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import os | |
import tiger | |
import cas9on | |
import cas9off | |
import cas12 | |
import pandas as pd | |
import streamlit as st | |
import plotly.graph_objs as go | |
from pygenomeviz import Genbank, GenomeViz | |
import numpy as np | |
from pathlib import Path | |
# title and documentation | |
st.markdown(Path('crisprTool.md').read_text(), unsafe_allow_html=True) | |
st.divider() | |
CRISPR_MODELS = ['Cas9', 'Cas12', 'Cas13d'] | |
selected_model = st.selectbox('Select CRISPR model:', CRISPR_MODELS, key='selected_model') | |
cas9on_path = 'cas9_model/on-cla.h5' | |
cas12_path = 'cas12_model/Seq_deepCpf1_weights.h5' | |
def convert_df(df): | |
# IMPORTANT: Cache the conversion to prevent computation on every rerun | |
return df.to_csv().encode('utf-8') | |
def mode_change_callback(): | |
if st.session_state.mode in {tiger.RUN_MODES['all'], tiger.RUN_MODES['titration']}: # TODO: support titration | |
st.session_state.check_off_targets = False | |
st.session_state.disable_off_target_checkbox = True | |
else: | |
st.session_state.disable_off_target_checkbox = False | |
def progress_update(update_text, percent_complete): | |
with progress.container(): | |
st.write(update_text) | |
st.progress(percent_complete / 100) | |
def initiate_run(): | |
# initialize state variables | |
st.session_state.transcripts = None | |
st.session_state.input_error = None | |
st.session_state.on_target = None | |
st.session_state.titration = None | |
st.session_state.off_target = None | |
# initialize transcript DataFrame | |
transcripts = pd.DataFrame(columns=[tiger.ID_COL, tiger.SEQ_COL]) | |
# manual entry | |
if st.session_state.entry_method == ENTRY_METHODS['manual']: | |
transcripts = pd.DataFrame({ | |
tiger.ID_COL: ['ManualEntry'], | |
tiger.SEQ_COL: [st.session_state.manual_entry] | |
}).set_index(tiger.ID_COL) | |
# fasta file upload | |
elif st.session_state.entry_method == ENTRY_METHODS['fasta']: | |
if st.session_state.fasta_entry is not None: | |
fasta_path = st.session_state.fasta_entry.name | |
with open(fasta_path, 'w') as f: | |
f.write(st.session_state.fasta_entry.getvalue().decode('utf-8')) | |
transcripts = tiger.load_transcripts([fasta_path], enforce_unique_ids=False) | |
os.remove(fasta_path) | |
# convert to upper case as used by tokenizer | |
transcripts[tiger.SEQ_COL] = transcripts[tiger.SEQ_COL].apply(lambda s: s.upper().replace('U', 'T')) | |
# ensure all transcripts have unique identifiers | |
if transcripts.index.has_duplicates: | |
st.session_state.input_error = "Duplicate transcript ID's detected in fasta file" | |
# ensure all transcripts only contain nucleotides A, C, G, T, and wildcard N | |
elif not all(transcripts[tiger.SEQ_COL].apply(lambda s: set(s).issubset(tiger.NUCLEOTIDE_TOKENS.keys()))): | |
st.session_state.input_error = 'Transcript(s) must only contain upper or lower case A, C, G, and Ts or Us' | |
# ensure all transcripts satisfy length requirements | |
elif any(transcripts[tiger.SEQ_COL].apply(lambda s: len(s) < tiger.TARGET_LEN)): | |
st.session_state.input_error = 'Transcript(s) must be at least {:d} bases.'.format(tiger.TARGET_LEN) | |
# run model if we have any transcripts | |
elif len(transcripts) > 0: | |
st.session_state.transcripts = transcripts | |
# Check if the selected model is Cas9 | |
if selected_model == 'Cas9': | |
# Use a radio button to select enzymes, making sure only one can be selected at a time | |
target_selection = st.radio( | |
"Select either on-target or off-target:", | |
('on-target', 'off-target'), | |
key='target_selection' | |
) | |
if 'current_gene_symbol' not in st.session_state: | |
