# HG changeset patch
# User bgruening
# Date 1398366125 14400
# Node ID 55bb96edfc076f4f8e653cdd0b78e565755d5861
# Parent 652f9d550531b17c9f0f1ee95e7e1691b58bf07a
Uploaded
diff -r 652f9d550531 -r 55bb96edfc07 cmalign.xml
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/cmalign.xml Thu Apr 24 15:02:05 2014 -0400
@@ -0,0 +1,374 @@
+
+ against a sequence database (cmsearch)
+
+
+ infernal
+ infernal
+ gnu_coreutils
+
+
+ ## a temp file is needed, because the standard tabular output from infernal is not usefull in Galaxy
+ ## it will be converted to a tab delimited file and piped to Galaxy
+ temp_tabular_output=\$(mktemp);
+
+ cmsearch
+ ## Infernal Options
+ --cpu "\${GALAXY_SLOTS:-12}"
+ -o /dev/null
+ --tformat $seqdb.ext ##target format: fasta, embl, genbank, ddbj, stockholm, pfam, a2m, afa, clustal, and phylip
+ $bottomonly
+ $toponly
+ $cyk
+ $notrunc
+ $max
+ $nohmm
+ $mid
+ ##$bitscore_thresholds
+ --tblout \$temp_tabular_output
+ $g
+ #if $A:
+ $A $multiple_alignment_output
+ #end if
+
+ #if $inclusion_thresholds_opts.inclusion_thresholds_selector == "--incE":
+ --incE $inclusion_thresholds_opts.incE
+ #elif $inclusion_thresholds_opts.inclusion_thresholds_selector == "--incT":
+ --incT $inclusion_thresholds_opts.incT
+ #end if
+
+ #if $reporting_thresholds_opts.reporting_thresholds_selector == "-E":
+ -E $reporting_thresholds_opts.E
+ #elif $reporting_thresholds_opts.reporting_thresholds_selector == "-T":
+ -T $reporting_thresholds_opts.T
+ #end if
+
+ ## CM file from the history or stored as database on disc
+
+ #if $cm_opts.cm_opts_selector == "db":
+ $cm_opts.database.fields.path
+ #else:
+ $cm_opts.cmfile
+ #end if
+
+ ## sequence file
+ $seqdb
+ 2>&1
+ ;
+
+ ## 1. replace all lines starting # (comment lines)
+ ## 2. replace the first 18 spaces with tabs, 18th field is a free text field (can contain spaces)
+ sed -e 's/#.*$//' -e '/^$/d' -e 's/ /\t/g' -e 's/\t/ /18g' \$temp_tabular_output > $outfile
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+ A is True
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+
+
+**What it does**
+
+cmalign aligns the RNA sequences in to the covariance model (CM) in . The new alignment is
+output to stdout in Stockholm format, but can be redirected to a file with the -o option.
+Either or (but not both) may be ’-’ (dash), which means reading this input from stdin rather than a
+file.
+The sequence file must be in FASTA or Genbank format.
+cmalign uses an HMM banding technique to accelerate alignment by default as described below for the --hbanded
+option. HMM banding can be turned off with the --nonbanded option.
+By default, cmalign computes the alignment with maximum expected accuracy that is consistent with constraints
+(bands) derived from an HMM, using a banded version of the Durbin/Holmes optimal accuracy algorithm. This be-
+havior can be changed with the --cyk or --sample options.
+cmalign takes special care to correctly align truncated sequences, where some nucleotides from the beginning (5’)
+and/or end (3’) of the actual full length biological sequence are not present in the input sequence (see DL Kolbe and
+SR Eddy, Bioinformatics, 25:1236-1243, 2009). This behavior is on by default, but can be turned off with --notrunc. In
+previous versions of cmalign the --sub option was required to appropriately handle truncated sequences. The --sub
+option is still available in this version, but the new default method for handling truncated sequences should be as good
+or superior to the sub method in nearly all cases.
+The --mapali option allows inclusion of the fixed training alignment used to build the CM from file within the
+output alignment of cmalign.
+It is possible to merge two or more alignments created by the same CM using the Easel miniapp esl-alimerge (included
+in the easel/miniapps/ subdirectory of Infernal). Previous versions of cmalign included options to merge alignments
+but they were deprecated upon development of esl-alimerge, which is significantly more memory efficient.
