Reads and writes sequence files in various formats. Performs manipulations on sequences
Project description
seqconverter
The command-line program seqconverter
can read and write text files containing aligned or unaligned DNA or protein sequences. The program understands most standard and some non-standard formats (fasta, Nexus, Phylip, Clustal, Stockholm, tab, raw, Genbank, How). The program can perform various manipulations on the sequences.
Availability
The seqconverter source code is available on GitHub: https://github.com/agormp/seqconverter. The executable can be installed from PyPI: https://pypi.org/project/seqconverter/
Installation
python3 -m pip install seqconverter
Upgrading to latest version:
python3 -m pip install --upgrade seqconverter
Dependencies
seqconverter relies on the sequencelib library and the NumPy package, which are automatically included when using pip to install.
Highlights
- Can be used to convert between sequence file formats but also does other things
- Read and write aligned sequences in the following formats:
- fasta
- Nexus
- Phylip
- Clustal
- Stockholm (so far only read)
- tab
- raw
- Read and write unaligned sequences in the following formats:
- fasta
- tab
- raw
- Genbank
- How
- Writes to stdout, so output can be used in pipes or redirected to file
- Also accepts input on stdin
- Extract subsequence (specified columns) from alignment
- Extract all overlapping windows of specified size
- Extract named sequences from set of sequences
- Randomly sample from set of sequence
- Remove columns from alignment based on one of several criteria (all gaps, some gaps, more than fraction gaps, conserved, specified indices, columns corresponding to insert states in output from HMMer's hmmalign method)
- Rename sequences automatically or using file with pairs of "oldname newname"
- Generate partitioned Nexus file with
charset
specification automatically from separate files containing identically named sequences (sequences are concatenated end to end in same order as files). - More...
- Underlying library has been optimized for high speed and low memory consumption
- Really has too many options, but does useful stuff (and has been created based on what I needed for own projects)
Usage examples
Get help:
seqconverter -h
Convert aligned sequences in fasta format to nexus, write sequences using 70 characters per line (Note: output is written to the terminal so you need to use redirection to store in a file):
seqconverter -I fasta -O nexus --width 70 myalignment.fasta > myalignment.nexus
Extract columns 50-150 (inclusive, with numbering starting at 1) from alignment in Clustal format, write output in fasta format to file (using redirection):
seqconverter -I clustal -O fasta --subseq 50,150 myalignment.aln > aligment_50_150.fasta
Select all sequences whose name match the regular expression "seq_1[0-9]+":
seqconverter -I fasta -O fasta --select "seq_1[0-9]+" myseqs.fasta > subset.fasta
Discard all sequences whose name match the regular expression "seq_1[0-9]+":
seqconverter -I fasta -O fasta --discard "seq_1[0-9]+" myseqs.fasta > subset.fasta
Extract all sequences containing a Lysine at position 484 and a Tyrosine at position 501 from set of amino acid sequences:
seqconverter -I clustal -O fasta --filterpos 484K,501Y myalignment.aln > voc.fasta
Remove columns where one or more residues are gaps from alignment:
seqconverter -I fasta -O fasta --remgapcols myalignment.fasta > gapfree.fasta
Remove those columns in input (which is in Stockholm format) that correspond to insert states from HMMer's hmmalign method (these will have "." for "gaps" and/or lowercase residue symbols):
seqconverter -I stockholm -O nexus --remhmminsertcols myalignment.sto > mainstates.nexus
Concatenate identically named sequences from separate input files:
seqconverter -I fasta -O fasta --paste alignm1.fasta alignm2.fasta alignm3.fasta > concat.fasta
Concatenate identically named sequences from separate input files, creating partitioned Nexus file with charset
specification. This can be used for phylogenetic analyses in BEAST or MrBayes where different genomic regions (e.g., genes) have different substitution models. Note: sequences in each file need to have identical names (e.g. name of species) and sequences in each file needs to be already aligned.
seqconverter -I fasta -O nexus --paste --charset gene1.fasta gene2.fasta gene3.fasta > partitioned.nexus
Usage
usage: seqconverter [-h] [-I FORMAT] [-O FORMAT] [--width WIDTH] [--subsample N]
[--select "REGEXP"] [--discard "REGEXP"] [--subset NAMEFILE]
[--remseqs NAMEFILE] [--filterpos VARIANT[,VARIANT,...]]
