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MutationAggregate.py
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MutationAggregate.py
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import os,sys
from pylab import *
from math import sqrt, isnan, floor, ceil, pi
from numpy import log2, log10, array, max
from mpl_toolkits.axes_grid1 import make_axes_locatable
from matplotlib.ticker import MultipleLocator
from matplotlib.patches import Polygon, Rectangle, Circle
from scipy.signal import argrelextrema
from scipy import ndimage
from matplotlib import pyplot as plt
import numpy as np
import argparse
import bisect
import logging
import pybedtools
import glob
from shutil import copyfile
import scipy.stats
from scipy import stats
from matplotlib.ticker import FormatStrFormatter
#import seaborn as sns
from matplotlib import colors as clrs
def read_bedGraph(filename,resolution): # add stopping after certain chromosome passed
'''
reads bedGraph files for various file type plottings
parameters:
filename: file name. format could be either "chr\tstart\tend" or "chr\tstart\tend\tvalue..."
resolution: bin size for the matrix
returns:
x_scores = location along the given chromosome - start sites
x_scores2 = location along the given chromosome - end sites
y_scores = signal scores for the assay
colors = allow for colors option
'''
try:
fone=open(filename,'r')
except IOError:
print >>sys.stderr, 'cannot open', filename
raise SystemExit
x_scores={}
x_scores2={}
y_scores={}
average = 0.0
count = 1
for line in fone.xreadlines():
tags = line.strip().split("\t")
if line[0]!='t':
if tags[0] not in x_scores.keys() and tags[0] != 'chrY':
x_scores[tags[0]]=[]
x_scores2[tags[0]]=[]
y_scores[tags[0]]=[]
x_scores[tags[0]].append(float(tags[1])/resolution)
x_scores2[tags[0]].append(float(tags[2])/resolution)
if len(tags) > 3:
if tags[3]=='.': y_scores[tags[0]].append(0.0)
else: y_scores[tags[0]].append(float(tags[3]))
elif tags[0] != 'chrY':
x_scores[tags[0]].append(float(tags[1])/resolution)
x_scores2[tags[0]].append(float(tags[2])/resolution)
if len(tags) > 3:
if tags[3]=='.': y_scores[tags[0]].append(0.0)
else: y_scores[tags[0]].append(float(tags[3]))
average += (float(tags[2])-float(tags[1]))/resolution
count +=1
average = int(round(average/count,0))
return x_scores,x_scores2,y_scores,average
def read_bed(filename,resolution): # add stopping after certain chromosome passed
'''
reads bedGraph files for various file type plottings
parameters:
filename: file name. format could be either "chr\tstart\tend" or "chr\tstart\tend\tvalue..."
resolution: bin size for the matrix
returns:
x_scores = location along the given chromosome - start sites
x_scores2 = location along the given chromosome - end sites
y_scores = signal scores for the assay
colors = allow for colors option
'''
try:
fone=open(filename,'r')
except IOError:
print >>sys.stderr, 'cannot open', filename
raise SystemExit
x_scores={}
x_scores2={}
average = 0.0
ave = []
count = 1
for line in fone.xreadlines():
tags = line.strip().split("\t")
if line[0]=='#': continue
if line[0]!='t':
if tags[0] not in x_scores.keys() and tags[0] != 'chrY':
x_scores[tags[0]]=[]
x_scores2[tags[0]]=[]
x_scores[tags[0]].append(float(tags[1])/resolution)
x_scores2[tags[0]].append(float(tags[2])/resolution)
elif tags[0] != 'chrY':
x_scores[tags[0]].append(float(tags[1])/resolution)
x_scores2[tags[0]].append(float(tags[2])/resolution)
average+=(float(tags[2])-float(tags[1]))/resolution
count +=1
average = int(round(average/count,0))
return x_scores,x_scores2,average