st.session_state['current_gene_symbol'] = "" | |
# Define a function to clean up old files | |
def clean_up_old_files(gene_symbol): | |
genbank_file_path = f"{gene_symbol}_crispr_targets.gb" | |
bed_file_path = f"{gene_symbol}_crispr_targets.bed" | |
csv_file_path = f"{gene_symbol}_crispr_predictions.csv" | |
for path in [genbank_file_path, bed_file_path, csv_file_path]: | |
if os.path.exists(path): | |
os.remove(path) | |
# Gene symbol entry | |
gene_symbol = st.text_input('Enter a Gene Symbol:', placeholder="e.g., FOXA1", key='gene_symbol') | |
# Handle gene symbol change and file cleanup | |
if gene_symbol != st.session_state['current_gene_symbol'] and gene_symbol: | |
if st.session_state['current_gene_symbol']: | |
# Clean up files only if a different gene symbol is entered and a previous symbol exists | |
clean_up_old_files(st.session_state['current_gene_symbol']) | |
# Update the session state with the new gene symbol | |
st.session_state['current_gene_symbol'] = gene_symbol | |
if target_selection == 'on-target': | |
# Prediction button | |
predict_button = st.button('Predict on-target') | |
# Process predictions | |
if predict_button and gene_symbol: | |
with st.spinner('Predicting... Please wait'): | |
predictions, gene_sequence = cas9on.process_gene(gene_symbol, cas9on_path) | |
sorted_predictions = sorted(predictions, key=lambda x: x[-1], reverse=True)[:10] | |
st.session_state['on_target_results'] = sorted_predictions | |
st.session_state['gene_sequence'] = gene_sequence # Save gene sequence in session state | |
# Notify the user once the process is completed successfully. | |
st.success('Prediction completed!') | |
st.session_state['prediction_made'] = True | |
if 'on_target_results' in st.session_state and st.session_state['on_target_results']: | |
# Include "Target" in the DataFrame's columns | |
df = pd.DataFrame(st.session_state['on_target_results'], | |
columns=["Gene ID", "Start Pos", "End Pos", "Strand", "Target", "gRNA", "Prediction"]) | |
st.dataframe(df) | |
# Now create a Plotly plot with the sorted_predictions | |
fig = go.Figure() | |
# Initialize the y position for the positive and negative strands | |
positive_strand_y = 0.1 | |
negative_strand_y = -0.1 | |
# Use an offset to spread gRNA sequences vertically | |
offset = 0.05 | |
# Iterate over the sorted predictions to create the plot | |
for i, prediction in enumerate(sorted_predictions, start=1): | |
# Extract data for plotting and convert start and end to integers | |
chrom, start, end, strand, target, gRNA, pred_score = prediction | |
start, end = int(start), int(end) | |
midpoint = (start + end) / 2 | |
# Set the y-value and arrow symbol based on the strand | |
if strand == '1': | |
y_value = positive_strand_y | |
arrow_symbol = 'triangle-right' | |
# Increment the y-value for the next positive strand gRNA | |
positive_strand_y += offset | |
else: | |
y_value = negative_strand_y | |
arrow_symbol = 'triangle-left' | |
# Decrement the y-value for the next negative strand gRNA | |
negative_strand_y -= offset | |
fig.add_trace(go.Scatter( | |
x=[midpoint], | |
y=[y_value], # Use the y_value set above for the strand | |
mode='markers+text', | |
marker=dict(symbol=arrow_symbol, size=10), | |
name=f"gRNA: {gRNA}", | |
text=f"Rank: {i}", # Place text at the marker | |
hoverinfo='text', | |
hovertext=f"Rank: {i}<br>Chromosome: {chrom}<br>Target Sequence: {target}<br>gRNA: {gRNA}<br>Start: {start}<br>End: {end}<br>Strand: {'+' if strand == 1 else '-'}<br>Prediction Score: {pred_score:.4f}", | |
)) | |
# Update the layout of the plot | |
fig.update_layout( | |
title='Top 10 gRNA Sequences by Prediction Score', | |
xaxis_title='Genomic Position', | |
yaxis=dict( | |
