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sqanti3_rescue.py
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sqanti3_rescue.py
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#!/usr/bin/env python3
__author__ = "[email protected]"
__version__ = '5.3.0'
###################################################
########## SQANTI3 RESCUE WRAPPER ##########
###################################################
#### PREPARATION ####
## Module import
import os, sys, argparse, subprocess
import distutils.spawn
import pandas as pd
## Set general path variables
Rscript_path = distutils.spawn.find_executable('Rscript')
gffread_path = distutils.spawn.find_executable('gffread')
python_path = distutils.spawn.find_executable('python')
utilities_path = os.path.join(os.path.dirname(os.path.realpath(__file__)), "utilities")
## Set path variables to call R scripts
automatic_rescue_path = "rescue/automatic_rescue.R"
run_randomforest_path = "rescue/run_randomforest_on_reference.R"
rescue_by_mapping_ML_path = "rescue/rescue_by_mapping_ML.R"
rescue_by_mapping_rules_path = "rescue/rescue_by_mapping_rules.R"
## Set path variables to call SQ3 scripts
filter_path = os.path.join(os.path.dirname(os.path.realpath(__file__)), "sqanti3_filter.py")
## Check that Rscript is working
if os.system(Rscript_path + " --version") != 0:
print("Rscript executable not found. Abort!", file = sys.stderr)
sys.exit(-1)
## Check that gffread is working
if os.system(gffread_path + " --version") != 0:
print("Cannot find gffread executable. Abort!", file = sys.stderr)
#### DEFINE FUNCTIONS ####
## Run automatic rescue
def run_automatic_rescue(args):
## prepare to run script
# define Rscript command with automatic_rescue.R args
auto_cmd = Rscript_path + " {u}/{s} -c {c} -o {o} -d {d} -u {u} \
-g {g} -e {e} -m {m}".format(u = utilities_path, s = automatic_rescue_path, \
c = args.sqanti_filter_classif, o = args.output, d = args.dir, \
g = args.refGTF, e = args.rescue_mono_exonic, m = args.mode)
# print command
print("\nAutomatic rescue run via the following command:\n")
print(auto_cmd + "\n")
## run automatic rescue script via terminal
if subprocess.check_call(auto_cmd, shell = True) != 0:
print("ERROR running automatic rescue: {0}".format(auto_cmd), file = sys.stderr)
sys.exit()
## load output: transcripts rescued as a result of automatic rescue
# make file name
automatic_rescued_list = args.dir + "/" + args.output + "_automatic_rescued_list.tsv"
# set object containing rescued list from the output file
auto_rescue = set(line.strip() for line in open(automatic_rescued_list))
## return automatic rescue outputs
return(auto_rescue)
## Run mapping of rescue candidates (artifacts) to targets
def run_candidate_mapping(args):
#### PREPARATION OF FILES FOR MINIMAP2 ####
print("\n-------------------------------------------------------\n")
print("\n\tPREPARATION OF FILES FOR ARTIFACT MAPPING:\n")
print("\n-------------------------------------------------------\n")
## Convert reference transcriptome GTF to FASTA
print("\nCreating reference transcriptome FASTA from provided GTF (--refGTF)...\n")
# make FASTA file name
pre, ext = os.path.splitext(os.path.basename(args.refGTF))
refFASTA = args.dir + "/" + pre + ".fasta"
# build gffread command
ref_cmd = "gffread -w {w} -g {g} {a}".format(w = refFASTA, g = args.refGenome, \
a = args.refGTF)
# run gffread
if subprocess.check_call(ref_cmd, shell = True) != 0:
print("ERROR converting reference transcriptome GTF to FASTA: {0}".format(ref_cmd), \
