitution matrix for residue probabilities, along with
two additional parameters for position-independent gap open and gap extend
probabilities. These options allow the default single-sequence scoring
parameters to be changed, and for single-sequence scoring options to be
applied to a single sequence coming from an aligned format.
- --singlemx
- If a single sequence query comes from a multiple sequence alignment file,
such as in Stockholm format, the search model is by default constructed as
is typically done for multiple sequence alignments. This option forces
nhmmer to use the single-sequence method with substitution score
matrix.
- --mxfile<mxfile
- Obtain residue alignment probabilities from the substitution matrix in
file mxfile. The default score matrix is DNA1 (this matrix is
internal to HMMER and does not have to be available as a file). The format
of a substitution matrix mxfile is the standard format accepted by
BLAST, FASTA, and other sequence analysis software. See
ftp.ncbi.nlm.nih.gov/blast/matrices/ for example files. (The only
exception: we require matrices to be square, so for DNA, use files like
NCBI's NUC.4.4, not NUC.4.2.)
- --popen
<x>
- Set the gap open probability for a single sequence query model to
<x>. The default is 0.02. <x> must be >= 0
and < 0.5.
- --pextend
<x>
- Set the gap extend probability for a single sequence query model to
<x>. The default is 0.4. <x> must be >= 0 and
< 1.0.
Reporting thresholds control which hits are reported in output
files (the main output, --tblout, and --dfamtblout). Hits are
ranked by statistical significance (E-value).
- -E <x>
- Report target sequences with an E-value of <= <x>. The
default is 10.0, meaning that on average, about 10 false positives will be
reported per query, so you can see the top of the noise and decide for
yourself if it's really noise.
- -T <x>
- Instead of thresholding output on E-value, instead report target sequences
with a bit score of >= <x>.
Inclusion thresholds are stricter than reporting thresholds.
Inclusion thresholds control which hits are considered to be reliable enough
to be included in an output alignment or a subsequent search round, or
marked as significant ("!") as opposed to questionable
("?") in hit output.
- --incE
<x>
- Use an E-value of <= <x> as the inclusion threshold. The
default is 0.01, meaning that on average, about 1 false positive would be
expected in every 100 searches with different query sequences.
- --incT
<x>
- Instead of using E-values for setting the inclusion threshold, use a bit
score of >= <x> as the inclusion threshold. By default
this option is unset.
Curated profile databases may define specific bit score thresholds
for each profile, superseding any thresholding based on statistical
significance alone.
To use these options, the profile must contain the appropriate
(GA, TC, and/or NC) optional score threshold annotation; this is picked up
by hmmbuild from Stockholm format alignment files. For a nucleotide
model, each thresholding option has a single per-hit threshold <x>
This acts as if -T <x> --incT <x>
has been applied specifically using each model's curated thresholds.
- --cut_ga
- Use the GA (gathering) bit score threshold in the model to set per-hit
reporting and inclusion thresholds. GA thresholds are generally considered
to be the reliable curated thresholds defining family membership; for
example, in Dfam, these thresholds are applied when annotating a genome
with a model of a family known to be found in that organism. They may
allow for minimal expected false discovery rate.
- --cut_nc
- Use the NC (noise cutoff) bit score threshold in the model to set per-hit
reporting and inclusion thresholds. NC thresholds are less stringent than
GA; in the context of Pfam, they are generally used to store the score of
the highest-scoring known false positive.
- --cut_tc
- Use the TC (trusted cutoff) bit score threshold in the model to set
per-hit reporting and inclusion thresholds. TC thresholds are more
stringent than GA, and are generally considered to be the score of the
lowest-scoring known true positive that is above all known false
positives; for example, in Dfam, these thresholds are applied when
annotating a genome with a model of a family not known to be found in that
organism.
HMMER3 searches are accelerated in a three-step filter pipeline:
the scanning-SSV filter, the Viterbi filter, and the Forward filter. The
first filter is the fastest and most approximate; the last is the full
Forward scoring algorithm. There is also a bias filter step between SSV and
Viterbi. Targets that pass all the steps in the acceleration pipeline are
then subjected to postprocessing -- domain identification and scoring using
the Forward/Backward algorithm.