title='Strand', | |
showgrid=True, # Show horizontal gridlines for clarity | |
zeroline=True, # Show a line at y=0 to represent the axis | |
zerolinecolor='Black', | |
zerolinewidth=2, | |
tickvals=[positive_strand_y, negative_strand_y], | |
ticktext=['+ Strand', '- Strand'] | |
), | |
showlegend=False # Hide the legend if it's not necessary | |
) | |
# Display the plot | |
st.plotly_chart(fig) | |
if 'gene_sequence' in st.session_state and st.session_state['gene_sequence']: | |
gene_symbol = st.session_state['current_gene_symbol'] | |
gene_sequence = st.session_state['gene_sequence'] | |
# Define file paths | |
genbank_file_path = f"{gene_symbol}_crispr_targets.gb" | |
bed_file_path = f"{gene_symbol}_crispr_targets.bed" | |
csv_file_path = f"{gene_symbol}_crispr_predictions.csv" | |
# Generate files | |
cas9on.generate_genbank_file_from_df(df, gene_sequence, gene_symbol, genbank_file_path) | |
cas9on.create_bed_file_from_df(df, bed_file_path) | |
cas9on.create_csv_from_df(df, csv_file_path) | |
# Layout for download buttons | |
col1, col2, col3 = st.columns(3) | |
with col1: | |
with open(genbank_file_path, "rb") as file: | |
st.download_button(label="Download GenBank File", data=file, file_name=genbank_file_path, | |
mime="text/x-genbank") | |
with col2: | |
with open(bed_file_path, "rb") as file: | |
st.download_button(label="Download BED File", data=file, file_name=bed_file_path, | |
mime="text/plain") | |
with col3: | |
with open(csv_file_path, "rb") as file: | |
st.download_button(label="Download CSV File", data=file, file_name=csv_file_path, | |
mime="text/csv") | |
# Links for user guidance on using the downloaded files | |
st.markdown( | |
"GenBank files can be visualized using [PyGenomeViz](https://pygenomeviz.streamlit.app/). " | |
"BED files can be used with the [UCSC Genome Browser](https://genome.ucsc.edu/cgi-bin/hgCustom).") | |
elif target_selection == 'off-target': | |
ENTRY_METHODS = dict( | |
manual='Manual entry of target sequence', | |
txt="txt file upload" | |
) | |
if __name__ == '__main__': | |
# app initialization for Cas9 off-target | |
if 'target_sequence' not in st.session_state: | |
st.session_state.target_sequence = None | |
if 'input_error' not in st.session_state: | |
st.session_state.input_error = None | |
if 'off_target_results' not in st.session_state: | |
st.session_state.off_target_results = None | |
# target sequence entry | |
st.selectbox( | |
label='How would you like to provide target sequences?', | |
options=ENTRY_METHODS.values(), | |
key='entry_method', | |
disabled=st.session_state.target_sequence is not None | |
) | |
if st.session_state.entry_method == ENTRY_METHODS['manual']: | |
st.text_input( | |
label='Enter on/off sequences:', | |
key='manual_entry', | |
placeholder='Enter on/off sequences like:GGGTGGGGGGAGTTTGCTCCAGG,AGGTGGGGTGA_TTTGCTCCAGG', | |
disabled=st.session_state.target_sequence is not None | |
) | |
elif st.session_state.entry_method == ENTRY_METHODS['txt']: | |
st.file_uploader( | |
label='Upload a txt file:', | |
key='txt_entry', | |
disabled=st.session_state.target_sequence is not None | |
) | |
# prediction button | |
if st.button('Predict off-target'): | |
if st.session_state.entry_method == ENTRY_METHODS['manual']: | |
user_input = st.session_state.manual_entry | |
if user_input: # Check if user_input is not empty | |
predictions = cas9off.process_input_and_predict(user_input, input_type='manual') | |
elif st.session_state.entry_method == ENTRY_METHODS['txt']: | |
uploaded_file = st.session_state.txt_entry | |
if uploaded_file is not None: | |
# Read the uploaded file content | |
file_content = uploaded_file.getvalue().decode("utf-8") | |