file = sys.stderr)
sys.exit(1)
elif os.path.isfile(refFASTA):
print("\nReference transcriptome FASTA was saved to ", refFASTA, "\n")
print("\n\tgffread command used:\n")
print(ref_cmd, "\n")
else:
print("ERROR: reference transcriptome FASTA was not created -file not found!", \
file = sys.stderr)
sys.exit(1)
## Filter reference transcriptome FASTA to only include target ref transcripts
print("\nFiltering reference transcriptome FASTA to only rescue targets...\n")
# make file names
target_file = args.dir + "/" + args.output + "_rescue_targets.tsv"
ref_target_fasta = args.dir + "/" + args.output + "_rescue_targets.ref.fasta"
# make command
fasta_cmd = "seqtk subseq {i} {t} > {f}".format(i = refFASTA, \
t = target_file, f = ref_target_fasta)
# run
if subprocess.check_call(fasta_cmd, shell = True) != 0:
print("ERROR retrieving target reference transcripts from FASTA: {0}".format(fasta_cmd), \
file = sys.stderr)
sys.exit(1)
elif os.path.isfile(ref_target_fasta):
print("\nTarget reference transcript sequences were saved to ", refFASTA, "\n")
print("\n\tseqtk command used:\n")
print(fasta_cmd, "\n")
else:
print("ERROR: target reference transcript FASTA was not created -file not found!", \
file = sys.stderr)
sys.exit(1)
## Filter SQ3 transcriptome FASTA to only include target LR transcripts
print("\nFiltering supplied long read transcriptome FASTA (--isoforms) to only include rescue targets...\n")
# make file names
LR_target_fasta = args.dir + "/" + args.output + "_rescue_targets.LR.fasta"
# make command
fasta_cmd = "seqtk subseq {i} {t} > {f}".format(i = args.isoforms, \
t = target_file, f = LR_target_fasta)
# run
if subprocess.check_call(fasta_cmd, shell = True) != 0:
print("ERROR retrieving target long-read transcripts from FASTA: {0}".format(fasta_cmd), \
file = sys.stderr)
sys.exit(1)
elif os.path.isfile(LR_target_fasta):
print("\nTarget long read transcript sequences were saved to ", refFASTA, "\n")
print("\n\tseqtk command used:\n")
print(fasta_cmd, "\n")
else:
print("ERROR: target long read transcript FASTA was not created -file not found!", \
file = sys.stderr)
sys.exit(1)
## join both FASTA files
print("\nJoining reference and LR rescue target FASTA files...\n")
target_fasta = args.dir + "/" + args.output + "_rescue_targets.fasta"
cat_cmd = "cat {r} {l} > {f}".format(r = ref_target_fasta, l = LR_target_fasta, \
f = target_fasta)
if subprocess.check_call(cat_cmd, shell = True) != 0:
print("ERROR joining target long-read and reference FASTA files: {}".format(cat_cmd), \
file = sys.stderr)
sys.exit(1)
elif os.path.isfile(target_fasta):
print("\nRescue target FASTA was saved to ", target_fasta, "\n")
print("\nCommand used:")
print(cat_cmd, "\n")
## remove intermediate target FASTA files (LR and ref)
print("\nRemoving intermediate target FASTA files...\n")
rm_cmd = "rm {r} {l}".format(r = ref_target_fasta, l = LR_target_fasta)
subprocess.call(rm_cmd, shell = True)
else:
print("ERROR: target FASTA was not created -file not found!", file = sys.stderr)
sys.exit(1)
## Filter SQ3 FASTA to include rescue candidates
print("\nCreating rescue candidate FASTA from supplied long read transcriptome fasta (--isoforms)...\n ")
# make file names
candidate_file = args.dir + "/" + args.output + "_rescue_candidates.tsv"
candidate_fasta = args.dir + "/" + args.output + "_rescue_candidates.fasta"
# make command
fasta_cmd = "seqtk subseq {i} {t} > {f}".format(i = args.isoforms, \
t = candidate_file, f = candidate_fasta)
