Bio.AlignIO.MauveIO module
Bio.AlignIO support for “xmfa” output from Mauve/ProgressiveMauve.
You are expected to use this module via the Bio.AlignIO functions (or the Bio.SeqIO functions if you want to work directly with the gapped sequences).
For example, consider a progressiveMauve alignment file containing the following:
#FormatVersion Mauve1
#Sequence1File a.fa
#Sequence1Entry 1
#Sequence1Format FastA
#Sequence2File b.fa
#Sequence2Entry 2
#Sequence2Format FastA
#Sequence3File c.fa
#Sequence3Entry 3
#Sequence3Format FastA
#BackboneFile three.xmfa.bbcols
> 1:0-0 + a.fa
--------------------------------------------------------------------------------
--------------------------------------------------------------------------------
--------------------------------------------------------------------------------
> 2:5417-5968 + b.fa
TTTAAACATCCCTCGGCCCGTCGCCCTTTTATAATAGCAGTACGTGAGAGGAGCGCCCTAAGCTTTGGGAAATTCAAGC-
--------------------------------------------------------------------------------
CTGGAACGTACTTGCTGGTTTCGCTACTATTTCAAACAAGTTAGAGGCCGTTACCTCGGGCGAACGTATAAACCATTCTG
> 3:9476-10076 - c.fa
TTTAAACACCTTTTTGGATG--GCCCAGTTCGTTCAGTTGTG-GGGAGGAGATCGCCCCAAACGTATGGTGAGTCGGGCG
TTTCCTATAGCTATAGGACCAATCCACTTACCATACGCCCGGCGTCGCCCAGTCCGGTTCGGTACCCTCCATGACCCACG
---------------------------------------------------------AAATGAGGGCCCAGGGTATGCTT
=
> 2:5969-6015 + b.fa
-----------------------
GGGCGAACGTATAAACCATTCTG
> 3:9429-9476 - c.fa
TTCGGTACCCTCCATGACCCACG
AAATGAGGGCCCAGGGTATGCTT
This is a multiple sequence alignment with multiple aligned sections, so you would probably load this using the Bio.AlignIO.parse() function:
>>> from Bio import AlignIO
>>> align = AlignIO.parse("Mauve/simple_short.xmfa", "mauve")
>>> alignments = list(align)
>>> for aln in alignments:
... print(aln)
...
Alignment with 3 rows and 240 columns
--------------------------------------------...--- a.fa
TTTAAACATCCCTCGGCCCGTCGCCCTTTTATAATAGCAGTACG...CTG b.fa/5416-5968
TTTAAACACCTTTTTGGATG--GCCCAGTTCGTTCAGTTGTG-G...CTT c.fa/9475-10076
Alignment with 2 rows and 46 columns
-----------------------GGGCGAACGTATAAACCATTCTG b.fa/5968-6015
TTCGGTACCCTCCATGACCCACGAAATGAGGGCCCAGGGTATGCTT c.fa/9428-9476
Additional information is extracted from the XMFA file and available through the annotation attribute of each record:
>>> for record in alignments[0]:
... print(record.id, len(record))
... print(" start: %d, end: %d, strand: %d" %(
... record.annotations['start'], record.annotations['end'],
... record.annotations['strand']))
...
a.fa 240
start: 0, end: 0, strand: 1
b.fa/5416-5968 240
start: 5416, end: 5968, strand: 1
c.fa/9475-10076 240
start: 9475, end: 10076, strand: -1
- class Bio.AlignIO.MauveIO.MauveWriter(*args, **kwargs)
Bases:
Bio.AlignIO.Interfaces.SequentialAlignmentWriter
Mauve/XMFA alignment writer.
- __init__(*args, **kwargs)
Initialize the class.
- write_alignment(alignment)
Use this to write (another) single alignment to an open file.
Note that sequences and their annotation are recorded together (rather than having a block of annotation followed by a block of aligned sequences).
- __annotations__ = {}
- class Bio.AlignIO.MauveIO.MauveIterator(handle, seq_count=None)
Bases:
Bio.AlignIO.Interfaces.AlignmentIterator
Mauve xmfa alignment iterator.
- __next__()
Parse the next alignment from the handle.
- __annotations__ = {'_ids': typing.List[str]}