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Edit : I know feature.type will give gene/CDS and feature.qualifiers will then give "db_xref"/"locus_tag"/"inference" etc. Is there a feature. object which will allow me to access the location (eg: [5240:7267](+) ) directly?

This URL give a bit more info, though I can't figure out how to use it for my purpose... http://biopython.org/DIST/docs/api/Bio.SeqFeature.SeqFeature-class.html#location_operator

Original Post:

I am trying to modify the location of features within a GenBank file. Essentially, I want to modify the following bit of a GenBank file:

 gene            5240..7267
                 /db_xref="GeneID:887081"
                 /locus_tag="Rv0005"
                 /gene="gyrB"
 CDS             5240..7267
                 /locus_tag="Rv0005"
                 /inference="protein motif:PROSITE:PS00177"
                 ...........................

to

 gene            5357..7267
                 /db_xref="GeneID:887081"
                 /locus_tag="Rv0005"
                 /gene="gyrB"
 CDS             5357..7267
                 /locus_tag="Rv0005"
                 /inference="protein motif:PROSITE:PS00177"
                 .............................

Note the changes from 5240 to 5357

So far, from scouring the internet and Stackoverflow, I have:

from Bio import SeqIO
gb_file = "mtbtomod.gb"
gb_record = SeqIO.parse(open(gb_file, "r+"), "genbank")
rvnumber = 'Rv0005'
newstart = 5357

final_features = []

for record in gb_record:
  for feature in record.features:
    if feature.type == "gene":
        if feature.qualifiers["locus_tag"][0] == rvnumber:
            if feature.location.strand == 1:
                feature.qualifiers["amend_position"] = "%s:%s" % (newstart, feature.location.end+1)
            else:
                # do the reverse for the complementary strand
    final_features.append(feature)
  record.features = final_features
  with open("testest.gb","w") as testest:
    SeqIO.write(record, testest, "genbank")

This basically creates a new qualifier called "amend_position".. however, what I would like to do is modify the location directly (with or without creating a new file...)

Rv0005 is just an example of a locus_tag I need to update. I have about 600 more locations to update, which explains the need for a script.. Help!

share|improve this question
    
cant we use direct file operations –  sundar nataraj Сундар Jul 8 at 16:09
    
That would be ideal but I couldn't find the correct syntax –  PyKa Jul 8 at 16:12
    
dou want to replace all the 5240 to 5357 right? –  sundar nataraj Сундар Jul 8 at 16:14
    
Yes - although I have about 600 genes to look for, then edit the start or end location of each one - I have an excel sheet with the gene names and new locations. Do you mean an RE search/replace while processing the genbank file as a text file? –  PyKa Jul 8 at 16:16
    
i reallly dint understood ? can you explain clearly what you want –  sundar nataraj Сундар Jul 8 at 16:19

2 Answers 2

up vote 1 down vote accepted

Ok, I have something which now fully works. I'll post the code in case anyone ever needs something similar

__author__ = 'Kavin'

from Bio import SeqIO
from Bio import SeqFeature
import xlrd
import sys
import re

workbook = xlrd.open_workbook(sys.argv[2])
sheet = workbook.sheet_by_index(0)
data = [[sheet.cell_value(r, c) for c in range(sheet.ncols)] for r in range(sheet.nrows)]

# Create dicts to store TSS data
TSS = {}
row = {}
# For each entry (row), store the startcodon and strand information
for i in range(2, sheet.nrows - 1):
    if data[i][5] < -0.7:   # Ensures BASS score is within significant range
        Gene = data[i][0]
        row['Direction'] = str(data[i][3])
        row['StartCodon'] = int(data[i][4])
        TSS[str(Gene)] = row
        row = {}
    else:
        i += 1

# Create an output filename based on input filename
outfile_init = re.search('(.*)\.(\w*)', sys.argv[1])
outfile = str(outfile_init.group(1)) + '_modified.' + str(outfile_init.group(2))

final_features = []
for record in SeqIO.parse(open(sys.argv[1], "r"), "genbank"):
    for feature in record.features:
        if feature.type == "gene" or feature.type == "CDS":
            if TSS.has_key(feature.qualifiers["locus_tag"][0]):
                newstart = TSS[feature.qualifiers["locus_tag"][0]]['StartCodon']
                if feature.location.strand == 1:
                    feature.location = SeqFeature.FeatureLocation(SeqFeature.ExactPosition(newstart - 1),
                                                                  SeqFeature.ExactPosition(
                                                                      feature.location.end.position),
                                                                  feature.location.strand)
                else:
                    feature.location = SeqFeature.FeatureLocation(
                        SeqFeature.ExactPosition(feature.location.start.position),
                        SeqFeature.ExactPosition(newstart), feature.location.strand)
        final_features.append(feature)  # Append final features
    record.features = final_features
    with open(outfile, "w") as new_gb:
        SeqIO.write(record, new_gb, "genbank")

This assumes usage such as python program.py <genbankfile> <excel spreadsheet>

This also assumes a spreadsheet of the following format:

Gene Synonym Tuberculist_annotated_start Orientation Re-annotated_start BASS_score

Rv0005 gyrB 5240 + 5357 -1.782

Rv0012 Rv0012 14089 + 14134 -1.553

Rv0018c pstP 23181 - 23172 -2.077

Rv0032 bioF2 34295 + 34307 -0.842

Rv0037c Rv0037c 41202 - 41163 -0.554

share|improve this answer

So, you can try something like below. As the number of change will be equal to the number of CDS/genes found in the file. You can read the locations/positions from csv/text file and make a list like I manually made change_values.

import re
f = open("test.txt")
change_values=["1111", "2222"]
flag = True
next = 0
for i in f.readlines():
    if i.startswith(' CDS') or i.startswith(' gene'):
        out = re.sub(r"\d+", str(change_values[next]), i)
                #Instead of print write
        print out
        flag = not flag
        if flag==True:
            next += 1
    else:
                #Instead of print write
        print i

Amy sample test.txt file looks like this:

 gene            5240..7267
                 /db_xref="GeneID:887081"
                 /locus_tag="Rv0005"
                 /gene="gyrB"
 CDS             5240..7267
                 /locus_tag="Rv0005"
                 /inference="protein motif:PROSITE:PS00177"
                 ...........................

 gene            5240..7267
                 /db_xref="GeneID:887081"
                 /locus_tag="Rv0005"
                 /gene="gyrB"
 CDS             5240..7267
                 /locus_tag="Rv0005"
                 /inference="protein motif:PROSITE:PS00177"
                 ...........................

Hope, this will solve your issue. Cheers!

share|improve this answer
    
Thanks, that's an interesting take on the problem. The only issues are that I don't need to change all locations (only some genes need location changing) and I need a way of dealing with reverse strand (where the second number of the XXXX..YYYY entry needs changing). –  PyKa Jul 9 at 10:52
    
haha, you have so many rules for such a small file. You are not going get an answer from SO, I am pretty much sure about that :) –  S.M. Al Mamun Jul 9 at 17:00

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