predictions = cas9off.process_input_and_predict(file_content, input_type='manual') | |
st.session_state.off_target_results = predictions | |
else: | |
predictions = None | |
progress = st.empty() | |
# input error display | |
error = st.empty() | |
if st.session_state.input_error is not None: | |
error.error(st.session_state.input_error, icon="🚨") | |
else: | |
error.empty() | |
# off-target results display | |
off_target_results = st.empty() | |
if st.session_state.off_target_results is not None: | |
with off_target_results.container(): | |
if len(st.session_state.off_target_results) > 0: | |
st.write('Off-target predictions:', st.session_state.off_target_results) | |
st.download_button( | |
label='Download off-target predictions', | |
data=convert_df(st.session_state.off_target_results), | |
file_name='off_target_results.csv', | |
mime='text/csv' | |
) | |
else: | |
st.write('No significant off-target effects detected!') | |
else: | |
off_target_results.empty() | |
# running the CRISPR-Net model for off-target predictions | |
if st.session_state.target_sequence is not None: | |
st.session_state.off_target_results = cas9off.predict_off_targets( | |
target_sequence=st.session_state.target_sequence, | |
status_update_fn=progress_update | |
) | |
st.session_state.target_sequence = None | |
st.experimental_rerun() | |
elif selected_model == 'Cas12': | |
# Gene symbol entry | |
gene_symbol = st.text_input('Enter a Gene Symbol:', placeholder="e.g., FOXA1", key='gene_symbol') | |
# Initialize the current_gene_symbol in the session state if it doesn't exist | |
if 'current_gene_symbol' not in st.session_state: | |
st.session_state['current_gene_symbol'] = "" | |
# Prediction button | |
predict_button = st.button('Predict on-target') | |
# Function to clean up old files | |
def clean_up_old_files(gene_symbol): | |
genbank_file_path = f"{gene_symbol}_crispr_targets.gb" | |
bed_file_path = f"{gene_symbol}_crispr_targets.bed" | |
csv_file_path = f"{gene_symbol}_crispr_predictions.csv" | |
for path in [genbank_file_path, bed_file_path, csv_file_path]: | |
if os.path.exists(path): | |
os.remove(path) | |
# Clean up files if a new gene symbol is entered | |
if st.session_state['current_gene_symbol'] and gene_symbol != st.session_state['current_gene_symbol']: | |
clean_up_old_files(st.session_state['current_gene_symbol']) | |
# Process predictions | |
if predict_button and gene_symbol: | |
# Update the current gene symbol | |
st.session_state['current_gene_symbol'] = gene_symbol | |
# Run the prediction process | |
with st.spinner('Predicting... Please wait'): | |
predictions, gene_sequence = cas12.process_gene(gene_symbol,cas12_path) | |
sorted_predictions = sorted(predictions, key=lambda x: x[-1], reverse=True)[:10] | |
st.session_state['on_target_results'] = sorted_predictions | |
st.success('Prediction completed!') | |
# Visualization and file generation | |
if 'on_target_results' in st.session_state and st.session_state['on_target_results']: | |
df = pd.DataFrame(st.session_state['on_target_results'], | |
columns=["Gene ID", "Start Pos", "End Pos", "Strand", "Target", "gRNA", "Prediction"]) | |
st.dataframe(df) | |
# Now create a Plotly plot with the sorted_predictions | |
fig = go.Figure() | |
# Initialize the y position for the positive and negative strands | |
positive_strand_y = 0.1 | |
negative_strand_y = -0.1 | |
# Use an offset to spread gRNA sequences vertically | |
offset = 0.05 | |
# Iterate over the sorted predictions to create the plot | |
for i, prediction in enumerate(sorted_predictions, start=1): | |
# Extract data for plotting and convert start and end to integers | |
chrom, start, end, strand, target, gRNA, pred_score = prediction | |
