Spaces:
Sleeping
Sleeping
Arts-of-coding
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Commit
•
808fd19
1
Parent(s):
9c1d788
Create corg.py
Browse files- pages/corg.py +486 -0
pages/corg.py
ADDED
@@ -0,0 +1,486 @@
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1 |
+
# Dash app to visualize scRNA-seq data quality control metrics from scanpy objects
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2 |
+
# Shoutout to Coding-with-Adam for the initial template of the project:
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3 |
+
# https://github.com/Coding-with-Adam/Dash-by-Plotly/blob/master/Dash%20Components/Graph/dash-graph.py
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+
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5 |
+
import dash
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6 |
+
from dash import dcc, html, Output, Input, callback
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7 |
+
import plotly.express as px
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8 |
+
import dash_callback_chain
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import yaml
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10 |
+
import polars as pl
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import os
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pl.enable_string_cache(False)
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+
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dash.register_page(__name__, location="sidebar")
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dataset = "data10xflex/corg/10xflexcorg_umap_clusres"
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# Set custom resolution for plots:
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+
config_fig = {
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'toImageButtonOptions': {
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'format': 'svg',
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'filename': 'custom_image',
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'height': 600,
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'width': 700,
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'scale': 1,
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+
}
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}
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from adlfs import AzureBlobFileSystem
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mountpount=os.environ['AZURE_MOUNT_POINT'],
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AZURE_STORAGE_ACCESS_KEY=os.getenv('AZURE_STORAGE_ACCESS_KEY')
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+
AZURE_STORAGE_ACCOUNT=os.getenv('AZURE_STORAGE_ACCOUNT')
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32 |
+
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33 |
+
# Load in config file
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34 |
+
config_path = "./data/config.yaml"
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35 |
+
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36 |
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# Add the read-in data from the yaml file
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37 |
+
def read_config(filename):
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38 |
+
with open(filename, 'r') as yaml_file:
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+
config = yaml.safe_load(yaml_file)
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40 |
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return config
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41 |
+
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42 |
+
config = read_config(config_path)
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43 |
+
path_parquet = config.get("path_parquet")
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44 |
+
col_batch = config.get("col_batch")
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45 |
+
col_features = config.get("col_features")
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46 |
+
col_counts = config.get("col_counts")
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47 |
+
col_mt = config.get("col_mt")
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48 |
+
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49 |
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#filepath = f"az://{path_parquet}"
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50 |
+
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51 |
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storage_options={'account_name': AZURE_STORAGE_ACCOUNT, 'account_key': AZURE_STORAGE_ACCESS_KEY,'anon': False}
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52 |
+
#azfs = AzureBlobFileSystem(**storage_options )
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53 |
+
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54 |
+
# Load in multiple dataframes
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55 |