+By default, cmalign will output the alignment to stdout. The alignment can be redirected to an output file with the
+-o option. With -o, information on each aligned sequence, including score and model alignment boundaries will be
+printed to stdout (more on this below).
+The output alignment will be in Stockholm format by default. This can be changed to Pfam, aligned FASTA (AFA), A2M,
+Clustal, or Phylip format using the --outformat option, where is the name of the desired format. As a special
+case, if the output alignment is large (more than 10,000 sequences or more than 10,000,000 total nucleotides) than the
+output format will be Pfam format, with each sequence appearing on a single line, for reasons of memory efficiency. For
+alignments larger than this, using --ileaved will force interleaved Stockholm format, but the user should be aware that
+this may require a lot of memory. --ileaved will only work for alignments up to 100,000 sequences or 100,000,000 total
+nucleotides.
+If the output alignment format is Stockholm or Pfam, the output alignment will be annotated with posterior probabilities
+which estimate the confidence level of each aligned nucleotide. This annotation appears as lines beginning with ”#=GR
+ PP”, one per sequence, each immediately below the corresponding aligned sequence ””.
+Characters in PP lines have 12 possible values: ”0-9”, ”*”, or ”.”. If ”.”, the position corresponds to a gap in the sequence.
+A value of ”0” indicates a posterior probability of between 0.0 and 0.05, ”1” indicates between 0.05 and 0.15, ”2”
+indicates between 0.15 and 0.25 and so on up to ”9” which indicates between 0.85 and 0.95. A value of ”*” indicates
+a posterior probability of between 0.95 and 1.0. Higher posterior probabilities correspond to greater confidence that
+the aligned nucleotide belongs where it appears in the alignment. With --nonbanded, the calculation of the posterior
+probabilities considers all possible alignments of the target sequence to the CM. Without --nonbanded (i.e. in default
+mode), the calculation considers only possible alignments within the HMM bands. Further, the posterior probabilities
+are conditional on the truncation mode of the alignment. For example, if the sequence alignment is truncated 5’, a PP
+value of ”9” indicates between 0.85 and 0.95 of all 5’ truncated alignments include the given nucleotide at the given
+position. The posterior annotation can be turned off with the --noprob option. If --small is enabled, posterior annotation
+must also be turned off using --noprob.
+The tabular output that is printed to stdout if the -o option is used includes one line per sequence and twelve fields
+per line: ”idx”: the index of the sequence in the input file, ”seq name”: the sequence name; ”length”: the length of the
+sequence; ”cm from” and ”cm to”: the model start and end positions of the alignment; ”trunc”: ”no” if the sequence is
+not truncated, ”5’” if the beginning of the sequence truncated 5’, ”3’” if the end of the sequence is truncated, and ”5’&3’”
+if both the beginning and the end are truncated; ”bit sc”: the bit score of the alignment, ”avg pp” the average posterior
+probability of all aligned nucleotides in the alignment; ”band calc”, ”alignment” and ”total”: the time in seconds required
+for calculating HMM bands, computing the alignment, and complete processing of the sequence, respectively; ”mem
+(Mb)”: the size in Mb of all dynamic programming matrices required for aligning the sequence. This tabular data can be
+saved to file with the --sfile option.
+
+
+Options for controlling the alignment algorithm
+--optacc Align sequences using the Durbin/Holmes optimal accuracy algorithm. This is the default.
+The optimal accuracy alignment will be constrained by HMM bands for acceleration unless
+the --nonbanded option is enabled. The optimal accuracy algorithm determines the align-
+ment that maximizes the posterior probabilities of the aligned nucleotides within it. The
+posterior probabilites are determined using (possibly HMM banded) variants of the Inside
+and Outside algorithms.
+--cyk Do not use the Durbin/Holmes optimal accuracy alignment to align the sequences, instead
+use the CYK algorithm which determines the optimally scoring (maximum likelihood) align-
+ment of the sequence to the model, given the HMM bands (unless --nonbanded is also
+enabled).
+--sample Sample an alignment from the posterior distribution of alignments. The posterior distribution
+is determined using an HMM banded (unless --nonbanded) variant of the Inside algorithm.