# run
if subprocess.check_call(fasta_cmd, shell = True) != 0:
print("ERROR retrieving rescue candidate sequences from FASTA: {0}".format(fasta_cmd), \
file = sys.stderr)
sys.exit(1)
elif os.path.isfile(candidate_fasta):
print("\nRescue candidate FASTA was saved to ", candidate_fasta, "\n")
print("\n\tseqtk command used:\n")
print(fasta_cmd, "\n")
else:
print("ERROR: candidate FASTA was not created -file not found!", file = sys.stderr)
sys.exit(1)
#### MAPPING ARTIFACTS (CANDIDATES) WITH MINIMAP2 ####
print("\n-------------------------------------------------------\n")
print("\n\tARTIFACT MAPPING (CANDIDATES VS TARGETS):\n")
print("\n-------------------------------------------------------\n")
## Mapping
print("\nMapping rescue candidates to rescue targets with minimap2...\n")
# make file names
sam_file = args.dir + "/" + args.output + "_mapped_rescue.sam"
# make command
minimap_cmd = "minimap2 --secondary=yes -ax map-hifi {t} {c} > {s}".format( \
t = target_fasta, c = candidate_fasta, s = sam_file)
# run
if subprocess.check_call(minimap_cmd, shell = True) != 0:
print("ERROR mapping rescue candidates to targets: {0}".format(minimap_cmd), \
file = sys.stderr)
sys.exit(1)
elif os.path.isfile(sam_file):
print("\nMinimap2 results were saved to ", sam_file, "\n")
print("\n\tminimap2 command used:\n")
print(minimap_cmd, "\n")
## Filter mapping results (select SAM columns)
print("\nBuilding candidate-target table of mapping hits...\n")
# remove header from SAM
sam_tmp_file = args.dir + "/" + args.output + "_mapped_rescue_noheader.sam"
sam_cmd = "grep -v '@' {s} > {t}".format(s = sam_file, t = sam_tmp_file)
if subprocess.check_call(sam_cmd, shell = True) != 0:
print("ERROR: could not create mapping hit table from SAM: {0}".format(sam_cmd), \
file = sys.stderr)
sys.exit(1)
elif os.path.isfile(sam_tmp_file):
# get cols with candidate-target pairs + alignment type
hits_file = args.dir + "/" + args.output + "_rescue_mapping_hits.tsv"
hits_cmd = "cut -f1-3 {t} > {h}".format(t = sam_tmp_file, h = hits_file)
if subprocess.check_call(hits_cmd, shell = True) != 0:
print("ERROR: could not create mapping hit table from SAM: {0}".format(hits_cmd), \
file = sys.stderr)
sys.exit(1)
elif os.path.isfile(hits_file):
print("\nMapping hit table was saved to ", hits_file, "\n")
# delete altered SAM file
rm_cmd = "rm {t}".format(t = sam_tmp_file)
subprocess.call(rm_cmd, shell = True)
## Run rescue steps specific to the ML filter
def run_ML_rescue(args):
## run pre-trained ML classifier on reference transcriptome
print("\nML rescue selected!\n")
print("\nRunning pre-trained random forest on reference transcriptome classification file...\n")
# define Rscript command with run_randomforest_on_reference.R args
refML_cmd = Rscript_path + " {u}/{s} -c {c} -o {o} -d {d} -r {r}".format( \
u = utilities_path, s = run_randomforest_path, \
c = args.refClassif, o = args.output, d = args.dir, \
r = args.randomforest)
# print command
print(refML_cmd + "\n")
# run R script via terminal
if subprocess.check_call(refML_cmd, shell = True) != 0:
print("ERROR running random forest classifier on reference transcriptome: {0}".format(refML_cmd), \
file = sys.stderr)
sys.exit(1)
else:
# make expected output file name
ref_isoform_predict = args.dir + "/" + args.output + "_reference_isoform_predict.tsv"
if os.path.isfile(ref_isoform_predict):
## run rescue-by-mapping
print("\nRunning rescue-by-mapping for ML filter...\n")
# input file name
mapping_hits = args.dir + "/" + args.output + "_rescue_mapping_hits.tsv"