+
df = pl.read_parquet(f"az://{dataset}.parquet", storage_options=storage_options)
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56 |
+
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57 |
+
# Setup the app
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58 |
+
#external_stylesheets = ['https://codepen.io/chriddyp/pen/bWLwgP.css']
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59 |
+
#app = dash.Dash(__name__, use_pages=True) #, requests_pathname_prefix='/dashboard1/'
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60 |
+
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61 |
+
#df = pl.read_parquet(filepath,storage_options=storage_options)
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62 |
+
#df = pl.DataFrame()
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63 |
+
#abfs = AzureBlobFileSystem(account_name=accountname,account_key=accountkey)
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64 |
+
#df = df.rename({"__index_level_0__": "Unnamed: 0"})
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65 |
+
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66 |
+
#df1 = pl.read_parquet(filepath, storage_options=storage_options)
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67 |
+
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68 |
+
#df2 = pl.read_parquet(f"az://data10xflex/{dataset_chosen}.parquet", storage_options=storage_options)
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69 |
+
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70 |
+
#tab0_content = html.Div([
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71 |
+
# html.Label("Dataset chosen"),
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72 |
+
# dcc.Dropdown(id='dpdn1', value="corg/10xflexcorg_umap_clusres", multi=False,
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73 |
+
# options=["corg/10xflexcorg_umap_clusres","d1011/10xflexd1011_umap_clusres"])
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74 |
+
#])
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75 |
+
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76 |
+
#@app.callback(
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77 |
+
# Input(component_id='dpdn1', component_property='value')
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78 |
+
#)
|
79 |
+
|
80 |
+
#def update_filepath(dpdn1):
|
81 |
+
# global df
|
82 |
+
# if str(f"az://data10xflex/{dpdn1}.parquet") != str(filepath):
|
83 |
+
# print("not identical filepath, chosing other")
|
84 |
+
# df2 = pl.read_parquet(f"az://data10xflex/{dpdn1}.parquet", storage_options=storage_options)
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85 |
+
# df = df2
|
86 |
+
# return
|
87 |
+
|
88 |
+
#df = pl.read_parquet(filepath, storage_options=storage_options)
|
89 |
+
min_value = df[col_features].min()
|
90 |
+
max_value = df[col_features].max()
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91 |
+
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92 |
+
min_value_2 = df[col_counts].min()
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93 |
+
min_value_2 = round(min_value_2)
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94 |
+
max_value_2 = df[col_counts].max()
|
95 |
+
max_value_2 = round(max_value_2)
|
96 |
+
|
97 |
+
min_value_3 = df[col_mt].min()
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98 |
+
min_value_3 = round(min_value_3, 1)
|
99 |
+
max_value_3 = df[col_mt].max()
|
100 |
+
max_value_3 = round(max_value_3, 1)
|
101 |
+
|
102 |
+
# Loads in the conditions specified in the yaml file
|
103 |
+
|
104 |
+
# Note: Future version perhaps all values from a column in the dataframe of the parquet file
|
105 |
+
# Note 2: This could also be a tsv of the categories and own specified colors
|
106 |
+
#conditions = df[col_batch].unique().to_list()
|
107 |
+
# Create the first tab content
|
108 |
+
# Add Sliders for three QC params: N genes by counts, total amount of reads and pct MT reads
|
109 |
+
|
110 |
+
tab1_content = html.Div([
|
111 |
+
html.Label("Column chosen"),
|
112 |
+
dcc.Dropdown(id='dpdn2', value="batch", multi=False,
|
113 |
+
options=df.columns),
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114 |
+
html.Label("N Genes by Counts"),
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115 |
+
dcc.RangeSlider(
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116 |
+
id='range-slider-1',
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117 |
+
step=250,
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118 |
+
value=[min_value, max_value],
|
119 |
+
marks={i: str(i) for i in range(min_value, max_value + 1, 250)},
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120 |
+
),
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121 |
+
dcc.Input(id='min-slider-1', type='number', value=min_value, debounce=True),
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122 |
+
dcc.Input(id='max-slider-1', type='number', value=max_value, debounce=True),