+--seed Seed the random number generator with , an integer >= 0. This option can only be
+used in combination with --sample. If is nonzero, stochastic sampling of alignments
+will be reproducible; the same command will give the same results. If is 0, the random
+number generator is seeded arbitrarily, and stochastic samplings may vary from run to run
+of the same command. The default seed is 181.
+--notrunc Turn off truncated alignment algorithms. All sequences in the input file will be assumed to be
+full length, unless --sub is also used, in which case the program can still handle truncated
+sequences but will use an alternative strategy for their alignment.
+--sub Turn on the sub model construction and alignment procedure. For each sequence, an HMM
+is first used to predict the model start and end consensus columns, and a new sub CM is
+constructed that only models consensus columns from start to end. The sequence is then
+aligned to this sub CM. Sub alignment is an older method than the default one for aligning
+sequences that are possibly truncated. By default, cmalign uses special DP algorithms to
+handle truncated sequences which should be more accurate than the sub method in most
+cases. --sub is still included as an option mainly for testing against this default truncated
+sequence handling. This ”sub CM” procedure is not the same as the ”sub CMs” described
+by Weinberg and Ruzzo.
+
+
+Other options
+--mapali Reads the alignment from file used to build the model aligns it as a single object to
+the CM; e.g. the alignment in is held fixed. This allows you to align sequences to a
+model with cmalign and view them in the context of an existing trusted multiple alignment.
+ must be the alignment file that the CM was built from. The program verifies that the
+checksum of the file matches that of the file used to construct the CM. A similar option to
+this one was called --withali in previous versions of cmalign.
+--mapstr Must be used in combination with --mapali . Propogate structural information for any
+pseudoknots that exist in to the output alignment. A similar option to this one was called
+--withstr in previous versions of cmalign.
+--informat Assert that the input is in format . Do not run Babelfish format autodec-
+tion. This increases the reliability of the program somewhat, because the Babelfish can
+make mistakes; particularly recommended for unattended, high-throughput runs of Infernal.
+Acceptable formats are: FASTA, GENBANK, and DDBJ. is case-insensitive.
+--outformat Specify the output alignment format as . Acceptable formats are: Pfam, AFA, A2M,
+Clustal, and Phylip. AFA is aligned fasta. Only Pfam and Stockholm alignment formats
+will include consensus structure annotation and posterior probability annotation of aligned
+residues.
+--dnaout Output the alignments as DNA sequence alignments, instead of RNA ones.
+--noprob Do not annotate the output alignment with posterior probabilities.
+--matchonly Only include match columns in the output alignment, do not include any insertions relative
+to the consensus model. This option may be useful when creating very large alignments
+that require a lot of memory and disk space, most of which is necessary only to deal with
+insert columns that are gaps in most sequences.
+--ileaved Output the alignment in interleaved Stockholm format of a fixed width that may be more con-
+venient for examination. This was the default output alignment format of previous versions
+of cmalign. Note that cmalign requires more memory when this option is used. For this
+reason, --ileaved will only work for alignments of up to 100,000 sequences or a total of
+100,000,000 aligned nucleotides.
+--regress Save an additional copy of the output alignment with no author information to file .
+--verbose Output additional information in the tabular scores output (output to stdout if -o is used, or
+to if --sfile is used). These are mainly useful for testing and debugging.
+--cpu Specify that parallel CPU workers be used. If is set as ”0”, then the program will
+be run in serial mode, without using threads. You can also control this number by setting an
+environment variable, INFERNAL NCPU. This option will only be available if the machine on
+which Infernal was built is capable of using POSIX threading (see the Installation section of
+the user guide for more information).
+--mpi Run as an MPI parallel program. This option will only be available if Infernal has been
+configured and built with the ”--enable-mpi” flag (see the Installation section of the user
+guide for more information).
+
+
+
+
+
+
+
+Output format
+-------------
+
+(1) target name: The name of the target sequence or profile.
+(2) accession: The accession of the target sequence or profile, or ’-’ if none.
+(3) query name: The name of the query sequence or profile.
+(4) accession: The accession of the query sequence or profile, or ’-’ if none.
+(5) mdl (model): Which type of model was used to compute the final score. Either ’cm’ or ’hmm’. A CM is used to compute the final hit scores unless the model has zero basepairs or the --hmmonly option is used, in which case a HMM will be used.
+(6) mdl from (model coord): The start of the alignment of this hit with respect to the profile (CM or HMM), numbered 1..N for a profile of N consensus positions.
