Mercurial > repos > devteam > microsats_alignment_level
view microsats_alignment_level.py @ 2:ad471b193191
Fix blank results when running on NFS.
author | Dave Bouvier <dave@bx.psu.edu> |
---|---|
date | Fri, 16 Jan 2015 14:51:32 -0500 |
parents | d4368a5a3fc7 |
children | df7548445f4e |
line wrap: on
line source
#!/usr/bin/env python #Guruprasad Ananda """ Uses SPUTNIK to fetch microsatellites and extracts orthologous repeats from the sputnik output. """ import os import re import string import sys import tempfile def reverse_complement(text): DNA_COMP = string.maketrans( "ACGTacgt", "TGCAtgca" ) comp = [ch for ch in text.translate(DNA_COMP)] comp.reverse() return "".join(comp) def main(): if len(sys.argv) != 8: print >> sys.stderr, "Insufficient number of arguments." sys.exit() infile = open(sys.argv[1],'r') separation = int(sys.argv[2]) outfile = sys.argv[3] mono_threshold = int(sys.argv[5]) non_mono_threshold = int(sys.argv[6]) allow_different_units = int(sys.argv[7]) print "Min distance = %d bp; Min threshold for mono repeats = %d; Min threshold for non-mono repeats = %d; Allow different motifs = %s" % ( separation, mono_threshold, non_mono_threshold, allow_different_units==1 ) try: fout = open(outfile, "w") print >> fout, "#Block\tSeq1_Name\tSeq1_Start\tSeq1_End\tSeq1_Type\tSeq1_Length\tSeq1_RepeatNumber\tSeq1_Unit\tSeq2_Name\tSeq2_Start\tSeq2_End\tSeq2_Type\tSeq2_Length\tSeq2_RepeatNumber\tSeq2_Unit" #sputnik_cmd = os.path.join(os.path.split(sys.argv[0])[0], "sputnik") sputnik_cmd = "sputnik" input = infile.read() block_num = 0 input = input.replace('\r','\n') for block in input.split('\n\n'): block_num += 1 tmpin = tempfile.NamedTemporaryFile() tmpout = tempfile.NamedTemporaryFile() tmpin.write(block.strip()) tmpin.flush() cmdline = sputnik_cmd + " " + tmpin.name + " > /dev/null 2>&1 >> " + tmpout.name try: os.system(cmdline) except Exception: continue sputnik_out = tmpout.read() tmpin.close() tmpout.close() if sputnik_out != "": if len(block.split('>')[1:]) != 2: #len(sputnik_out.split('>')): continue align_block = block.strip().split('>') lendict = {'mononucleotide':1, 'dinucleotide':2, 'trinucleotide':3, 'tetranucleotide':4, 'pentanucleotide':5, 'hexanucleotide':6} blockdict = {} r = 0 namelist = [] for k, sput_block in enumerate(sputnik_out.split('>')[1:]): whole_seq = ''.join(align_block[k+1].split('\n')[1:]).replace('\n','').strip() p = re.compile('\n(\S*nucleotide)') repeats = p.split(sput_block.strip()) repeats_count = len(repeats) j = 1 name = repeats[0].strip() try: coords = re.search('\d+[-_:]\d+', name).group() coords = coords.replace('_', '-').replace(':', '-') except Exception: coords = '0-0' r += 1 blockdict[r] = {} try: sp_name = name[:name.index('.')] chr_name = name[name.index('.'):name.index('(')] namelist.append(sp_name + chr_name) except: namelist.append(name[:20]) while j < repeats_count: try: if repeats[j].strip() not in lendict: j += 2 continue if blockdict[r].has_key('types'): blockdict[r]['types'].append(repeats[j].strip()) #type of microsat else: blockdict[r]['types'] = [repeats[j].strip()] #type of microsat start = int(repeats[j+1].split('--')[0].split(':')[0].strip()) #check to see if there are gaps before the start of the repeat, and change the start accordingly sgaps = 0 ch_pos = start - 1 while ch_pos >= 0: if whole_seq[ch_pos] == '-': sgaps += 1 else: break #break at the 1st non-gap character ch_pos -= 1 if blockdict[r].has_key('starts'): blockdict[r]['starts'].append(start+sgaps) #start co-ords adjusted with alignment co-ords to include GAPS else: blockdict[r]['starts'] = [start+sgaps] end = int(repeats[j+1].split('--')[0].split(':')[1].strip()) #check to see if there are gaps after the end of the repeat, and change the end accordingly egaps = 0 for ch in whole_seq[end:]: if ch == '-': egaps += 1 else: break #break at the 1st non-gap character if blockdict[r].has_key('ends'): blockdict[r]['ends'].append(end+egaps) #end co-ords adjusted with alignment co-ords to include GAPS else: blockdict[r]['ends'] = [end+egaps] repeat_seq = ''.join(repeats[j+1].replace('\r','\n').split('\n')[1:]).strip() #Repeat Sequence repeat_len = repeats[j+1].split('--')[1].split()[1].strip() gap_count = repeat_seq.count('-') #print repeats[j+1].split('--')[1], len(repeat_seq), repeat_len, gap_count repeat_len = str(int(repeat_len) - gap_count) rel_start = blockdict[r]['starts'][-1] gaps_before_start = whole_seq[:rel_start].count('-') if blockdict[r].has_key('gaps_before_start'): blockdict[r]['gaps_before_start'].append(gaps_before_start) #lengths else: blockdict[r]['gaps_before_start'] = [gaps_before_start] #lengths whole_seq_start = int(coords.split('-')[0]) if blockdict[r].has_key('whole_seq_start'): blockdict[r]['whole_seq_start'].append(whole_seq_start) #lengths else: blockdict[r]['whole_seq_start'] = [whole_seq_start] #lengths if blockdict[r].has_key('lengths'): blockdict[r]['lengths'].append(repeat_len) #lengths else: blockdict[r]['lengths'] = [repeat_len] #lengths if blockdict[r].has_key('counts'): blockdict[r]['counts'].append(str(int(repeat_len)/lendict[repeats[j].strip()])) #Repeat Unit else: blockdict[r]['counts'] = [str(int(repeat_len)/lendict[repeats[j].strip()])] #Repeat Unit if blockdict[r].has_key('units'): blockdict[r]['units'].append(repeat_seq[:lendict[repeats[j].strip()]]) #Repeat Unit else: blockdict[r]['units'] = [repeat_seq[:lendict[repeats[j].strip()]]] #Repeat Unit except Exception: pass j += 2 #check the co-ords of all repeats corresponding to a sequence and remove adjacent repeats separated by less than the user-specified 'separation'. delete_index_list = [] for ind, item in enumerate(blockdict[r]['ends']): try: if blockdict[r]['starts'][ind+1]-item < separation: if ind not in delete_index_list: delete_index_list.append(ind) if ind+1 not in delete_index_list: delete_index_list.append(ind+1) except Exception: pass for index in delete_index_list: #mark them for deletion try: blockdict[r]['starts'][index] = 'marked' blockdict[r]['ends'][index] = 'marked' blockdict[r]['types'][index] = 'marked' blockdict[r]['gaps_before_start'][index] = 'marked' blockdict[r]['whole_seq_start'][index] = 'marked' blockdict[r]['lengths'][index] = 'marked' blockdict[r]['counts'][index] = 'marked' blockdict[r]['units'][index] = 'marked' except Exception: pass #remove 'marked' elements from all the lists """ for key in blockdict[r].keys(): for elem in blockdict[r][key]: if elem == 'marked': blockdict[r][key].remove(elem) """ #print blockdict #make sure that the blockdict has keys for both the species if (1 not in blockdict) or (2 not in blockdict): continue visited_2 = [0 for x in range(len(blockdict[2]['starts']))] for ind1, coord_s1 in enumerate(blockdict[1]['starts']): if coord_s1 == 'marked': continue coord_e1 = blockdict[1]['ends'][ind1] out = [] for ind2, coord_s2 in enumerate(blockdict[2]['starts']): if coord_s2 == 'marked': visited_2[ind2] = 1 continue coord_e2 = blockdict[2]['ends'][ind2] #skip if the 2 repeats are not of the same type or don't have the same repeating unit. if allow_different_units == 0: if (blockdict[1]['types'][ind1] != blockdict[2]['types'][ind2]): continue else: if (blockdict[1]['units'][ind1] not in blockdict[2]['units'][ind2]*2) and (reverse_complement(blockdict[1]['units'][ind1]) not in blockdict[2]['units'][ind2]*2): continue #print >> sys.stderr, (reverse_complement(blockdict[1]['units'][ind1]) not in blockdict[2]['units'][ind2]*2) #skip if the repeat number thresholds are not met if blockdict[1]['types'][ind1] == 