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123 |
+
html.Label("Total Counts"),
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124 |
+
dcc.RangeSlider(
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125 |
+
id='range-slider-2',
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126 |
+
step=7500,
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127 |
+
value=[min_value_2, max_value_2],
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128 |
+
marks={i: str(i) for i in range(min_value_2, max_value_2 + 1, 7500)},
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129 |
+
),
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130 |
+
dcc.Input(id='min-slider-2', type='number', value=min_value_2, debounce=True),
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131 |
+
dcc.Input(id='max-slider-2', type='number', value=max_value_2, debounce=True),
|
132 |
+
html.Label("Percent Mitochondrial Genes"),
|
133 |
+
dcc.RangeSlider(
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134 |
+
id='range-slider-3',
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135 |
+
step=5,
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136 |
+
min=0,
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137 |
+
max=100,
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138 |
+
value=[min_value_3, max_value_3],
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139 |
+
),
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140 |
+
dcc.Input(id='min-slider-3', type='number', value=min_value_3, debounce=True),
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141 |
+
dcc.Input(id='max-slider-3', type='number', value=max_value_3, debounce=True),
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142 |
+
html.Div([
|
143 |
+
dcc.Graph(id='pie-graph', figure={}, className='four columns',config=config_fig),
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144 |
+
dcc.Graph(id='my-graph', figure={}, clickData=None, hoverData=None,
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145 |
+
className='four columns',config=config_fig
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146 |
+
),
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147 |
+
dcc.Graph(id='scatter-plot', figure={}, className='four columns',config=config_fig)
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148 |
+
]),
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149 |
+
html.Div([
|
150 |
+
dcc.Graph(id='scatter-plot-2', figure={}, className='four columns',config=config_fig)
|
151 |
+
]),
|
152 |
+
html.Div([
|
153 |
+
dcc.Graph(id='scatter-plot-3', figure={}, className='four columns',config=config_fig)
|
154 |
+
]),
|
155 |
+
html.Div([
|
156 |
+
dcc.Graph(id='scatter-plot-4', figure={}, className='four columns',config=config_fig)
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157 |
+
]),
|
158 |
+
])
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159 |
+
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160 |
+
# Create the second tab content with scatter-plot-5 and scatter-plot-6
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161 |
+
tab2_content = html.Div([
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162 |
+
html.Div([
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163 |
+
html.Label("S-cycle genes"),
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164 |
+
dcc.Dropdown(id='dpdn3', value="MCM5", multi=False,
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165 |
+
options=[
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166 |
+
"MCM5",
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167 |
+
"PCNA",
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168 |
+
"TYMS",
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169 |
+
"FEN1",
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170 |
+
"MCM2",
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171 |
+
"MCM4",
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172 |
+
"RRM1",
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173 |
+
"UNG",
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174 |
+
"GINS2",
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175 |
+
"MCM6",
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176 |
+
"CDCA7",
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177 |
+
"DTL",
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178 |
+
"PRIM1",
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179 |
+
"UHRF1",
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180 |
+
"MLF1IP",
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181 |
+
"HELLS",
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182 |
+
"RFC2",
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183 |
+
"RPA2",
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184 |
+
"NASP",
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185 |
+
"RAD51AP1",
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186 |
+
"GMNN",