+(7) mdl to (model coord): The end of the alignment of this hit with respect to the profile (CM or HMM), numbered 1..N for a profile of N consensus positions.
+(8) seq from (ali coord): The start of the alignment of this hit with respect to the sequence, numbered 1..L for a sequence of L residues.
+(9) seq to (ali coord): The end of the alignment of this hit with respect to the sequence, numbered 1..L for a sequence of L residues.
+(10) strand: The strand on which the hit occurs on the sequence. ’+’ if the hit is on the top (Watson) strand, ’-’ if the hit is on the bottom (Crick) strand. If on the top strand, the “seq from” value will be less than or equal to the “seq to” value, else it will be greater than or equal to it.
+(11) trunc: Indicates if this is predicted to be a truncated CM hit or not. This will be “no” if it is a CM hit that is not predicted to be truncated by the end of the sequence, “5’ ” or “3’ ” if the hit is predicted to have one or more 5’ or 3’ residues missing due to a artificial truncation of the sequence, or “5’&3”’ if the hit is predicted to have one or more 5’ residues missing and one or more 3’ residues missing. If the hit is an HMM hit, this will always be ’-’.
+(12) pass: Indicates what “pass” of the pipeline the hit was detected on. This is probably only useful for testing and debugging. Non-truncated hits are found on the first pass, truncated hits are found on successive passes.
+(13) gc: Fraction of G and C nucleotides in the hit.
+(14) bias: The biased-composition correction: the bit score difference contributed by the null3 model for CM hits, or the null2 model for HMM hits. High bias scores may be a red flag for a false positive. It is difficult to correct for all possible ways in which a nonrandom but nonhomologous biological sequences can appear to be similar, such as short-period tandem repeats, so there are cases where the bias correction is not strong enough (creating false positives).
+(15) score: The score (in bits) for this target/query comparison. It includes the biased-composition cor-rection (the “null3” model for CM hits, or the “null2” model for HMM hits).
+(16) E-value: The expectation value (statistical significance) of the target. This is a per query E-value; i.e. calculated as the expected number of false positives achieving this comparison’s score for a single query against the search space Z. For cmsearch Z is defined as the total number of nucleotides in the target dataset multiplied by 2 because both strands are searched. For cmscan Z is the total number of nucleotides in the query sequence multiplied by 2 because both strands are searched and multiplied by the number of models in the target database. If you search with multiple queries and if you want to control the overall false positive rate of that search rather than the false positive rate per query, you will want to multiply this per-query E-value by how many queries you’re doing.
+(17) inc: Indicates whether or not this hit achieves the inclusion threshold: ’!’ if it does, ’?’ if it does not (and rather only achieves the reporting threshold). By default, the inclusion threshold is an E-value of 0.01 and the reporting threshold is an E-value of 10.0, but these can be changed with command line options as described in the manual pages.
+(18) description of target: The remainder of the line is the target’s description line, as free text.
+
+
+For further questions please refere to the Infernal Userguide_.
+
+.. _Userguide: http://selab.janelia.org/software/infernal/Userguide.pdf
+
+
+How do I cite Infernal?
+-----------------------
+
+The recommended citation for using Infernal 1.1 is E. P. Nawrocki and S. R. Eddy, Infernal 1.1: 100-fold faster RNA homology searches , Bioinformatics 29:2933-2935 (2013).
+
+**Galaxy Wrapper Author**::
+
+ * Bjoern Gruening, University of Freiburg
+
+
+
diff -r 652f9d550531 -r 55bb96edfc07 cmsearch.xml
--- a/cmsearch.xml Tue Apr 22 13:56:22 2014 -0400
+++ b/cmsearch.xml Thu Apr 24 15:02:05 2014 -0400
@@ -57,7 +57,7 @@
## 1. replace all lines starting # (comment lines)
## 2. replace the first 18 spaces with tabs, 18th field is a free text field (can contain spaces)
- sed -e 's/#.*$//' -e '/^$/d' -e 's/ /\t/g' -e 's/\t/ /18g' \$temp_tabular_output > $outfile
+ sed -e 's/#.*$//' -e '/^$/d' -e 's/\s\+/\t/g' -e 's/\t/ /18g' \$temp_tabular_output > $outfile