# define Rscsript command with rescue_by_mapping_ML.R args
rescue_cmd = Rscript_path + " {u}/{s} -c {c} -o {o} -d {d} -u {u} -m {m} -r {r} -j {j}".format( \
u = utilities_path, s = rescue_by_mapping_ML_path, \
c = args.sqanti_filter_classif, o = args.output, d = args.dir, m = mapping_hits, \
r = ref_isoform_predict, j = args.threshold)
# expected output name
rescued_file = args.dir + "/" + args.output + "_rescue_inclusion-list.tsv"
# run R script via terminal
if subprocess.check_call(rescue_cmd, shell = True) != 0:
print("ERROR running rescue by mapping: {0}".format(rescue_cmd), \
file = sys.stderr)
sys.exit(1)
elif os.path.isfile(rescued_file):
# load output list of rescued transcripts
rescued_df = pd.read_table(rescued_file, header = None, \
names = ["transcript"])
rescued_list = list(rescued_df["transcript"])
# return rescued transcript list
return(rescued_list)
else:
print("ERROR: rescue inclusion list not created -file not found!", file = sys.stderr)
sys.exit(1)
else:
print("ERROR: reference isoform predictions not found!", file = sys.stderr)
sys.exit(1)
## Run rescue steps specific to rules filter
def run_rules_rescue(args):
## Run rules filter on reference transcriptome
print("\nRules rescue selected!\n")
print("\nApplying provided rules (--json) to reference transcriptome classification file...\n")
# create reference out prefix and dir
ref_out = "reference"
ref_dir = args.dir + "/reference_rules_filter"
# define command
refRules_cmd = python_path + " {f} rules {c} -j {j} \
-o {o} -d {d}".format(f = filter_path, c = args.refClassif, \
j = args.json, o = ref_out, d = ref_dir)
# print command
print(refRules_cmd + "\n")
# run on terminal
if subprocess.check_call(refRules_cmd, shell = True) != 0:
print("ERROR running rules filter on reference transcriptome: {0}".format(refRules_cmd), \
file = sys.stderr)
sys.exit(1)
else:
# make file names
ref_rules = args.dir + \
"/reference_rules_filter/reference_RulesFilter_result_classification.txt"
if os.path.isfile(ref_rules):
## run rescue-by-mapping
print("\nRunning rescue-by-mapping for rules filter...\n")
# input file name
mapping_hits = args.dir + "/" + args.output + "_rescue_mapping_hits.tsv"
# define Rscsript command with rescue_by_mapping_ML.R args
rescue_cmd = Rscript_path + " {u}/{s} -c {c} -o {o} -d {d} -u {u} -m {m} -r {r}".format( \
u = utilities_path, s = rescue_by_mapping_rules_path, \
c = args.sqanti_filter_classif, o = args.output, d = args.dir, \
m = mapping_hits, r = ref_rules)
# expected output name
rescued_file = args.dir + "/" + args.output + "_rescue_inclusion-list.tsv"
# run R script via terminal
if subprocess.check_call(rescue_cmd, shell = True) != 0:
print("ERROR running rescue by mapping: {0}".format(rescue-cmd), \
file = sys.stderr)
sys.exit(1)
elif os.path.isfile(rescued_file):
# load output list of rescued transcripts
rescued_df = pd.read_table(rescued_file, header = None, \
names = ["transcript"])
rescued_list = list(rescued_df["transcript"])
# return rescued transcript list
return(rescued_list)
else:
print("ERROR: rescue inclusion list not created -file not found!", file = sys.stderr)
sys.exit(1)
else:
print("ERROR: reference filter classification not found!", file = sys.stderr)
sys.exit(1)
#### MAIN ####
## Define main()
def main():
## Arguments and help
parser = argparse.ArgumentParser(description = "Rescue artifacts discarded by \
the SQANTI3 filter, i.e. find closest match for the artifacts in the reference \
transcriptome and add them to the transcriptome.")