def where(start,end,arr):
"""Find where the start location and end location indexes in an array"""
astart = bisect.bisect_left(arr, start)
aend = bisect.bisect_right(arr[start:], end) + start
return astart, aend
def profiler(file1,file2):
resolution = 25000
x_comps,x_comps2,y_comps,_ = read_bedGraph(file1,resolution)
x2_comps,x2_comps2,average = read_bed(file2,resolution)
pseudocount = 0
regions = []
for key in x2_comps.keys():
for item in range(0,len(x2_comps[key])):
midpoint = int(round(x2_comps[key][item],0))+int(round((x2_comps2[key][item]-x2_comps[key][item])/2,0))
if midpoint-20 > 0 : ystart,yend = where(midpoint-20,midpoint+20,x_comps[key])
else: print 'Discarding a region with midpoint', midpoint #ystart,yend = where(0,midpoint+20,x_comps[key])
if len(y_comps[key][ystart:yend]) < 41:
continue
print 'Short region in', file2
if len(regions)==0 : regions = np.lib.pad(y_comps[key][ystart:yend], (0,21-len(y_comps[key][ystart:yend])), 'constant', constant_values=(0))
else: regions = np.vstack([regions,np.lib.pad(y_comps[key][ystart:yend], (0,21-len(y_comps[key][ystart:yend])), 'constant', constant_values=(0))])
else:
if len(regions)==0 : regions = y_comps[key][ystart:yend]#;writer.write(str(y_comps[key][ystart:yend]));writer.write('\n')
else: regions = np.vstack([regions,np.array(y_comps[key][ystart:yend])])#;writer.write(str(y_comps[key][ystart:yend]));writer.write('\n')
final = np.mean(regions,axis=0)
return final,average
def mut_profiler(mutations='',boundaries='',output='',name=''):
fig, ax = plt.subplots(1, 1)
p_average3,l_average3 = profiler(mutations,boundaries)
x = np.linspace(0, len(p_average3), 1)
ax.plot(p_average3,linewidth = 4, color='#008080',label='Mutations')
ax.set_ylabel('Mut Load / 25 Kb',fontsize=20)
ax.locator_params(axis='y',tight=False, nbins=5)
ax.locator_params(axis='x',tight=False, nbins=3)
ticks= ax.get_xticks().tolist()
ticks = ['-500Kb','Boundary','+500Kb']
ax.set_xticklabels(ticks,fontsize=20)
#ax.axvspan(0,20,facecolor='#fc9929',alpha=0.45)
#ax.axvspan(20,40,facecolor='#cbcbcb',alpha=0.45)
ax.set_xlim(0,40)
ax.set_title(name)
ax.spines['right'].set_visible(False)
ax.spines['top'].set_visible(False)
ax.xaxis.set_ticks_position('bottom')
ax.yaxis.set_ticks_position('left')
plt.savefig(output+'.png',dpi=200)
def dom_profiler(mutations='',domain='',output='',name=''):
mutations = pybedtools.BedTool(mutations).sort()
doms = pybedtools.BedTool(domain).sort()
overlap = doms.map(mutations,c=4,o='sum')
fig, ax = plt.subplots(1, 1)
domains = {}
data = []
for tags in overlap:
if tags[3] not in domains.keys():
domains[tags[3]]=[]
domains[tags[3]].append(float(tags[5])*25000/(int(tags[2])-int(tags[1])))
else:
domains[tags[3]].append(float(tags[5])*25000/(int(tags[2])-int(tags[1])))
data = [domains['0'],domains['1'],domains['2'],domains['3'],domains['4']]
colors=["#8a91d0","#cbcbcb","#4da6ff","#fc9929","#ff4444"]
for i in [1,2,3,4,5]:
y = data[i-1]
x = np.random.normal(i, 0.04, len(y))
ax.plot(x, y, colors[i-1], alpha=0.4,mec='k', ms=7, marker="o", linestyle="None")
ax.set_facecolor("white")
#if counter != len(files)-1: plt.setp(ax.get_xticklabels(), visible=False)
#ax.set_title(name,fontsize=10)
#ax.get_yaxis().set_label_coords(-0.2,0.5)
ax.locator_params(axis='y',tight=False, nbins=4)
print scipy.stats.ranksums(domains['1'],domains['3'])
box = ax.boxplot(data, notch=False, patch_artist=True,widths=(0.6,0.6,0.6,0.6,0.6),showfliers=False)
for patch, color in zip(box['boxes'], colors):
patch.set_facecolor('none');patch.set_edgecolor('none');