start, end = int(start), int(end) | |
midpoint = (start + end) / 2 | |
# Set the y-value and arrow symbol based on the strand | |
if strand == '1': | |
y_value = positive_strand_y | |
arrow_symbol = 'triangle-right' | |
# Increment the y-value for the next positive strand gRNA | |
positive_strand_y += offset | |
else: | |
y_value = negative_strand_y | |
arrow_symbol = 'triangle-left' | |
# Decrement the y-value for the next negative strand gRNA | |
negative_strand_y -= offset | |
fig.add_trace(go.Scatter( | |
x=[midpoint], | |
y=[y_value], # Use the y_value set above for the strand | |
mode='markers+text', | |
marker=dict(symbol=arrow_symbol, size=10), | |
name=f"gRNA: {gRNA}", | |
text=f"Rank: {i}", # Place text at the marker | |
hoverinfo='text', | |
hovertext=f"Rank: {i}<br>Chromosome: {chrom}<br>Target Sequence: {target}<br>gRNA: {gRNA}<br>Start: {start}<br>End: {end}<br>Strand: {'+' if strand == 1 else '-'}<br>Prediction Score: {pred_score:.4f}", | |
)) | |
# Update the layout of the plot | |
fig.update_layout( | |
title='Top 10 gRNA Sequences by Prediction Score', | |
xaxis_title='Genomic Position', | |
yaxis=dict( | |
title='Strand', | |
showgrid=True, # Show horizontal gridlines for clarity | |
zeroline=True, # Show a line at y=0 to represent the axis | |
zerolinecolor='Black', | |
zerolinewidth=2, | |
tickvals=[positive_strand_y, negative_strand_y], | |
ticktext=['+ Strand', '- Strand'] | |
), | |
showlegend=False # Hide the legend if it's not necessary | |
) | |
# Display the plot | |
st.plotly_chart(fig) | |
# Ensure gene_sequence is not empty before generating files | |
if gene_sequence: | |
# Define file paths | |
genbank_file_path = f"{gene_symbol}_crispr_targets.gb" | |
bed_file_path = f"{gene_symbol}_crispr_targets.bed" | |
csv_file_path = f"{gene_symbol}_crispr_predictions.csv" | |
# Generate files | |
cas9on.generate_genbank_file_from_df(df, gene_sequence, gene_symbol, genbank_file_path) | |
cas9on.create_bed_file_from_df(df, bed_file_path) | |
cas9on.create_csv_from_df(df, csv_file_path) | |
# Layout for download buttons | |
col1, col2, col3 = st.columns(3) | |
with col1: | |
with open(genbank_file_path, "rb") as file: | |
st.download_button(label="Download GenBank File", data=file, file_name=genbank_file_path, | |
mime="text/x-genbank") | |
with col2: | |
with open(bed_file_path, "rb") as file: | |
st.download_button(label="Download BED File", data=file, file_name=bed_file_path, | |
mime="text/plain") | |
with col3: | |
with open(csv_file_path, "rb") as file: | |
st.download_button(label="Download CSV File", data=file, file_name=csv_file_path, | |
mime="text/csv") | |
# Links for user guidance on using the downloaded files | |
st.markdown( | |
"GenBank files can be visualized using [PyGenomeViz](https://pygenomeviz.streamlit.app/). " | |
"BED files can be used with the [UCSC Genome Browser](https://genome.ucsc.edu/cgi-bin/hgCustom)." | |
) | |
elif selected_model == 'Cas13d': | |
ENTRY_METHODS = dict( | |
manual='Manual entry of single transcript', | |
fasta="Fasta file upload (supports multiple transcripts if they have unique ID's)" | |
) | |
if __name__ == '__main__': | |
# app initialization | |
if 'mode' not in st.session_state: | |
st.session_state.mode = tiger.RUN_MODES['all'] | |
st.session_state.disable_off_target_checkbox = True | |
if 'entry_method' not in st.session_state: | |
st.session_state.entry_method = ENTRY_METHODS['manual'] | |
if 'transcripts' not in st.session_state: | |
st.session_state.transcripts = None | |
if 'input_error' not in st.session_state: | |
st.session_state.input_error = None | |
if 'on_target' not in st.session_state: | |