[--filterdupseq] [--filterdupname] [--subseq START,STOP]
[--subseqrename] [--windows WSIZE] [--degap] [--remcols INDEX-LIST]
[--remambigcols] [--remgapcols] [--remallgapcols]
[--remfracgapcols FRAC] [--remconscols] [--remhmminsertcols]
[--rename OLD,NEW] [--renamenumber BASENAME] [--appendnumber]
[--renameregexp "REGEXP"] [--regdupfix] [--savenames FILE]
[--restorenames FILE] [--gbname FIELD1[,FIELD2,FIELD3,...]] [--paste]
[--overlap] [--minoverlap N] [--multifile] [--charset] [--mbpartblock]
[--revcomp] [--translate] [--num] [--len] [--com] [--seqcom]
[--ignoregaps] [--nam] [--div] [--sit] [--debug]
[SEQFILE ...]
positional arguments:
SEQFILE One or more sequence files
options:
-h, --help show this help message and exit
--debug Print longer error messages
File formats:
-I FORMAT Input format: auto, fasta, nexus, phylip, clustal, stockholm,
genbank, tab, raw, how [default: auto]
-O FORMAT Output format: fasta, nexus, nexusgap, phylip, clustal, tab, raw,
how [default: fasta]
--width WIDTH Print sequences with WIDTH characters per line [default: 60]
Retrieve subset of sequences:
--subsample N Randomly extract N sequences from sequence set
--select "REGEXP" Select sequences where substring of name matches regular expression
--discard "REGEXP" Discard sequences where substring of name matches regular
expression
--subset NAMEFILE Retrieve sequences listed in NAMEFILE
--remseqs NAMEFILE Discard sequences listed in NAMEFILE
--filterpos VARIANT[,VARIANT,...]
Retrieve sequences containing specific residues on specific
positions. Syntax is: <POS><RESIDUE>, possibly in a comma-separated
list. Example: 484K,501Y
--filterdupseq Remove duplicate sequences (keeping one of each); print names of
removed sequences on stderr.
--filterdupname Remove sequences with duplicate names (keeping one of each). If
this option is not set (default): stop execution on duplicate
names.
Extracting or removing parts of sequences:
--subseq START,STOP Extract subsequence, positions START to STOP, from alignment
--subseqrename When extracting sub-sequences: add '_START_STOP' to seqnames
--windows WSIZE Extract all overlapping sequence windows of size WSIZE
--degap Remove all gap characters from sequences
--remcols INDEX-LIST Remove listed columns from alignment. Columns can be indicated as
comma-separated list of indices, and as ranges. Example:
--remcols=10,15,22-40,57
--remambigcols Remove columns where one or more residues are ambiguity symbols
(e.g., N for nucleotides)
--remgapcols Remove columns where one or more residues are gaps
--remallgapcols Remove columns that are all-gaps
--remfracgapcols FRAC
Remove columns that contain > FRAC fraction gaps
--remconscols Remove conserved columns from alignment
--remhmminsertcols When reading Stockholm format file from HMMer's hmmalign: remove
columns corresponding to insert states
Renaming sequences:
--rename OLD,NEW Rename single sequence from OLD to NEW
--renamenumber BASENAME
Rename all sequences to this form: BASENAME_001, ...
--appendnumber Append numbering at end of existing sequence names (SeqA_001,
SeqXYZ_002, ...
--renameregexp "REGEXP"
Rename sequences by deleting parts of names matching regular
expression in REGEXP
--regdupfix Fix duplicate names, created by regexp, by appending numbers to
duplicates (seqA, seqA_2, ...)
--savenames FILE Save renaming information in FILE for later use
--restorenames FILE Restore original names using info previously saved in FILE
--gbname FIELD1[,FIELD2,FIELD3,...]
For Genbank input: construct sequence names from the list of named
fields, in the specified order
Combining multiple sequence files:
--paste Concatenate identically named sequences from separate input files.
Sequences are pasted end to end in the same order as the input
files. All input files must contain same number of sequences, and
sequences in different files must have same name.(To see partitions
choose nexus output, or output to multiple partition files).
--overlap Similar to --paste, but for input alignments that overlap partly.
Overlap is discovered automatically and partition boundaries are
then set such that each partition is covered by a unique set of
genes. (To see partitions choose nexus output, or output to
multiple partition files).
--minoverlap N Minimum overlap required for merging input alignments (default: set
automatically based on seq lengths)
--multifile Outputs to multiple files (one per partition) instead of stdout.
Partitions are generated automatically based on other options.
--charset Appends Nexus form charset block listing partitions in data (forces
output in Nexus format). Charsets and partitions are generated
automatically based on other options.
--mbpartblock Appends MrBayes block with commands for running partitioned
analysis (forces output in Nexus format). Charsets and partitions
are generated automatically based on other options.
DNA manipulations:
--revcomp Return reverse complement of sequence(s). Requires sequences to be
DNA.
--translate Translate DNA into amino acid sequences (requires sequences to be
DNA, in frame, and length multiple of 3)
Summaries:
No sequences are printed when these options are used
--num Print number of sequences
--len Print summary of sequence lengths
--com Print overall sequence composition
--seqcom Print composition for each individual sequence. Output is one line
per residue-type per sequence: seqname, residue-type, freq, count,
seqlength
--ignoregaps When reporting composition: do not count gap symbols
--nam Print names of sequences
--div (For alignments) Print nucleotide diversity (=average pairwise
sequence difference): mean, std, min, max
--sit (For alignments) Print site summary: number of columns that are
variable (not conserved), number of columns that contain gaps, and
number of columns that contain IUPAC ambiguity symbols
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