In [1]:

    

from collections import defaultdict, OrderedDict
import warnings
import logging
import gffutils
import pybedtools
import pandas as pd
import copy
import re
from gffutils.pybedtools_integration import tsses

logging.basicConfig(level=logging.INFO)


    

In [2]:

    

gtf = '/home/cmb-panasas2/skchoudh/genomes/dmel_r6.20/annotation/dmel-all-r6.20.gtf'
gtf_db = '/home/cmb-panasas2/skchoudh/genomes/dmel_r6.20/annotation/dmel-all-r6.20.gtf.db'
prefix = '/home/cmb-panasas2/skchoudh/genomes/dmel_r6.20/annotation/dmel-all-r6.20.gffutils'
chrsizes = '/home/cmb-panasas2/skchoudh/genomes/dmel_r6.20/fasta/dmel-all-chromosome-r6.20.sizes'


    

In [3]:

    

def create_gene_dict(db):
    '''
    Store each feature line db.all_features() as a dict of dicts
    '''
    gene_dict = defaultdict(lambda: defaultdict(lambda: defaultdict(list)))
    for line_no, feature in enumerate(db.all_features()):
        gene_ids = feature.attributes['gene_id']
        feature_type = feature.featuretype
        if feature_type == 'gene':
            if len(gene_ids)!=1:
                logging.warning('Found multiple gene_ids on line {} in gtf'.format(line_no))
                break
            else:
                gene_id = gene_ids[0]
                gene_dict[gene_id]['gene'] = feature
        else:
            transcript_ids = feature.attributes['transcript_id']

            for gene_id in gene_ids:
                for transcript_id in transcript_ids:
                    gene_dict[gene_id][transcript_id][feature_type].append(feature)
    return gene_dict


    

In [6]:

    

db = gffutils.create_db(gtf, dbfn=gtf_db, merge_strategy='merge', force=True)
db = gffutils.FeatureDB(gtf_db, keep_order=True)
gene_dict = create_gene_dict(db)


    

    





ValueErrorTraceback (most recent call last)
<ipython-input-6-aa3a7eec9dd2> in <module>()
----> 1 db = gffutils.create_db(gtf, dbfn=gtf_db, merge_strategy='merge', force=True)
      2 db = gffutils.FeatureDB(gtf_db, keep_order=True)
      3 gene_dict = create_gene_dict(db)

/home/cmb-panasas2/skchoudh/software_frozen/anaconda27/lib/python2.7/site-packages/gffutils/create.pyc in create_db(data, dbfn, id_spec, force, verbose, checklines, merge_strategy, transform, gtf_transcript_key, gtf_gene_key, gtf_subfeature, force_gff, force_dialect_check, from_string, keep_order, text_factory, force_merge_fields, pragmas, sort_attribute_values, dialect, _keep_tempfiles, infer_gene_extent, disable_infer_genes, disable_infer_transcripts, **kwargs)
   1286     c = cls(**kwargs)
   1287 
-> 1288     c.create()
   1289     if dbfn == ':memory:':
   1290         db = interface.FeatureDB(c.conn,

/home/cmb-panasas2/skchoudh/software_frozen/anaconda27/lib/python2.7/site-packages/gffutils/create.pyc in create(self)
    502         # _update_relations must be implemented in subclasses.
    503         self._init_tables()
--> 504         self._populate_from_lines(self.iterator)
    505         self._update_relations()
    506         self._finalize()

/home/cmb-panasas2/skchoudh/software_frozen/anaconda27/lib/python2.7/site-packages/gffutils/create.pyc in _populate_from_lines(self, lines)
    623                         ''', (parent, f.id))
    624         if features_seen is None:
--> 625             raise ValueError("No lines parsed -- was an empty file provided?")
    626 
    627         self.conn.commit()

ValueError: No lines parsed -- was an empty file provided?