'mononucleotide': if (int(blockdict[1]['counts'][ind1]) < mono_threshold): continue else: if (int(blockdict[1]['counts'][ind1]) < non_mono_threshold): continue if blockdict[2]['types'][ind2] == 'mononucleotide': if (int(blockdict[2]['counts'][ind2]) < mono_threshold): continue else: if (int(blockdict[2]['counts'][ind2]) < non_mono_threshold): continue #print "s1,e1=%s,%s; s2,e2=%s,%s" % ( coord_s1, coord_e1, coord_s2, coord_e2 ) if (coord_s1 in range(coord_s2, coord_e2)) or (coord_e1 in range(coord_s2, coord_e2)): out.append(str(block_num)) out.append(namelist[0]) rel_start = blockdict[1]['whole_seq_start'][ind1] + coord_s1 - blockdict[1]['gaps_before_start'][ind1] rel_end = rel_start + int(blockdict[1]['lengths'][ind1]) out.append(str(rel_start)) out.append(str(rel_end)) out.append(blockdict[1]['types'][ind1]) out.append(blockdict[1]['lengths'][ind1]) out.append(blockdict[1]['counts'][ind1]) out.append(blockdict[1]['units'][ind1]) out.append(namelist[1]) rel_start = blockdict[2]['whole_seq_start'][ind2] + coord_s2 - blockdict[2]['gaps_before_start'][ind2] rel_end = rel_start + int(blockdict[2]['lengths'][ind2]) out.append(str(rel_start)) out.append(str(rel_end)) out.append(blockdict[2]['types'][ind2]) out.append(blockdict[2]['lengths'][ind2]) out.append(blockdict[2]['counts'][ind2]) out.append(blockdict[2]['units'][ind2]) print >> fout, '\t'.join(out) visited_2[ind2] = 1 out = [] if 0 in visited_2: #there are still some elements in 2nd set which haven't found orthologs yet. for ind2, coord_s2 in enumerate(blockdict[2]['starts']): if coord_s2 == 'marked': continue if visited_2[ind] != 0: continue coord_e2 = blockdict[2]['ends'][ind2] out = [] for ind1, coord_s1 in enumerate(blockdict[1]['starts']): if coord_s1 == 'marked': continue coord_e1 = blockdict[1]['ends'][ind1] #skip if the 2 repeats are not of the same type or don't have the same repeating unit. if allow_different_units == 0: if (blockdict[1]['types'][ind1] != blockdict[2]['types'][ind2]): continue else: if (blockdict[1]['units'][ind1] not in blockdict[2]['units'][ind2]*2):# and reverse_complement(blockdict[1]['units'][ind1]) not in blockdict[2]['units'][ind2]*2: continue #skip if the repeat number thresholds are not met if blockdict[1]['types'][ind1] == 'mononucleotide': if (int(blockdict[1]['counts'][ind1]) < mono_threshold): continue else: if (int(blockdict[1]['counts'][ind1]) < non_mono_threshold): continue if blockdict[2]['types'][ind2] == 'mononucleotide': if (int(blockdict[2]['counts'][ind2]) < mono_threshold): continue else: if (int(blockdict[2]['counts'][ind2]) < non_mono_threshold): continue if (coord_s2 in range(coord_s1, coord_e1)) or (coord_e2 in range(coord_s1, coord_e1)): out.append(str(block_num)) out.append(namelist[0]) rel_start = blockdict[1]['whole_seq_start'][ind1] + coord_s1 - blockdict[1]['gaps_before_start'][ind1] rel_end = rel_start + int(blockdict[1]['lengths'][ind1]) out.append(str(rel_start)) out.append(str(rel_end)) out.append(blockdict[1]['types'][ind1]) out.append(blockdict[1]['lengths'][ind1]) out.append(blockdict[1]['counts'][ind1]) out.append(blockdict[1]['units'][ind1]) out.append(namelist[1]) rel_start = blockdict[2]['whole_seq_start'][ind2] + coord_s2 - blockdict[2]['gaps_before_start'][ind2] rel_end = rel_start + int(blockdict[2]['lengths'][ind2]) out.append(str(rel_start)) out.append(str(rel_end)) out.append(blockdict[2]['types'][ind2]) out.append(blockdict[2]['lengths'][ind2]) out.append(blockdict[2]['counts'][ind2]) out.append(blockdict[2]['units'][ind2]) print >> fout, '\t'.join(out) visited_2[ind2] = 1 out = [] #print >> fout, blockdict except Exception, exc: print >> sys.stderr, "type(exc),args,exc: %s, %s, %s" % ( type(exc), exc.args, exc ) if __name__ == "__main__": main()