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187 |
+
"WDR76",
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188 |
+
"SLBP",
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189 |
+
"CCNE2",
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190 |
+
"UBR7",
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191 |
+
"POLD3",
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192 |
+
"MSH2",
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193 |
+
"ATAD2",
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194 |
+
"RAD51",
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195 |
+
"RRM2",
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196 |
+
"CDC45",
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197 |
+
"CDC6",
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198 |
+
"EXO1",
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199 |
+
"TIPIN",
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200 |
+
"DSCC1",
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201 |
+
"BLM",
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202 |
+
"CASP8AP2",
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203 |
+
"USP1",
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204 |
+
"CLSPN",
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205 |
+
"POLA1",
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206 |
+
"CHAF1B",
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207 |
+
"BRIP1",
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208 |
+
"E2F8"
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209 |
+
]),
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210 |
+
html.Label("G2M-cycle genes"),
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211 |
+
dcc.Dropdown(id='dpdn4', value="TOP2A", multi=False,
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212 |
+
options=[
|
213 |
+
'HMGB2', 'CDK1', 'NUSAP1', 'UBE2C', 'BIRC5', 'TPX2', 'TOP2A', 'NDC80', 'CKS2', 'NUF2', 'CKS1B', 'MKI67', 'TMPO', 'CENPF', 'TACC3', 'FAM64A', 'SMC4', 'CCNB2', 'CKAP2L', 'CKAP2', 'AURKB', 'BUB1', 'KIF11', 'ANP32E', 'TUBB4B', 'GTSE1', 'KIF20B', 'HJURP', 'CDCA3', 'HN1', 'CDC20', 'TTK', 'CDC25C', 'KIF2C', 'RANGAP1', 'NCAPD2', 'DLGAP5', 'CDCA2', 'CDCA8', 'ECT2', 'KIF23', 'HMMR', 'AURKA', 'PSRC1', 'ANLN', 'LBR', 'CKAP5',
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214 |
+
'CENPE', 'CTCF', 'NEK2', 'G2E3', 'GAS2L3', 'CBX5', 'CENPA'
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215 |
+
]),
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216 |
+
]),
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217 |
+
html.Div([
|
218 |
+
dcc.Graph(id='scatter-plot-5', figure={}, className='three columns',config=config_fig)
|
219 |
+
]),
|
220 |
+
html.Div([
|
221 |
+
dcc.Graph(id='scatter-plot-6', figure={}, className='three columns',config=config_fig)
|
222 |
+
]),
|
223 |
+
html.Div([
|
224 |
+
dcc.Graph(id='scatter-plot-7', figure={}, className='three columns',config=config_fig)
|
225 |
+
]),
|
226 |
+
html.Div([
|
227 |
+
dcc.Graph(id='scatter-plot-8', figure={}, className='three columns',config=config_fig)
|
228 |
+
]),
|
229 |
+
])
|
230 |
+
|
231 |
+
# Create the second tab content with scatter-plot-5 and scatter-plot-6
|
232 |
+
tab3_content = html.Div([
|
233 |
+
html.Div([
|
234 |
+
html.Label("UMAP condition 1"),
|
235 |
+
dcc.Dropdown(id='dpdn5', value="batch", multi=False,
|
236 |
+
options=df.columns),
|
237 |
+
html.Label("UMAP condition 2"),
|
238 |
+
dcc.Dropdown(id='dpdn6', value="n_genes_by_counts", multi=False,
|
239 |
+
options=df.columns),
|
240 |
+
html.Div([
|
241 |
+
dcc.Graph(id='scatter-plot-9', figure={}, className='four columns',config=config_fig)
|
242 |
+
]),
|
243 |
+
html.Div([
|
244 |
+
dcc.Graph(id='scatter-plot-10', figure={}, className='four columns',config=config_fig)
|
245 |
+
]),
|
246 |
+
html.Div([
|
247 |
+
dcc.Graph(id='scatter-plot-11', figure={}, className='four columns',config=config_fig)
|
248 |
+
]),
|
249 |
+
html.Div([
|
250 |
+
dcc.Graph(id='my-graph2', figure={}, clickData=None, hoverData=None,
|
251 |
+
className='four columns',config=config_fig
|
252 |
+
)
|
253 |
+
]),
|
254 |
+
]),
|
255 |
+
])
|
256 |
+
# html.Div([
|
257 |
+
# dcc.Graph(id='scatter-plot-12', figure={}, className='four columns',config=config_fig)
|
258 |
+
# ]),
|
259 |
+
|
260 |
+
|
261 |
+
tab4_content = html.Div([
|
262 |
+
html.Div([
|
263 |
+
html.Label("Multi gene"),
|
264 |
+
dcc.Dropdown(id='dpdn7', value=["PAX6","TP63","S100A9"], multi=True,
|
265 |
+
options=df.columns),
|
266 |
+
]),
|
267 |
+
html.Div([
|
268 |
+
dcc.Graph(id='scatter-plot-12', figure={}, className='four columns',config=config_fig)
|
269 |
+
]),
|
270 |
+
])
|
271 |
+
|
272 |
+
# Define the tabs layout
|
273 |
+
layout = html.Div([
|
274 |
+
dcc.Tabs(id='tabs', style= {'width': 600,
|
275 |
+
'font-size': '100%',
|
276 |
+
'height': 50}, value='tab1',children=[
|
277 |
+
#dcc.Tab(label='Dataset', value='tab0', children=tab0_content),
|
278 |
+
dcc.Tab(label='QC', value='tab1', children=tab1_content),
