hmm2emit [options] hmmfile
hmm2emit reads an HMM file from hmmfile containing one or more HMMs, and generates a number of sequences from each HMM; or, if the -c option is selected, generate a single majority-rule consensus. This can be useful for various applications in which one needs a simulation of sequences consistent with a sequence family consensus.
By default, hmm2emit generates 10 sequences and outputs them in FASTA (unaligned) format.
-a
Write the generated sequences in an aligned format (SELEX) rather than FASTA.
-c
Predict a single majority-rule consensus sequence instead of sampling sequences from the HMM's probability distribution. Highly conserved residues (p >= 0.9 for DNA, p >= 0.5 for protein) are shown in upper case; others are shown in lower case. Some insert states may become part of the majority rule consensus, because they are used in >= 50% of generated sequences; when this happens, insert-generated residues are simply shown as "x".
-h
Print brief help; includes version number and summary of all options, including expert options.
-n <n>
Generate <n> sequences. Default is 10.
-o <f>
Save the synthetic sequences to file <f> rather than writing them to stdout.
-q
Quiet; suppress all output except for the sequences themselves. Useful for piping or directing the output.
--seed <n>
Set the random seed to <n>, where <n> is a positive integer. The default is to use time() to generate a different seed for each run, which means that two different runs of hmm2emit on the same HMM will give slightly different results. You can use this option to generate reproducible results.
Master man page, with full list of and guide to the individual man pages: see hmmer2(1).
For complete documentation, see the user guide (ftp://selab.janelia.org/pub/software/hmmer/2.3.2/Userguide.pdf); or see the HMMER web page, http://hmmer.janelia.org/.
Copyright (C) 1992-2003 HHMI/Washington University School of Medicine. Freely distributed under the GNU General Public License (GPL).
See the file COPYING in your distribution for details on redistribution conditions.
Sean Eddy HHMI/Dept. of Genetics Washington Univ. School of Medicine 4566 Scott Ave. St Louis, MO 63110 USA http://www.genetics.wustl.edu/eddy/