st.session_state.on_target = None | |
if 'titration' not in st.session_state: | |
st.session_state.titration = None | |
if 'off_target' not in st.session_state: | |
st.session_state.off_target = None | |
# mode selection | |
col1, col2 = st.columns([0.65, 0.35]) | |
with col1: | |
st.radio( | |
label='What do you want to predict?', | |
options=tuple(tiger.RUN_MODES.values()), | |
key='mode', | |
on_change=mode_change_callback, | |
disabled=st.session_state.transcripts is not None, | |
) | |
with col2: | |
st.checkbox( | |
label='Find off-target effects (slow)', | |
key='check_off_targets', | |
disabled=st.session_state.disable_off_target_checkbox or st.session_state.transcripts is not None | |
) | |
# transcript entry | |
st.selectbox( | |
label='How would you like to provide transcript(s) of interest?', | |
options=ENTRY_METHODS.values(), | |
key='entry_method', | |
disabled=st.session_state.transcripts is not None | |
) | |
if st.session_state.entry_method == ENTRY_METHODS['manual']: | |
st.text_input( | |
label='Enter a target transcript:', | |
key='manual_entry', | |
placeholder='Upper or lower case', | |
disabled=st.session_state.transcripts is not None | |
) | |
elif st.session_state.entry_method == ENTRY_METHODS['fasta']: | |
st.file_uploader( | |
label='Upload a fasta file:', | |
key='fasta_entry', | |
disabled=st.session_state.transcripts is not None | |
) | |
# let's go! | |
st.button(label='Get predictions!', on_click=initiate_run, disabled=st.session_state.transcripts is not None) | |
progress = st.empty() | |
# input error | |
error = st.empty() | |
if st.session_state.input_error is not None: | |
error.error(st.session_state.input_error, icon="🚨") | |
else: | |
error.empty() | |
# on-target results | |
on_target_results = st.empty() | |
if st.session_state.on_target is not None: | |
with on_target_results.container(): | |
st.write('On-target predictions:', st.session_state.on_target) | |
st.download_button( | |
label='Download on-target predictions', | |
data=convert_df(st.session_state.on_target), | |
file_name='on_target.csv', | |
mime='text/csv' | |
) | |
else: | |
on_target_results.empty() | |
# titration results | |
titration_results = st.empty() | |
if st.session_state.titration is not None: | |
with titration_results.container(): | |
st.write('Titration predictions:', st.session_state.titration) | |
st.download_button( | |
label='Download titration predictions', | |
data=convert_df(st.session_state.titration), | |
file_name='titration.csv', | |
mime='text/csv' | |
) | |
else: | |
titration_results.empty() | |
# off-target results | |
off_target_results = st.empty() | |
if st.session_state.off_target is not None: | |
with off_target_results.container(): | |
if len(st.session_state.off_target) > 0: | |
st.write('Off-target predictions:', st.session_state.off_target) | |
st.download_button( | |
label='Download off-target predictions', | |
data=convert_df(st.session_state.off_target), | |
file_name='off_target.csv', | |
mime='text/csv' | |
) | |
else: | |
st.write('We did not find any off-target effects!') | |
else: | |
off_target_results.empty() | |
# keep trying to run model until we clear inputs (streamlit UI changes can induce race-condition reruns) | |
if st.session_state.transcripts is not None: | |
st.session_state.on_target, st.session_state.titration, st.session_state.off_target = tiger.tiger_exhibit( | |
transcripts=st.session_state.transcripts, | |
mode={v: k for k, v in tiger.RUN_MODES.items()}[st.session_state.mode], | |
check_off_targets=st.session_state.check_off_targets, | |
status_update_fn=progress_update | |
) | |
st.session_state.transcripts = None | |
st.experimental_rerun() | |