|
279 |
+
dcc.Tab(label='Cell cycle', value='tab2', children=tab2_content),
|
280 |
+
dcc.Tab(label='Custom', value='tab3', children=tab3_content),
|
281 |
+
dcc.Tab(label='Multi dot', value='tab4', children=tab4_content),
|
282 |
+
]),
|
283 |
+
])
|
284 |
+
|
285 |
+
# Define the circular callback
|
286 |
+
@callback(
|
287 |
+
Output("min-slider-1", "value"),
|
288 |
+
Output("max-slider-1", "value"),
|
289 |
+
Output("min-slider-2", "value"),
|
290 |
+
Output("max-slider-2", "value"),
|
291 |
+
Output("min-slider-3", "value"),
|
292 |
+
Output("max-slider-3", "value"),
|
293 |
+
Input("min-slider-1", "value"),
|
294 |
+
Input("max-slider-1", "value"),
|
295 |
+
Input("min-slider-2", "value"),
|
296 |
+
Input("max-slider-2", "value"),
|
297 |
+
Input("min-slider-3", "value"),
|
298 |
+
Input("max-slider-3", "value"),
|
299 |
+
)
|
300 |
+
def circular_callback(min_1, max_1, min_2, max_2, min_3, max_3):
|
301 |
+
return min_1, max_1, min_2, max_2, min_3, max_3
|
302 |
+
|
303 |
+
@callback(
|
304 |
+
Output('range-slider-1', 'value'),
|
305 |
+
Output('range-slider-2', 'value'),
|
306 |
+
Output('range-slider-3', 'value'),
|
307 |
+
Input('min-slider-1', 'value'),
|
308 |
+
Input('max-slider-1', 'value'),
|
309 |
+
Input('min-slider-2', 'value'),
|
310 |
+
Input('max-slider-2', 'value'),
|
311 |
+
Input('min-slider-3', 'value'),
|
312 |
+
Input('max-slider-3', 'value'),
|
313 |
+
)
|
314 |
+
def update_slider_values(min_1, max_1, min_2, max_2, min_3, max_3):
|
315 |
+
return [min_1, max_1], [min_2, max_2], [min_3, max_3]
|
316 |
+
|
317 |
+
@callback(
|
318 |
+
Output(component_id='my-graph', component_property='figure'),
|
319 |
+
Output(component_id='pie-graph', component_property='figure'),
|
320 |
+
Output(component_id='scatter-plot', component_property='figure'),
|
321 |
+
Output(component_id='scatter-plot-2', component_property='figure'),
|
322 |
+
Output(component_id='scatter-plot-3', component_property='figure'),
|
323 |
+
Output(component_id='scatter-plot-4', component_property='figure'), # Add this new scatter plot
|
324 |
+
Output(component_id='scatter-plot-5', component_property='figure'),
|
325 |
+
Output(component_id='scatter-plot-6', component_property='figure'),
|
326 |
+
Output(component_id='scatter-plot-7', component_property='figure'),
|
327 |
+
Output(component_id='scatter-plot-8', component_property='figure'),
|
328 |
+
Output(component_id='scatter-plot-9', component_property='figure'),
|
329 |
+
Output(component_id='scatter-plot-10', component_property='figure'),
|
330 |
+
Output(component_id='scatter-plot-11', component_property='figure'),
|
331 |
+
Output(component_id='scatter-plot-12', component_property='figure'),
|
332 |
+
Output(component_id='my-graph2', component_property='figure'),
|
333 |
+
Input(component_id='dpdn2', component_property='value'),
|
334 |
+
Input(component_id='dpdn3', component_property='value'),
|
335 |
+
Input(component_id='dpdn4', component_property='value'),
|
336 |
+
Input(component_id='dpdn5', component_property='value'),
|
337 |
+
Input(component_id='dpdn6', component_property='value'),
|
338 |
+
Input(component_id='dpdn7', component_property='value'),
|
339 |
+
Input(component_id='range-slider-1', component_property='value'),
|
340 |
+
Input(component_id='range-slider-2', component_property='value'),
|
341 |
+
Input(component_id='range-slider-3', component_property='value')
|
342 |
+
)
|
343 |
+
|
344 |
+
def update_graph_and_pie_chart(col_chosen, s_chosen, g2m_chosen, condition1_chosen, condition2_chosen, condition3_chosen, range_value_1, range_value_2, range_value_3): #batch_chosen,
|
345 |
+
batch_chosen = df[col_chosen].unique().to_list()
|
346 |
+
dff = df.filter(
|
347 |
+
(pl.col(col_chosen).cast(str).is_in(batch_chosen)) &
|
348 |
+
(pl.col(col_features) >= range_value_1[0]) &
|
349 |
+
(pl.col(col_features) <= range_value_1[1]) &
|
350 |
+
(pl.col(col_counts) >= range_value_2[0]) &
|
351 |
+
(pl.col(col_counts) <= range_value_2[1]) &
|
352 |
+
(pl.col(col_mt) >= range_value_3[0]) &
|
353 |
+
(pl.col(col_mt) <= range_value_3[1])
|
354 |
+
)
|
355 |
+
|
356 |
+
#Drop categories that are not in the filtered data
|
357 |
+
dff = dff.with_columns(dff[col_chosen].cast(pl.Categorical))
|
358 |
+
|
359 |
+
dff = dff.sort(col_chosen)
|
360 |
+
|
361 |
+
# Plot figures
|
362 |
+
fig_violin = px.violin(data_frame=dff, x=col_chosen, y=col_features, box=True, points="all",
|
363 |
+
color=col_chosen, hover_name=col_chosen,template="seaborn")
|
364 |
+
|
365 |
+
# Cache commonly used subexpressions
|
366 |
+
total_count = pl.lit(len(dff))
|
367 |
+
category_counts = dff.group_by(col_chosen).agg(pl.col(col_chosen).count().alias("count"))
|
368 |
+
category_counts = category_counts.with_columns(((pl.col("count") / total_count * 100).round(decimals=2)).alias("normalized_count"))
|
369 |
+
|
370 |
+
# Sort the dataframe
|
371 |
+
#category_counts = category_counts.sort(col_chosen) does not work check if the names are different ...