Changing filter thresholds only removes or includes targets from
consideration; changing filter thresholds does not alter bit scores,
E-values, or alignments, all of which are determined solely in
postprocessing.
- --max
- Turn off (nearly) all filters, including the bias filter, and run full
Forward/Backward postprocessing on most of the target sequence. In
contrast to phmmer and hmmsearch, where this flag really
does turn off the filters entirely, the --max flag in nhmmer
sets the scanning-SSV filter threshold to 0.4, not 1.0. Use of this flag
increases sensitivity somewhat, at a large cost in speed.
- --F1
<x>
- Set the P-value threshold for the SSV filter step. The default is 0.02,
meaning that roughly 2% of the highest scoring nonhomologous targets are
expected to pass the filter.
- --F2
<x>
- Set the P-value threshold for the Viterbi filter step. The default is
0.001.
- --F3
<x>
- Set the P-value threshold for the Forward filter step. The default is
1e-5.
- --nobias
- Turn off the bias filter. This increases sensitivity somewhat, but can
come at a high cost in speed, especially if the query has biased residue
composition (such as a repetitive sequence region, or if it is a membrane
protein with large regions of hydrophobicity). Without the bias filter,
too many sequences may pass the filter with biased queries, leading to
slower than expected performance as the computationally intensive
Forward/Backward algorithms shoulder an abnormally heavy load.
- --amino
- Assert that sequences in msafile are protein, bypassing alphabet
autodetection.
- --dna
- Assert that sequences in msafile are DNA, bypassing alphabet
autodetection.
- --rna
- Assert that sequences in msafile are RNA, bypassing alphabet
autodetection.
When searching with nhmmer, one may optionally precompute a
binary version of the target database, using makehmmerdb, then search
against that database. Using default settings, this yields a roughly 10-fold
acceleration with small loss of sensitivity on benchmarks. This is achieved
using a heuristic method that searches for seeds (ungapped alignments)
around which full processing is done. This is essentially a replacement to
the SSV stage. (This method has been extensively tested, but should still be
treated as somewhat experimental.) The following options only impact
nhmmer if the value of --tformat is hmmerdb.
Changing parameters for this seed-finding step will impact both
speed and sensitivity - typically faster search leads to lower
sensitivity.
- --seed_max_depth
<n>
- The seed step requires that a seed reach a specified bit score in length
no longer than <n>. By default, this value is 15. Longer
seeds allow a greater chance of meeting the bit score threshold, leading
to diminished filtering (greater sensitivity, slower run time).
- --seed_sc_thresh
<x>
- The seed must reach score <x> (in bits). The default is 15.0
bits. A higher threshold increases filtering stringency, leading to faster
run times and lower sensitivity.
- --seed_sc_density
<x>
- Either all prefixes or all suffixes of a seed must have bit density (bits
per aligned position) of at least <x>. The default is 0.8
bits/position. An increase in the density requirement leads to increased
filtering stringency, thus faster run times and lower sensitivity.
- --seed_drop_max_len
<n>
- A seed may not have a run of length <n> in which the score
drops by --seed_drop_lim or more. Basically, this prunes seeds that
go through long slightly-negative seed extensions. The default is 4.
Increasing the limit causes (slightly) diminished filtering efficiency,
thus slower run times and higher sensitivity. (minor tuning option)
- --seed_drop_lim
<x>
- In a seed, there may be no run of length --seed_drop_max_len in
which the score drops by --seed_drop_lim. The default is 0.3 bits.
Larger numbers mean less filtering. (minor tuning option)
- --seed_req_pos
<n>
- A seed must contain a run of at least <n> positive-scoring
matches. The default is 5. Larger values mean increased filtering. (minor
tuning option)
- --seed_ssv_length
<n>
- After finding a short seed, an ungapped alignment is extended in both
directions in an attempt to meet the --F1 score threshold. The
window through which this ungapped alignment extends is length
<n>. The default is 70. Decreasing this value slightly
reduces run time, at a small risk of reduced sensitivity. (minor tuning
option)
- --qhmm
- Assert that the input queryfile contains one or more profile HMMs,
as built by hmmbuild.