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def get_gene_list(gene_dict):
    return list(set(gene_dict.keys()))

def create_bed(regions, bedtype='0'):
    '''Create bed from list of regions
    bedtype: 0 or 1
        0-Based or 1-based coordinate of the BED
    '''
    bedstr = ''
    for region in regions:
        assert len(region.attributes['gene_id']) == 1
        ## GTF start is 1-based, so shift by one while writing 
        ## to 0-based BED format
        if bedtype == '0':
            start = region.start - 1
        else:
            start = region.start
        bedstr += '{}\t{}\t{}\t{}\t{}\t{}\n'.format(region.chrom,
                                             start,
                                             region.stop,
                                             re.sub('\.\d+', '', region.attributes['gene_id'][0]),
                                             '.',
                                             region.strand)
    return bedstr

def rename_regions(regions, gene_id):
    regions = list(regions)
    if len(regions) == 0:
        return []
    for region in regions:
        region.attributes['gene_id'] = gene_id
    return regions

def merge_regions(db, regions):
    if len(regions) == 0:
        return []
    merged = db.merge(sorted(list(regions), key=lambda x: x.start))
    return merged

def merge_regions_nostrand(db, regions):
    if len(regions) == 0:
        return []
    merged = db.merge(sorted(list(regions), key=lambda x: x.start), ignore_strand=True)
    return merged


    

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utr5_bed = ''
utr3_bed = ''
gene_bed = ''
exon_bed = ''
intron_bed = ''
start_codon_bed = ''
stop_codon_bed = ''
cds_bed = ''

gene_list = []

for gene_id in get_gene_list(gene_dict):
    gene_list.append(gene_dict[gene_id]['gene'])
    
    utr5_regions, utr3_regions = [], []
    exon_regions, intron_regions = [], []
    star_codon_regions, stop_codon_regions = [], []
    cds_regions = []
    
    for feature in gene_dict[gene_id].keys():
        if feature == 'gene':
            continue
        cds = list(gene_dict[gene_id][feature]['CDS'])
        exons = list(gene_dict[gene_id][feature]['exon'])
        merged_exons = merge_regions(db, exons)
        introns = db.interfeatures(merged_exons)
        #utr5_region, utr3_region = get_UTR_regions(gene_dict, gene_id, feature, cds)
        utr5_region = list(gene_dict[gene_id][feature]['five_prime_utr'])
        utr3_region = list(gene_dict[gene_id][feature]['three_prime_utr'])
        utr5_regions += utr5_region
        utr3_regions += utr3_region
        exon_regions += exons
        intron_regions += introns
        cds_regions += cds
        
    merged_utr5 = merge_regions(db, utr5_regions)
    renamed_utr5 = rename_regions(merged_utr5, gene_id)
    
    merged_utr3 = merge_regions(db, utr3_regions)
    renamed_utr3 = rename_regions(merged_utr3, gene_id)
    
    merged_exons = merge_regions(db, exon_regions)
    renamed_exons = rename_regions(merged_exons, gene_id)
    
    merged_introns = merge_regions(db, intron_regions)
    renamed_introns = rename_regions(merged_introns, gene_id)
    
    merged_cds = merge_regions(db, cds_regions)
    renamed_cds = rename_regions(merged_cds, gene_id)
    
    utr3_bed += create_bed(renamed_utr3)
    utr5_bed += create_bed(renamed_utr5)
    exon_bed += create_bed(renamed_exons)
    intron_bed += create_bed(renamed_introns)
    cds_bed += create_bed(renamed_cds)
    
    
gene_bed = create_bed(gene_list)
gene_bedtool = pybedtools.BedTool(gene_bed, from_string=True)
utr5_bedtool = pybedtools.BedTool(utr5_bed, from_string=True)
utr3_bedtool = pybedtools.BedTool(utr3_bed, from_string=True)
exon_bedtool = pybedtools.BedTool(exon_bed, from_string=True)
intron_bedtool = pybedtools.BedTool(intron_bed, from_string=True)
cds_bedtool = pybedtools.BedTool(cds_bed, from_string=True)

gene_bedtool.remove_invalid().sort().saveas('{}.genes.bed'.format(prefix))
utr5_bedtool.remove_invalid().sort().saveas('{}.UTR5.bed'.format(prefix))
utr3_bedtool.remove_invalid().sort().saveas('{}.UTR3.bed'.format(prefix))
exon_bedtool.remove_invalid().sort().saveas('{}.exon.bed'.format(prefix))
intron_bedtool.remove_invalid().sort().saveas('{}.intron.bed'.format(prefix))
cds_bedtool.remove_invalid().sort().saveas('{}.cds.bed'.format(prefix))


    