## Common arguments
common = argparse.ArgumentParser(add_help = False)
common.add_argument("sqanti_filter_classif", \
help = "\t\tSQANTI filter (ML or rules) output classification file.")
common.add_argument("--isoforms", \
help = "\t\tFASTA file output by SQANTI3 QC (*_corrected.fasta), i.e. the full long read transcriptome.")
common.add_argument("--gtf", \
help = "\t\tGTF file output by SQANTI3 filter (*.filtered.gtf).")
common.add_argument("-g", "--refGTF", \
help = "\t\tFull path to reference transcriptome GTF used when running SQANTI3 QC.")
common.add_argument("-f", "--refGenome", \
help = "\t\tFull path to reference genome FASTA used when running SQANTI3 QC.")
common.add_argument("-k", "--refClassif", \
help = "Full path to the classification file obtained when running SQANTI3 QC on the reference transcriptome.")
common.add_argument("-e","--rescue_mono_exonic", \
choices = ['all', 'fsm', 'none'], default = "all", \
help='\t\tWhether or not to include mono-exonic artifacts in the rescue. Options include: none, fsm and all (default).')
common.add_argument("--mode", \
choices = ["automatic", "full"], default = "automatic", \
help = "\t\tIf 'automatic' (default), only automatic rescue of FSM artifacts will be performed. If 'full', rescue will include mapping of ISM, NNC and NIC artifacts to find potential replacement isoforms.")
common.add_argument("-o","--output", \
help = "\t\tPrefix for output files.", required = False)
common.add_argument("-d","--dir", \
help = "\t\tDirectory for output files. Default: Directory where the script was run.", \
required = False)
common.add_argument("-v", "--version", help="Display program version number.", \
action='version', version='SQANTI3 '+str(__version__))
subparsers = parser.add_subparsers(dest = 'subcommand')
## ML rescue arguments
ml = subparsers.add_parser("ml", parents = [common], \
description = "Rescue for ML-filtered transcriptomes.")
ml.add_argument("-r", "--randomforest", \
help = "Full path to the randomforest.RData object obtained when running the SQANTI3 ML filter.")
ml.add_argument("-j", "--threshold", type = float, default = 0.7, \
help = "Default: 0.7. Machine learning probability threshold to filter elegible rescue targets (mapping hits).")
## Rules rescue arguments
rules = subparsers.add_parser("rules", parents = [common], \
description = "Rescue for rules-filtered transcriptomes.")
rules.add_argument("-j", "--json", \
help = "Full path to the JSON file including the rules used when running the SQANTI3 rules filter.")
# parse arguments
args = parser.parse_args()
## Check that common arguments are valid
args.sqanti_filter_classif = os.path.abspath(args.sqanti_filter_classif)
if not os.path.isfile(args.sqanti_filter_classif):
print("ERROR: {0} doesn't exist. Abort!".format(args.sqanti_filter_classif), file=sys.stderr)
sys.exit(-1)
if not os.path.isfile(args.isoforms):
print("ERROR: {0} doesn't exist. Abort!".format(args.isoforms), file=sys.stderr)
sys.exit(-1)
if not os.path.isfile(args.gtf):
print("ERROR: {0} doesn't exist. Abort!".format(args.gtf), file=sys.stderr)
sys.exit(-1)
if not os.path.isfile(args.refGTF):
print("ERROR: {0} doesn't exist. Abort!".format(args.refGTF), file=sys.stderr)
sys.exit(-1)
if not os.path.isfile(args.refGenome):
print("ERROR: {0} doesn't exist. Abort!".format(args.refGenome), file=sys.stderr)
sys.exit(-1)
if not os.path.isfile(args.refClassif):
print("ERROR: {0} doesn't exist. Abort!".format(args.refClassif), file=sys.stderr)
sys.exit(-1)
## Define output dir and output name in case it was not defined
if args.dir is None:
args.dir=os.path.dirname(args.sqanti_filter_classif)
print("Output directory not defined. All the outputs will be stored at {0} directory".format(args.dir), file=sys.stderr)
else:
if not os.path.exists(args.dir):
os.makedirs(args.dir)
if args.output is None:
args.output=args.sqanti_filter_classif[args.sqanti_filter_classif.rfind("/")+1:args.sqanti_filter_classif("_classification.txt")]
print("Output name not defined. All the outputs will have the prefix {0}".format(args.output), file=sys.stderr)
## Check that ML-specific args are valid
if args.subcommand == "ml":
if not os.path.isfile(args.randomforest):
print("ERROR: {0} doesn't exist. Abort!".format(args.randomforest), file=sys.stderr)
sys.exit(-1)
if args.threshold < 0 or args.threshold > 1.:
print("ERROR: --threshold must be between 0-1, value of {0} was supplied. Abort!".format(args.threshold), file=sys.stderr)
sys.exit(-1)
## Check that rules-specific args are valid
if args.subcommand == "rules":
if not os.path.isfile(args.json):
print("ERROR: {0} doesn't exist. Abort!".format(args.json), file=sys.stderr)
sys.exit(-1)
#### RUN AUTOMATIC RESCUE ####
# this part is run for both rules and ML and if all arg tests passed
auto_result = run_automatic_rescue(args)
### RUN FULL RESCUE (IF REQUESTED) ###
if args.mode == "full":
#### RUN MAPPING
# when in full mode, rescue maps candidates not included in the
# automatic rescue (ISM, NIC, NNC) to long-read and reference
# isoforms passing the filter (targets)
run_candidate_mapping(args)
#### RUN ML FILTER RESCUE ####
# this part combines reference ML filter run with mapping results
# and is therefore run only for ML filter
if args.subcommand == "ml":
print("\n-------------------------------------------------------\n")
print("\n\tRESCUE-BY-MAPPING FOR ML FILTER:\n")
print("\n-------------------------------------------------------\n")
# run ML-specific steps of rescue
rescued = run_ML_rescue(args)
#### RUN RULES FILTER RESCUE ####
# this part runs SQ3 rules filter for the reference transcriptome
# and combines the results with the mapping hits obtained in the previous step
if args.subcommand == "rules":
print("\n-------------------------------------------------------\n")
print("\n\tRESCUE-BY-MAPPING FOR RULES FILTER:\n")
print("\n-------------------------------------------------------\n")
# run rules-specific steps of rescue
rescued = run_rules_rescue(args)
# Finish print if output exists (same for rules and ML) ####
inclusion_list = args.dir + "/" + args.output + "_rescue_inclusion-list.tsv"
if os.path.isfile(inclusion_list):
print("\nFinal rescued transcript list witten to file: " + inclusion_list + "\n")
### End of condition (mode == "full")
#### WRITE FINAL OUPTUTS OF RESCUE ####
# Create new GTF including rescued transcripts #
print("\nAdding rescued transcripts to provided SQ3 filtered GTF...\n")
# create file names
tmp_gtf = args.dir + "/rescued_only_tmp.gtf"
output_gtf = args.dir + "/" + args.output + "_rescued.gtf"
# condition: inclusion list file only produced for mode = full
# in mode = automatic, it is replaced by automatic rescue list
if args.mode == "full":
rescued_list = args.dir + "/" + args.output + "_rescue_inclusion-list.tsv"
else:
rescued_list = args.dir + "/" + args.output + "_automatic_rescued_list.tsv"
# filter reference GTF to create tmp_gtf
gtf_cmd = "gffread --ids {i} -T -o {o} {g}".format(i = rescued_list, o = tmp_gtf, \
g = args.refGTF)
if subprocess.check_call(gtf_cmd, shell = True) != 0:
print("ERROR creating rescued transcript GTF: {0}".format(gtf_cmd), \
file = sys.stderr)
sys.exit(1)
else:
# concatenate with filtered GTF
cat_cmd = "cat {g} {t} > {o}".format(g = args.gtf, t = tmp_gtf, \
o = output_gtf)
if subprocess.check_call(cat_cmd, shell = True) != 0:
print("ERROR adding rescued transcripts to supplied filtered GTF: {0}".format(cat_cmd), \
file = sys.stderr)
sys.exit(1)
else:
print("\nAdded rescued reference transcripts to provided GTF (" + args.gtf + ")\n")
print("\nFinal output GTF written to file: " + output_gtf + "\n")
# remove tmp_gtf
rm_cmd = "rm " + tmp_gtf
subprocess.call(rm_cmd, shell = True)
## END ##
print("\nRescue finished successfully!\n")
## Run main()
if __name__ == "__main__":
main()