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view blastxmlToGff3.py @ 0:804a93e87cc8 draft
planemo upload for repository https://github.com/Yating-L/jbrowse_hub commit f22711ea7a464bdaf4d5aaea07f2eacf967aa66e-dirty
| author | yating-l |
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| date | Wed, 12 Apr 2017 17:41:55 -0400 |
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#!/usr/bin/env python from Bio.Blast import NCBIXML from collections import OrderedDict import utils def align2cigar(hsp_query, hsp_reference): """ Build CIGAR representation from an hsp_query input: hsp_query hsp_sbjct output: CIGAR string """ query = hsp_query ref = hsp_reference # preType, curType: # 'M' represents match, # 'I' represents insert a gap into the reference sequence, # 'D' represents insert a gap into the target (delete from reference) # some ideas of this algin2cigar function are coming from # https://gist.github.com/ozagordi/099bdb796507da8d9426 prevType = 'M' curType = 'M' count = 0 cigar = [] num = len(query) for i in range(num): if query[i] == '-': curType = 'D' elif ref[i] == '-': curType = 'I' else: curType = 'M' if curType == prevType: count += 1 else: cigar.append('%s%d' % (prevType, count)) prevType = curType count = 1 cigar.append('%s%d' % (curType, count)) return ' '.join(cigar) def gff3_writer(blast_records, gff3_file): gff3 = open(gff3_file, 'a') gff3.write("##gff-version 3\n") seq_regions = dict() for blast_record in blast_records: query_name = blast_record.query.split(" ")[0] source = blast_record.application method = blast_record.matrix for alignment in blast_record.alignments: group = { "parent_field" : OrderedDict(), "parent_attribute" : OrderedDict(), "alignments" : [] } title = alignment.title.split(" ") contig_name = title[len(title) - 1] length = alignment.length group['parent_field']['seqid'] = contig_name group['parent_field']['source'] = source group['parent_field']['type'] = 'match' group['parent_attribute']['ID'] = contig_name + '_' + query_name group['parent_attribute']['method'] = method group['parent_attribute']['length'] = length if contig_name not in seq_regions: gff3.write("##sequence-region " + contig_name + ' 1 ' + str(length) + '\n') seq_regions[contig_name] = length match_num = 0 coords = [length, 0] for hsp in alignment.hsps: hsp_align = {} field = OrderedDict() attribute = OrderedDict() ref = hsp.sbjct query = hsp.query field['seqid'] = contig_name field['source'] = source field['type'] = 'match_part' field['start'] = hsp.sbjct_start if field['start'] < coords[0]: coords[0] = field['start'] ref_length = len(ref.replace('-', '')) # if run tblastn, the actual length of reference should be multiplied by 3 if source.lower() == "tblastn": ref_length *= 3 field['end'] = field['start'] + ref_length - 1 if field['end'] > coords[1]: coords[1] = field['end'] field['score'] = hsp.score #decide if the alignment in the same strand or reverse strand #reading frame # (+, +), (0, 0), (-, -) => + # (+, -), (-, +) => - if hsp.frame[1] * hsp.frame[0] > 0: field['strand'] = '+' elif hsp.frame[1] * hsp.frame[0] < 0: field['strand'] = '-' else: if hsp.frame[0] + hsp.frame[1] >= 0: field['strand'] = '+' else: field['strand'] = '-' field['phase'] = '.' target_start = hsp.query_start target_len = len(query.replace('-', '')) # if run blastx, the actual length of query should be multiplied by 3 if source.lower() == "blastx": target_len *= 3 target_end = target_start + target_len -1 attribute['ID'] = group['parent_attribute']['ID'] + '_match_' + str(match_num) attribute['Parent'] = group['parent_attribute']['ID'] attribute['Target'] = query_name + " " + str(target_start) + " " + str(target_end) attribute['Gap'] = align2cigar(query, ref) #store the query sequence and match string in the file in order to display alignment with BlastAlignment plugin attribute['subject'] = hsp.sbjct attribute['query'] = hsp.query attribute['match'] = hsp.match attribute['gaps'] = attribute['match'].count(' ') similar = attribute['match'].count('+') attribute['identities'] = len(attribute['match']) - similar - attribute['gaps'] attribute['positives'] = attribute['identities'] + similar attribute['expect'] = hsp.expect # show reading frame attribute only if the frame is not (0, 0) attribute['frame'] = hsp.frame[1] match_num += 1 hsp_align['field'] = field hsp_align['attribute'] = attribute group['alignments'].append(hsp_align) group['parent_field']['start'] = coords[0] group['parent_field']['end'] = coords[1] group['parent_field']['score'] = group['parent_field']['strand'] = group['parent_field']['phase'] = '.' group['parent_attribute']['match_num'] = match_num group['alignments'].sort(key=lambda x: (x['field']['start'], x['field']['end'])) utils.write_features(group['parent_field'], group['parent_attribute'], gff3) prev_end = -1 for align in group['alignments']: overlap = '' if align['field']['start'] <= prev_end: overlap += str(align['field']['start']) + ',' + str(prev_end) prev_end = align['field']['end'] align['attribute']['overlap'] = overlap utils.write_features(align['field'], align['attribute'], gff3) gff3.close() def blastxml2gff3(xml_file, gff3_file): result_handle = open(xml_file) blast_records = NCBIXML.parse(result_handle) gff3_writer(blast_records, gff3_file) if __name__ == "__main__": blastxml2gff3("../dbia3/raw/tblastn_dmel-hits-translation-r6.11.fa_vs_nucleotide_BLAST_database_from_data_3.blastxml", "gff3.txt")