- --qfasta
- Assert that the input queryfile contains one or more unaligned
sequences, stored in fasta format.
- --qmsa
- Assert that the input queryfile contains one or more sequence
alignments. The format of the file may be specified with the
--qformat flag.
- --qformat
<s>
- Assert that input queryfile is a sequence file (unaligned or
aligned), in format <s>, bypassing format autodetection.
Common choices for <s> include: fasta, embl,
genbank. Alignment formats also work; common choices include:
stockholm, a2m, afa, psiblast, clustal,
phylip. For more information, and for codes for some less common
formats, see main documentation. The string <s>
- --tformat
<s>
- Assert that target sequence database seqdb is in format
<s>, bypassing format autodetection. Common choices for
<s> include: fasta, embl, genbank,
ncbi, fmindex. Alignment formats also work; common choices
include: stockholm, a2m, afa, psiblast,
clustal, phylip. For more information, and for codes for
some less common formats, see main documentation. The string
<s> is case-insensitive (fasta or FASTA both
work). The format ncbi indicates that the database file is a binary
file produced using makeblastdb. The format fmindex
indicates that the database file is a binary file produced using
makehmmerdb.
- --nonull2
- Turn off the null2 score corrections for biased composition.
- -Z <x>
- For the purposes of per-hit E-value calculations, Assert that the total
size of the target database is <x> million nucleotides,
rather than the actual number of targets seen.
- --seed
<n>
- Set the random number seed to <n>. Some steps in
postprocessing require Monte Carlo simulation. The default is to use a
fixed seed (42), so that results are exactly reproducible. Any other
positive integer will give different (but also reproducible) results. A
choice of 0 uses a randomly chosen seed.
- --w_beta
<x>
- Window length tail mass. The upper bound, W, on the length at which
nhmmer expects to find an instance of the model is set such that the
fraction of all sequences generated by the model with length >= W is
less than <x>. The default is 1e-7. This flag may be used to
override the value of W established for the model by
hmmbuild, or when the query is sequence-based.
- --w_length
<n>
- Override the model instance length upper bound, W, which is otherwise
controlled by --w_beta. It should be larger than the model length.
The value of W is used deep in the acceleration pipeline, and modest
changes are not expected to impact results (though larger values of W do
lead to longer run time). This flag may be used to override the value of W
established for the model by hmmbuild, or when the query is
sequence-based.
- --watson
- Only search the top strand. By default both the query sequence and its
reverse-complement are searched.
- --crick
- Only search the bottom (reverse-complement) strand. By default both the
query sequence and its reverse-complement are searched.
- --cpu
<n>
- Set the number of parallel worker threads to <n>. On
multicore machines, the default is 2. You can also control this number by
setting an environment variable, HMMER_NCPU. There is also a master
thread, so the actual number of threads that HMMER spawns is
<n>+1.
This option is not available if HMMER was compiled with POSIX
threads support turned off.
- --stall
- For debugging the MPI master/worker version: pause after start, to enable
the developer to attach debuggers to the running master and worker(s)
processes. Send SIGCONT signal to release the pause. (Under gdb: (gdb)
signal SIGCONT) (Only available if optional MPI support was enabled at
compile-time.)
- --mpi
- Run under MPI control with master/worker parallelization (using
mpirun, for example, or equivalent). Only available if optional MPI
support was enabled at compile-time.
See hmmer(1) for a master man page with a list of all the
individual man pages for programs in the HMMER package.
For complete documentation, see the user guide that came with your
HMMER distribution (Userguide.pdf); or see the HMMER web page
(http://hmmer.org/).
Copyright (C) 2018 Howard Hughes Medical Institute.
Freely distributed under the BSD open source license.
For additional information on copyright and licensing, see the
file called COPYRIGHT in your HMMER source distribution, or see the HMMER
web page (http://hmmer.org/).