|
372 |
+
|
373 |
+
# Display the result
|
374 |
+
total_cells = total_count # Calculate total number of cells
|
375 |
+
pie_title = f'Percentage of Total Cells: {total_cells}' # Include total cells in the title
|
376 |
+
|
377 |
+
# Calculate the mean expression
|
378 |
+
|
379 |
+
# Melt wide format DataFrame into long format
|
380 |
+
# Specify batch column as string type and gene columns as float type
|
381 |
+
list_conds = condition3_chosen
|
382 |
+
list_conds += [col_chosen]
|
383 |
+
dff_pre = dff.select(list_conds)
|
384 |
+
|
385 |
+
# Melt wide format DataFrame into long format
|
386 |
+
dff_long = dff_pre.melt(id_vars=col_chosen, variable_name="Gene", value_name="Mean expression")
|
387 |
+
|
388 |
+
# Calculate the mean expression levels for each gene in each region
|
389 |
+
expression_means = dff_long.lazy().group_by([col_chosen, "Gene"]).agg(pl.mean("Mean expression")).collect()
|
390 |
+
|
391 |
+
# Calculate the percentage total expressed
|
392 |
+
dff_long1 = dff_pre.melt(id_vars=col_chosen, variable_name="Gene")#.group_by(pl.all()).agg(pl.len())
|
393 |
+
count = 1
|
394 |
+
dff_long2 = dff_long1.with_columns(pl.lit(count).alias("len"))
|
395 |
+
dff_long3 = dff_long2.filter(pl.col("value") > 0).group_by([col_chosen, "Gene"]).agg(pl.sum("len").alias("len"))
|
396 |
+
dff_long4 = dff_long2.group_by([col_chosen, "Gene"]).agg(pl.sum("len").alias("total"))
|
397 |
+
dff_5 = dff_long4.join(dff_long3, on=[col_chosen,"Gene"], how="outer")
|
398 |
+
result = dff_5.select([
|
399 |
+
pl.when((pl.col('len').is_not_null()) & (pl.col('total').is_not_null()))
|
400 |
+
.then(pl.col('len') / pl.col('total')*100)
|
401 |
+
.otherwise(None).alias("%"),
|
402 |
+
])
|
403 |
+
result = result.with_columns(pl.col("%").fill_null(100))
|
404 |
+
dff_5[["percentage"]] = result[["%"]]
|
405 |
+
dff_5 = dff_5.select(pl.col(col_chosen,"Gene","percentage"))
|
406 |
+
|
407 |
+
# Final part to join the percentage expressed and mean expression levels
|
408 |
+
# TO DO
|
409 |
+
expression_means = expression_means.join(dff_5, on=[col_chosen,"Gene"], how="inner")
|
410 |
+
|
411 |
+
# Order the dataframe on ascending categories
|
412 |
+
expression_means = expression_means.sort(col_chosen, descending=True)
|
413 |
+
|
414 |
+
#expression_means = expression_means.select(["batch", "Gene", "Expression"] + condition3_chosen)
|
415 |
+
category_counts = category_counts.sort(col_chosen)
|
416 |
+
|
417 |
+
fig_pie = px.pie(category_counts, values="normalized_count", names=col_chosen, labels=col_chosen, hole=.3, title=pie_title, template="seaborn")
|
418 |
+
|
419 |
+
#labels = category_counts[col_chosen].to_list()
|
420 |
+
#values = category_counts["normalized_count"].to_list()
|
421 |
+
|
422 |
+
# Create the scatter plots
|
423 |
+
fig_scatter = px.scatter(data_frame=dff, x='X_umap-0', y='X_umap-1', color=col_chosen,
|
424 |
+
labels={'X_umap-0': 'umap1' , 'X_umap-1': 'umap2'},
|
425 |
+
hover_name='batch',template="seaborn")
|
426 |
+
|
427 |
+
fig_scatter_2 = px.scatter(data_frame=dff, x='X_umap-0', y='X_umap-1', color=col_mt,
|
428 |
+
labels={'X_umap-0': 'umap1' , 'X_umap-1': 'umap2'},
|
429 |
+
hover_name='batch',template="seaborn")
|
430 |
+
|
431 |