for median in box['medians']: median.set(color='black', linewidth=2)
#for median in box['fliers']: median.set(color='gray', marker='o')
plt.setp(box['whiskers'], color='black')
doms = ['Heterochromatin','Inactive','Repressed','Active','Active-2']
ax.set_xticks(range(1,6,1))
ticks= ax.get_xticks().tolist()
for ditem in range(0,len(ticks)): ticks[ditem]=doms[ditem]
ax.set_xticklabels(ticks, fontsize=8, fontweight='bold')
ax.spines['right'].set_visible(False)
ax.spines['top'].set_visible(False)
ax.xaxis.set_ticks_position('bottom')
ax.yaxis.set_ticks_position('left')
ax.set_title(name)
plt.savefig(output+'.png',dpi=200)
def Plotter(mutation='',output='',region='',domain='',folder='',name=''):
if len(mutation)>0 and len(domain)==0 and len(folder)==0: mut_profiler(mutation,region,output,name)
if len(mutation)>0 and len(domain)>0: dom_profiler(mutation,domain,output,name)
if len(folder)>0:
tog,l_average3 = profiler(mutation,region)
files = glob.glob(folder+"/*.bedGraph")
data = []
for item in files:
p_average3,l_average3 = profiler(item,region)
if len(data)==0 : data = p_average3[:]
else: data = np.vstack([data,np.array(p_average3[:])])
x = np.linspace(0, len(data[0]), 1)
norm_data = (data - np.mean(data, axis=1)[:, np.newaxis]) / np.ptp(data, axis=1)[:, np.newaxis]
scmap = clrs.ListedColormap(['#f662ff', '#55adff'])
bounds=[0,1]
fig, (ax,ax1) = plt.subplots(2,1,figsize=(8,16))
fig.subplots_adjust(hspace=0.25,wspace=0.25)
ax.plot(tog,linewidth = 4, color='#008080',label='Mutations')
ax.set_ylabel('Mut Load / 25 Kb',fontsize=20)
ax.locator_params(axis='y',tight=False, nbins=5)
ax.locator_params(axis='x',tight=False, nbins=3)
ticks= ax.get_xticks().tolist()
ticks = ['-500Kb','Boundary','+500Kb']
ax.set_xticklabels(ticks,fontsize=20)
ax.set_xlim([0,40])
ax.set_title(name)
ax.spines['right'].set_visible(False)
ax.spines['top'].set_visible(False)
ax.xaxis.set_ticks_position('bottom')
ax.yaxis.set_ticks_position('left')
with np.errstate(divide='ignore'): img = ax1.imshow(norm_data,interpolation='nearest',aspect='auto',cmap='binary')
ax1.set_xlim([0,40])
ax1.xaxis.set_ticks([])
ax1.yaxis.set_ticks([])
ax1.set_frame_on(False)
ax1.set_ylabel(name,fontsize=15)
ax1.get_yaxis().set_label_coords(-0.075,0.5)
plt.setp(ax1.get_xticklabels(), visible=False)
ax1.axvspan(19, 21, facecolor='#5781A4', alpha=0.30, linestyle='dashed')
plt.savefig(output+'.png',dpi=200)
if __name__=='__main__':
parser = argparse.ArgumentParser(usage='MutationAggregate.py -m Mutation.bedGraph -r Boundaries.bed -o output -n title',add_help=False,formatter_class=argparse.RawDescriptionHelpFormatter)
group = parser.add_argument_group("Required Parameters")
group.add_argument('-m','--mutation',default='', help='',metavar='',required=True)
group.add_argument('-o', '--output',default='',metavar='',required=True)
group.add_argument('-n', '--name',default='',metavar='',required=True)
group1 = parser.add_argument_group("Optional Parameters")
group1.add_argument('-h', '--help', action="help")
group1.add_argument('-r', '--region',default='',metavar='',help='')
group1.add_argument('-d', '--domain',default='',metavar='',help='')
group1.add_argument('-f', '--folder',default='',metavar='',help='')
args = vars(parser.parse_args())
if len(args['domain'])==0 and len(args['region'])==0 and len(args['folder'])==0:
print >>sys.stderr, 'Upps!! Please activate one of the modules with -r, -d or -r & -h'
raise SystemExit
if len(args['domain'])>0 and len(args['folder'])>0:
print >>sys.stderr, 'Upps!! Please either provide a domain file or a folder.'
raise SystemExit
Plotter(**args)