Mercurial > repos > tyty > structurefold
view predict/predict_RNAs.py @ 96:5658f528abeb draft
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author | tyty |
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date | Thu, 19 Mar 2015 17:36:58 -0400 |
parents | 63c41304b221 |
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#RNA structure prediction & Output and illustrate reactivities import sys import shlex import subprocess import tarfile from parse_dis_pac import * from read_file import * from Bio import SeqIO import os from rtts_plot import * import random import string id_file = sys.argv[1] seq_file = sys.argv[2] predict_type = sys.argv[3] temperature = sys.argv[4] output_file = sys.argv[5] flag = False if predict_type!='silico': #input reactivity file if provided react_file = sys.argv[6] slope = sys.argv[7] intercept = sys.argv[8] react = parse_dist(react_file) react = react[1] flag = True syspath = os.getcwd() ids = read_t_file(id_file) sequences = SeqIO.parse(seq_file, 'fasta') seqs = {} for seq in sequences: seqs[seq.id] = seq.seq.tostring() if len(ids)>100: #setup a limit of the number of sequence to be predicted print("Number of sequences exceeds limitation!") sys.exit(0) #predict RNA structures output_directory = os.path.join(syspath, "output_files") if not os.path.exists(output_directory): os.makedirs(output_directory) for i in range(len(ids)): flag2 = 0 id_s = ids[i][0] #print(id_s) #Put RNA sequence and reactivities into files if id_s in seqs: fh = file(os.path.join(syspath,"temp.txt"), 'w') fh.write('>'+id_s) fh.write('\n') fh.write(seqs[id_s]) fh.close() if not flag: command = shlex.split('Fold %s -T %s %s' % (os.path.join(syspath, 'temp.txt'), temperature, os.path.join(output_directory, '%s.ct' % id_s))) subprocess.call(command) else: if id_s in react: fh = file(os.path.join(syspath, "constraint.txt"), 'w') make_plot(react[id_s], id_s, output_directory) #make a plot of the distribution of the reactivites of the input RNA for j in range(0, (len(react[id_s]))): if react[id_s][j]!='NA': fh.write(str(j+1)) fh.write('\t') fh.write(str(react[id_s][j])) fh.write('\n') #h.write(str(react[id_s][j])) #Output the reactivities #h.write('\t') fh.close() #h.write('\n') #h.write('\n') command = shlex.split("Fold %s -sh %s -si %s -sm %s -T %s %s" % (os.path.join(syspath, "temp.txt"), os.path.join(syspath, "constraint.txt"), intercept, slope, temperature, os.path.join(output_directory, "%s.ct" % id_s))) subprocess.call(command) else: print(id_s+" not in the data of react!") flag2 = 1 if flag2 == 0: command = shlex.split('draw %s.ct %s.ps' % (os.path.join(output_directory, id_s), os.path.join(output_directory, id_s))) subprocess.call(command) else: print(id_s+" not in the data of sequences!") #Remove the unnecessary files tarball = tarfile.open(output_file, 'w:') for filename in os.listdir(output_directory): filepath = os.path.join(output_directory, filename) print filepath tarball.add(filepath, arcname=filename) #print os.listdir(syspath) #print os.listdir(output_directory) # tarball.add('%s.tif' % os.path.join(syspath, id_s), arcname='%s.tif' % id_s) tarball.close()