+
fig_scatter_3 = px.scatter(data_frame=dff, x='X_umap-0', y='X_umap-1', color=col_features,
|
432 |
+
labels={'X_umap-0': 'umap1' , 'X_umap-1': 'umap2'},
|
433 |
+
hover_name='batch',template="seaborn")
|
434 |
+
|
435 |
+
|
436 |
+
fig_scatter_4 = px.scatter(data_frame=dff, x='X_umap-0', y='X_umap-1', color=col_counts,
|
437 |
+
labels={'X_umap-0': 'umap1' , 'X_umap-1': 'umap2'},
|
438 |
+
hover_name='batch',template="seaborn")
|
439 |
+
|
440 |
+
fig_scatter_5 = px.scatter(data_frame=dff, x='X_umap-0', y='X_umap-1', color=s_chosen,
|
441 |
+
labels={'X_umap-0': 'umap1' , 'X_umap-1': 'umap2'},
|
442 |
+
hover_name='batch', title="S-cycle gene:",template="seaborn")
|
443 |
+
|
444 |
+
fig_scatter_6 = px.scatter(data_frame=dff, x='X_umap-0', y='X_umap-1', color=g2m_chosen,
|
445 |
+
labels={'X_umap-0': 'umap1' , 'X_umap-1': 'umap2'},
|
446 |
+
hover_name='batch', title="G2M-cycle gene:",template="seaborn")
|
447 |
+
|
448 |
+
fig_scatter_7 = px.scatter(data_frame=dff, x='X_umap-0', y='X_umap-1', color="S_score",
|
449 |
+
labels={'X_umap-0': 'umap1' , 'X_umap-1': 'umap2'},
|
450 |
+
hover_name='batch', title="S score:",template="seaborn")
|
451 |
+
|
452 |
+
fig_scatter_8 = px.scatter(data_frame=dff, x='X_umap-0', y='X_umap-1', color="G2M_score",
|
453 |
+
labels={'X_umap-0': 'umap1' , 'X_umap-1': 'umap2'},
|
454 |
+
hover_name='batch', title="G2M score:",template="seaborn")
|
455 |
+
|
456 |
+
# Sort values of custom in-between
|
457 |
+
dff = dff.sort(condition1_chosen)
|
458 |
+
|
459 |
+
fig_scatter_9 = px.scatter(data_frame=dff, x='X_umap-0', y='X_umap-1', color=condition1_chosen,
|
460 |
+
labels={'X_umap-0': 'umap1' , 'X_umap-1': 'umap2'},
|
461 |
+
hover_name='batch',template="seaborn")
|
462 |
+
|
463 |
+
fig_scatter_10 = px.scatter(data_frame=dff, x='X_umap-0', y='X_umap-1', color=condition2_chosen,
|
464 |
+
labels={'X_umap-0': 'umap1' , 'X_umap-1': 'umap2'},
|
465 |
+
hover_name='batch',template="seaborn")
|
466 |
+
|
467 |
+
fig_scatter_11 = px.scatter(data_frame=dff, x=condition1_chosen, y=condition2_chosen, color=condition1_chosen,
|
468 |
+
#labels={'X_umap-0': 'umap1' , 'X_umap-1': 'umap2'},
|
469 |
+
hover_name='batch',template="seaborn")
|
470 |
+
|
471 |
+
fig_scatter_12 = px.scatter(data_frame=expression_means, x="Gene", y=col_chosen, color="Mean expression",
|
472 |
+
size="percentage", size_max = 20,
|
473 |
+
#labels={'X_umap-0': 'umap1' , 'X_umap-1': 'umap2'},
|
474 |
+
hover_name=col_chosen,template="seaborn")
|
475 |
+
|
476 |
+
fig_violin2 = px.violin(data_frame=dff, x=condition1_chosen, y=condition2_chosen, box=True, points="all",
|
477 |
+
color=condition1_chosen, hover_name=condition1_chosen,template="seaborn")
|
478 |
+
|
479 |
+
|
480 |
+
return fig_violin, fig_pie, fig_scatter, fig_scatter_2, fig_scatter_3, fig_scatter_4, fig_scatter_5, fig_scatter_6, fig_scatter_7, fig_scatter_8, fig_scatter_9, fig_scatter_10, fig_scatter_11, fig_scatter_12, fig_violin2
|
481 |
+
|
482 |
+
# Set http://localhost:5000/ in web browser
|
483 |
+
# Now create your regular FASTAPI application
|
484 |
+
|
485 |
+
#if __name__ == '__main__':
|
486 |
+
# app.run_server(debug=False, use_reloader=False, host='0.0.0.0', port=5000) #
|