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for gene_id in get_gene_list(gene_dict):
    start_codons = []
    stop_codons = []
    for start_codon in db.children(gene_id, featuretype='start_codon'):
        ## 1 -based stop
        ## 0-based start handled while converting to bed
        start_codon.stop = start_codon.start
        start_codons.append(start_codon)
    for stop_codon in db.children(gene_id, featuretype='stop_codon'):
        stop_codon.start = stop_codon.stop
        stop_codon.stop = stop_codon.stop+1
        stop_codons.append(stop_codon)
    merged_start_codons = merge_regions(db, start_codons)
    renamed_start_codons = rename_regions(merged_start_codons, gene_id)
    merged_stop_codons = merge_regions(db, stop_codons)
    renamed_stop_codons = rename_regions(merged_stop_codons, gene_id)
    
    start_codon_bed += create_bed(renamed_start_codons)    
    stop_codon_bed += create_bed(renamed_stop_codons)

    
start_codon_bedtool = pybedtools.BedTool(start_codon_bed, from_string=True)
stop_codon_bedtool = pybedtools.BedTool(stop_codon_bed, from_string=True)
start_codon_bedtool.remove_invalid().sort().saveas('{}.start_codon.bed'.format(prefix))
stop_codon_bedtool.remove_invalid().sort().saveas('{}.stop_codon.bed'.format(prefix))


    

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## TSS
polyA_sites_bed = ''
tss_sites_bed = ''
for gene_id in get_gene_list(gene_dict):
    tss_sites = []
    polyA_sites = []
    for transcript in db.children(gene_id, featuretype='transcript'):
        start_t = copy.deepcopy(transcript)
        stop_t = copy.deepcopy(transcript)
        
        start_t.stop = start_t.start + 1
        
        stop_t.start = stop_t.stop
        
        if transcript.strand == '-':
            start_t, stop_t = stop_t, start_t
        polyA_sites.append(start_t)
        tss_sites.append(stop_t)
    merged_polyA_sites = merge_regions(db, polyA_sites)
    renamed_polyA_sites = rename_regions(merged_polyA_sites, gene_id)    
    merged_tss_sites = merge_regions(db, tss_sites)
    renamed_tss_sites = rename_regions(merged_tss_sites, gene_id)
    polyA_sites_bed += create_bed(renamed_polyA_sites)    
    tss_sites_bed += create_bed(renamed_tss_sites)

polyA_sites_bedtool = pybedtools.BedTool(polyA_sites_bed, from_string=True)
tss_sites_bedtool = pybedtools.BedTool(tss_sites_bed, from_string=True)
polyA_sites_bedtool.remove_invalid().sort().saveas('{}.polyA_sites.bed'.format(prefix))
tss_sites_bedtool.remove_invalid().sort().saveas('{}.tss_sites.bed'.format(prefix))


    

In [ ]:

    

tRNA_sites = []
tRNA_bed = ''
for gene_id in get_gene_list(gene_dict):
    for transcript in db.children(gene_id, featuretype='transcript'):
        if 'tRNA' in transcript.attributes['gene_biotype'] or 'Mt_tRNA' in transcript.attributes['transcript_biotype']:
            tRNA_sites.append(transcript)
    #merged_tRNA_sites = merge_regions_nostrand(db, tRNA_sites)
    #renamed_tRNA_sites = rename_regions(merged_tRNA_sites, gene_id)
    tRNA_bed += create_bed(tRNA_sites)

tRNA_bed = '\n'.join(list(OrderedDict.fromkeys(tRNA_bed.split('\n'))))

tRNA_sites_bedtool = pybedtools.BedTool(tRNA_bed, from_string=True)
tRNA_sites_bedtool.remove_invalid().sort().saveas('{}.tRNA_sites.bed'.format(prefix))


    

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tRNA_sites_bedtool.to_dataframe()


    

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rRNA_sites = []
rRNA_bed = ''
for gene_id in get_gene_list(gene_dict):
    for transcript in db.children(gene_id, featuretype='transcript'):
        if 'rRNA' in transcript.attributes['gene_biotype']:
            rRNA_sites.append(transcript)
    #renamed_rRNA_sites = rename_regions(rRNA_sites, gene_id)
    rRNA_bed += create_bed(rRNA_sites)
rRNA_bed = '\n'.join(list(OrderedDict.fromkeys(rRNA_bed.split('\n'))))

rRNA_sites_bedtool = pybedtools.BedTool(rRNA_bed, from_string=True)
rRNA_sites_bedtool.remove_invalid().sort().saveas('{}.rRNA_sites.bed'.format(prefix))


    

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rRNA_sites_bedtool. to_dataframe()


    

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