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I have a list of refseq IDs (keys_list) that I'm using to pull down sequence records using BioPython Entrez. I'd like to access just the sequence from fasta records returned, but I don't want to have to write the records to file to do so.

I'm trying the foloowing code

for key in key_list:
   Entrez.email = "myemailaddress"
   handle = Entrez.efetch(db='nuccore', id=key, rettype='fasta')
   record = SeqIO.parse(handle, "fasta")
   for seq_record in SeqIO.parse(record, "fasta"):
    print seq_record.seq

When I run this I'm getting the error:

File "/usr/lib64/python2.6/site-packages/Bio/SeqIO/__init__.py", line 538, in parse
  yield r
File "/usr/lib64/python2.6/contextlib.py", line 34, in __exit__
  self.gen.throw(type, value, traceback)
File "/usr/lib64/python2.6/site-packages/Bio/File.py", line 59, in as_handle
  yield handleish
File "/usr/lib64/python2.6/site-packages/Bio/SeqIO/__init__.py", line 537, in parse
  for r in i:
File "/usr/lib64/python2.6/site-packages/Bio/SeqIO/FastaIO.py", line 37, in FastaIterator
  line = handle.readline()
AttributeError: 'generator' object has no attribute 'readline'

If I return the entire record with handle.read(), I can get the whole fasta record, but at this stage I'd just like to access the nucleotide sequence only.

Can anyone help me with this problem?

Many thanks in advance.

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2 Answers 2

up vote 1 down vote accepted

Here's what you need.

Instead of:

handle = Entrez.efetch(db='nuccore', id=key, rettype='fasta')

Try this:

handle = Entrez.efetch(db="nucleotide", id=key, retmode="xml") # retmode as 'xml' , db='nucleotide'
features = Entrez.read(handle)[0]
sequence = features['GBSeq_sequence'] # this is your sequence!

Which returns a character string that is your sequence:

'ggctcgcatctctccttcacgcgcccgccgccttacctgaggccgccatccacgccggttgagtcgcgttctgccgcctcccgcctgtggtgcctcctgaactacgtccgccgtctaggtaagtttagagctcaggtcgagaccgggcctttgtccggcgctcccttggagcctacctagactcagccggctctccacgctttgcctgaccctgcttgctcaactctacgtctttgtttcgttttctgttctgcgccgttacagatcgaaagttccacccctttccctttcattcacgactgactgccggcttggcccacggccaagtaccggcaactctgctggctcggagccagcgacagcccattctatagcactctccaggagagaaatttagtacacagttgggggctcgtccgggattcgagcgcccctttattccctaggcaatgggccaaatcttttcccgtagcgctagccctattccgcggccgccccgggggctggccgctcatcactggcttaacttcctccaggcggcatatcgcctagaacccggtccctccagttacgatttccaccagttaaaaaaatttcttaaaatagctttagaaacaccggtctggatctgccccattaactactccctcctagccagcctactcccaaaaggataccccggccgggtgaatgaaattttacacatactcatccaaacccaagcccagatcccgtcccgccccgcgccgccgccgccgtcatcctccacccacgaccccccggattctgacccacaaatcccccctccctatgttgagcctacagccccccaagtccttccagtcatgcacccacatggtgcccctcccaaccaccgcccatggcaaatgaaagacctacaggccattaagcaagaagtctcccaagcggcccctggaagcccccagtttatgcagaccatccggcttgcggtgcagcagtttgaccccactgccaaagacctccaagacctcctgcagtacctttgctcctccctcgtggcttccctccatcaccagcagctagatagccttatatcagaggccgaaactcgaggtattacaggttataaccccttagccggtcccctccgtgtccaagccaacaatccacaacaacaaggattaaggcgagaataccagcaactctggctcgccgccttcgccgccctgccagggagtgccaaagacccttcctgggcctctatcctccaaggcctggaggagccttaccacgccttcgtagaacgcctcaacatagctcttgacaatgggctgccagaaggcacgcccaaagaccccattttacgttccttagcctactctaatgcaaacaaagaatgccaaaaattactacaggcccgagggcacactaatagccctctaggagatatgttgcgggcttgtcaggcctggacccccaaagacaaaaccaaagtgttagttgtccagcctaaaaaaccccccccaaatcagccgtgcttccggtgcgggaaagcaggccactggagtcgggactgcactcagcctcgtcctccccctgggccatgccccctatgtcaagatccaactcactggaagcgagactgcccccgcctaaagcccactatcccagaaccagagccagaggaggatgccctcctattagatctccccgccgacatcccacacccaaaaaactccatagggggggaggtttaacctccccccccacattacagcaagtccttcctaaccaagacccaacatctattctgccagttataccgttagatcccgcccgtcggcccgtaattaaagcccagattgacacccagaccagccacccaaagactatcgaagctctactagatacaggagcagacatgacagtccttccgatagccttgttctcaagtaatactcccctcaaaaacacatccgtgttaggggcagggggccaaacccaagatcactttaagctcacctcccttcctgtgctaatacgcctccctttccggacgacgcctattgttttaacatcttgcctagttgataccaaaaacaactgggccatcataggtcgtgatgccttacaacaatgccaaggcgtcctgtacctccctgaggcaaaaaggccgcctgtaatcttgccaatacaggcgccagctgtccttgggctagaacacctcccaaggccccccgaaatcagccagttccctttaaaccagaacgcctccaggccttgcaacacttggtccggaaggccctggaggcaggccatatcgaaccctacaccgggccaggaaataacccagtattcccagttaaaaaagccaatggaacctggcgattcatccacgacctgcgggccactaactctctaaccatagatctctcatcatcttcccccgggccccctgacttgtccagcctgccaactacactagcccacttacaaactatagaccttaaagacgcctttttccaaatccccctacctaaacagttccagccctactttgctttcactgtcccacagcagtgtaactacggccccggcactagatacgcctggagagtactaccccaagggtttaaaaatagtcccaccctgttcgaaatgcagctggcccatatcctgcagcccattcggcaagccttcccccaatgcactattcttcagtacatggatgacattctcctggcaagcccctcccatgcggacctgcaactactctcagaggccacaatggcttccctaatctcccatgggttgcctgtgtccgaaaacaaaacccagcaaacccctggaacaattaagttcctagggcaaataatttcacctaatcacctcacttatgatgcagtccccaaggtacctatacggtcccgctgggcgctacctgaacttcaagccctacttggcgagattcagtgggtctccaaaggaactcctaccttacgccagccccttcacagtctctactgtgccttacaaaggcatactgatccccgagaccaaatatatttaaatccttctcaagttcaatcattagtgcagctgcggcaggccctgtcacagaactgccgcagtagactagtccaaaccctgcccctcctaggggctattatgctgaccctcactggcaccaccactgtggtgttccagtccaagcagcagtggccacttgtctggctacatgcccccctaccccacactagccagtgcccctgggggcagctacttgcctcagctgtgttattactcgacaaatacaccttgcaatcctatggactactctgccaaaccatacatcataacatctccacccaaaccttcaaccaattcattcaaacatctgaccaccccagtgttcctatcttactccaccacagtcaccgattcaaaaatttaggtgcccagactggagaactttggaacacttttcttaaaacaactgccccattggctcctgtgaaagcccttatgccagtgtttactctttcccctgtgatcataaacaccgccccttgcctgttttcagacggatccacctcccaggcagcctatattctctgggacaagcatatattgtcacaaagatcattcccccttccgccaccgcacaagtcggcccaacgggccgaacttctcggacttttgcatggcctctccagcgcccgttcgtggcgctgtctcaacatatttctagactccaagtatctttatcattaccttcggacccttgccctaggcaccttccaaggcaggtcctctcaggccccctttcaggccctcctgccccgcttactatcgcgtaaggtcgtctatttgcaccacgttcgcagccataccaatctacctgatcccatctccaggctcaacgctctcacagatgccctactaatcacccctgtcctgcagctctctcctgcagacctacacagtttcacccattgcggacagacggccctcacactgcaaggggcaaccacaactgaggcctccaatatcctgcgctcttgccacgcctgccgcaaaaataacccacaacatcagatgcctcaaggacacatccgccgtggcctactccctaaccacatctggcaaggcgacattacccatttcaaatataaaaatacactgtatcgccttcatgtatgggtagacaccttttcaggagccatctcagctacccaaaagagaaaagaaacaagctcagaagctatttcctctttgctccaggccattgcctatctaggcaagcctagctacataaacacagacaatggccctgcctatatttcccaagacttcctcaatatgtgtacctcccttgctattcgccatactacccatgtcccctacaatccaaccagctccggacttgtagaacgctctaatggcattcttaaaaccctattatataagtactttactgacaaacccgacctacctatggataatgctctatccatagccctatggacaatcaaccacctaaatgtattaaccaactgccacaaaacccgatggcagcttcaccactccccccgactccagccgatcccagagacacattccctcagcaataaacaaacccattggtattatttcaagcttcctggtcttaatagccgccagtggaaaggaccacaggaggctcttcaagaagctgccggcgctgctctcatcccggtaagcgctagttctgcccagtggatcccgtggaggctcctcaagcgagctgcatgcccaagacccgtcggaggccccgccgatcccaaagaaaaagaccaccaacaccatgggtaagtttctcgccactttgattttattcttccagttctgccccctcatcctcggtgattacagccccagctgctgtactctcacagttggagtctcctcataccactctaaaccctgcaatcctgcccagccagtttgttcatggaccctcgacctgctggccctttcagcagatcaggccctacagccaccctgccctaatctagtaagttactccagctaccatgccacctattccctatatctattccctcattggatcaaaaagccaaaccgaaatggcggaggctattattcagcctcttattcagacccttgttccttaaaatgcccatacctagggtgccaatcatggacctgcccctatacaggagccgtctccagcccctactggaaatttcagcaagatgtcaattttactcaagaagtttcacacctcaatattaatctccatttttcaaaatgcggtttttccttctcccttctagtcgacgctccaggatatgaccccatctggttccttaataccgaacccagccaactgcctcccaccgcccctcctctactctcccactctaacctagaccatatcctcgagccctctataccatggaaatcaaaactcctgactcttgtccagttaaccctacaaagcactaattatacttgcattgtctgtatcgatcgtgccagcctatccacttggcacgtcctatactctcccaacgtctctgttccatccccttcttctacccccctcctttacccatcgttagcgcttccagccccccacctgacgttaccatttaactggacccactgctttgacccccagattcaagctatagtctcctccccctgtcataactccctcatcctgccccccttttccttgtcacctgttcccacgctaggatcccgctcccgccgagcagtaccggtggcggtctggcttgtctccgccctggccatgggagccggagtggctggcaggattaccggctccatgtccctcgcctcaggaaagagcctcctacatgaggtggacaaagatatttcccaattaactcaagcaatagtcaaaaaccacaaaaatctgctcaaaattgcacagtatgctgcccagaacagacgaggccttgatctcctgttctgggagcaaggaggattatgcaaagcattacaagaacagtgctgttttctaaatattactaattcccatgtctcaatactacaagagagacccccccttgaaaatcgagtcctgactggctggggccttaactgggaccttggcctctcacagtgggctcgagaagccttacaaactggaatcacccttgtcgcgctactccttcttgttatccttgcaggaccatgcatcctccgtcagctacgacacctcccctcgcgcgtcagatacccccattactctcttataaaccctgagtcatccctgtaaaccaagcacacaattattgcaaccacatcgcctccagcctcccctgccaataattaacctctcccatcaaatcctccttctcctgcagcaacctcctccgttcagcctccaaggactccacctcgccttccaactgtctagtatagccatcaacccccaactcctgcattttttctttcctagcactatgctgtttcgccttctcagccccttgtctccacttgcgctcacggcgctcctgctcttcctgctttctccgggcgaagtcagcggccttctcctccgcccgcttcctgcgccgtgccttctcctcttccttccttttcaaatactcagcaatctgcttttcctcctctttctcccgctctttttttcgcttcctcttctcctcagcccgtcgctgccgatcacgatgcgtttccccgcgaggtggcgctttcccccctggagggccccgtcgcagccggccgcggctttcctcttctagagatagcaaaccgtcaagcacagtttcctcctcctccttgtcctttaactcttcctccaaggataatagcccgtccaccaattcctccaccagcaggtcctccgggcatggaacaggcaaacatcgaaacagccctacggatacaaagttaaccatgcttattatcagcccacttcccagggtttggacagagtcttcttttcggatacccagtctacgtgtttggagactgtgtacaaggcgactggtgccccatctctgggggactatgttcggcccgcctacatcgtcacgccctactggccacctgtccagagcatcagatcacctgggaccccatcgatggacgcgttatcggctcagctctacagttccttatccctcgactcccctccttccccacccagagaacctctaagacccttaaggtccttaccccgccaatcactcatacaacccccaacattccaccctccttcctccaggccatgcgcaaatactcccccttccgaaatggatacatggaacccacccttgggcagcacctcccaaccctgtcttttccagaccccggactccggccccaaaacctgtacaccctctggggaggctccgttgtctgcatgtacctctaccagctttccccccccatcacctggcccctcctgccccatgtgattttttgccaccccggccagctcggggccttcctcaccaatgttccctacaaacgaatagaaaaactcctctataaaatttcccttaccacaggggccctaataattctacccgaggactgtttgcccaccacccttttccagcctgctagggcacccgtcacgctgacagcctggcaaaacggcctccttccgttccactcaaccctcaccactccaggccttatttggacatttaccgatggcacgcctatgatttccgggccctgccctaaagatggccagccatctttagtactacagtcctcctcctttatatttcacaaatttcaaaccaaggcctaccacccctcatttctactctcacacggcctcatacagtactcttcctttcataatttgcatctcctatttgaagaatacaccaacatccccatttctctactttttaacgaaaaagaggcagatgacaatgaccatgagccccaaatatcccccgggggcttagagcctctcagtgaaaaacatttccgtgaaacagaagtctgagaaggtcagggcccagaataaggctctgacgtctccccccggaggacagctcagcaccagctcaggctaggccctgacgtgtccccctaaagacaaatcataagctcagacctccgggaagccaccgggaaccacccatttcctccccatgtttgtcaagccgtcctcaggcgttgacgacaacccctcacctcaaaaaacttttcatggcacgcatacggctcaataaaataacaggagtctataaaagcgtggggacagttcaggagggggctcgcatctctccttcacgcgcccgccgccttacctgaggccgccatccacgccggttgagtcgcgttctgccgcctcccgcctgtggtgcctcctgaactacgtccgccgtctaggtaagtttagagctcaggtcgagaccgggcctttgtccggcgctcccttggagcctacctagactcagccggctctccacgctttgcctgaccctgcttgctcaactcta'
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I'm fairly certain that when you use biopython to parse the fasta file, it organizes the information into a dictionary of dictionaries. You can check how everything is organized yourself by printing

print dir(seq_record)

I know that when parsing a genbank file, each seq_record has a dictionary called features, so for a FASTA file, assuming it is organized the same way you can access just the sequence by the following

for record in SeqIO.parse(handle, "fasta"):
    for f in record.features:
        print "sequence"
        print dir(f) # Print the attributes of f to make sure that "sequence" used in the above line is in fact a key in the dictionary, if not pick the correct key to use above
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