Mercurial > repos > galaxyp > mqppep_preproc
view search_ppep.py @ 2:a5e7469dfdfa draft
planemo upload for repository https://github.com/galaxyproteomics/tools-galaxyp/tree/master/tools/mqppep commit 423304b26e63d23cd8e5fb4c2fb729c5beea1254
| author | galaxyp |
|---|---|
| date | Mon, 12 Dec 2022 22:01:21 +0000 |
| parents | b76c75521d91 |
| children |
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#!/usr/bin/env python # Search and memoize phosphopeptides in Swiss-Prot SQLite table UniProtKB import argparse import os.path import re import sqlite3 import sys # import the sys module for exc_info import time import traceback # import the traceback module for format_exception from codecs import getreader as cx_getreader # For Aho-Corasick search for fixed set of substrings # - add_word # - make_automaton # - iter import ahocorasick # ref: https://stackoverflow.com/a/8915613/15509512 # answers: "How to handle exceptions in a list comprehensions" # usage: # from math import log # eggs = [1,3,0,3,2] # print([x for x in [catch(log, egg) for egg in eggs] if x is not None]) # producing: # for <built-in function log> # with args (0,) # exception: math domain error # [0.0, 1.0986122886681098, 1.0986122886681098, 0.6931471805599453] def catch(func, *args, handle=lambda e: e, **kwargs): try: return func(*args, **kwargs) except Exception as e: print("For %s" % str(func)) print(" with args %s" % str(args)) print(" caught exception: %s" % str(e)) (ty, va, tb) = sys.exc_info() print(" stack trace: " + str(traceback.format_exception(ty, va, tb))) # exit(-1) return None # was handle(e) def __main__(): DROP_TABLES_SQL = """ DROP VIEW IF EXISTS ppep_gene_site_view; DROP VIEW IF EXISTS uniprot_view; DROP VIEW IF EXISTS uniprotkb_pep_ppep_view; DROP VIEW IF EXISTS ppep_intensity_view; DROP VIEW IF EXISTS ppep_metadata_view; DROP TABLE IF EXISTS sample; DROP TABLE IF EXISTS ppep; DROP TABLE IF EXISTS site_type; DROP TABLE IF EXISTS deppep_UniProtKB; DROP TABLE IF EXISTS deppep; DROP TABLE IF EXISTS ppep_gene_site; DROP TABLE IF EXISTS ppep_metadata; DROP TABLE IF EXISTS ppep_intensity; """ CREATE_TABLES_SQL = """ CREATE TABLE deppep ( id INTEGER PRIMARY KEY , seq TEXT UNIQUE ON CONFLICT IGNORE ) ; CREATE TABLE deppep_UniProtKB ( deppep_id INTEGER REFERENCES deppep(id) ON DELETE CASCADE , UniProtKB_id TEXT REFERENCES UniProtKB(id) ON DELETE CASCADE , pos_start INTEGER , pos_end INTEGER , PRIMARY KEY (deppep_id, UniProtKB_id, pos_start, pos_end) ON CONFLICT IGNORE ) ; CREATE TABLE ppep ( id INTEGER PRIMARY KEY , deppep_id INTEGER REFERENCES deppep(id) ON DELETE CASCADE , seq TEXT UNIQUE ON CONFLICT IGNORE , scrubbed TEXT ); CREATE TABLE site_type ( id INTEGER PRIMARY KEY , type_name TEXT UNIQUE ON CONFLICT IGNORE ); CREATE INDEX idx_ppep_scrubbed on ppep(scrubbed) ; CREATE TABLE sample ( id INTEGER PRIMARY KEY , name TEXT UNIQUE ON CONFLICT IGNORE ) ; CREATE VIEW uniprot_view AS SELECT DISTINCT Uniprot_ID , Description , Organism_Name , Organism_ID , Gene_Name , PE , SV , Sequence , Description || CASE WHEN Organism_Name = 'N/A' THEN '' ELSE ' OS='|| Organism_Name END || CASE WHEN Organism_ID = -1 THEN '' ELSE ' OX='|| Organism_ID END || CASE WHEN Gene_Name = 'N/A' THEN '' ELSE ' GN='|| Gene_Name END || CASE WHEN PE = 'N/A' THEN '' ELSE ' PE='|| PE END || CASE WHEN SV = 'N/A' THEN '' ELSE ' SV='|| SV END AS long_description , Database FROM UniProtKB ; CREATE VIEW uniprotkb_pep_ppep_view AS SELECT deppep_UniProtKB.UniprotKB_ID AS accession , deppep_UniProtKB.pos_start AS pos_start , deppep_UniProtKB.pos_end AS pos_end , deppep.seq AS peptide , ppep.seq AS phosphopeptide , ppep.scrubbed AS scrubbed , uniprot_view.Sequence AS sequence , uniprot_view.Description AS description , uniprot_view.long_description AS long_description , ppep.id AS ppep_id FROM ppep, deppep, deppep_UniProtKB, uniprot_view WHERE deppep.id = ppep.deppep_id AND deppep.id = deppep_UniProtKB.deppep_id AND deppep_UniProtKB.UniprotKB_ID = uniprot_view.Uniprot_ID ORDER BY UniprotKB_ID, deppep.seq, ppep.seq ; CREATE TABLE ppep_gene_site ( ppep_id INTEGER REFERENCES ppep(id) , gene_names TEXT , site_type_id INTEGER REFERENCES site_type(id) , kinase_map TEXT , PRIMARY KEY (ppep_id, kinase_map) ON CONFLICT IGNORE ) ; CREATE VIEW ppep_gene_site_view AS SELECT DISTINCT ppep.seq AS phospho_peptide , ppep_id , gene_names , type_name , kinase_map FROM ppep, ppep_gene_site, site_type WHERE ppep_gene_site.ppep_id = ppep.id AND ppep_gene_site.site_type_id = site_type.id ORDER BY ppep.seq ; CREATE TABLE ppep_metadata ( ppep_id INTEGER REFERENCES ppep(id) , protein_description TEXT , gene_name TEXT , FASTA_name TEXT , phospho_sites TEXT , motifs_unique TEXT , accessions TEXT , motifs_all_members TEXT , domain TEXT , ON_FUNCTION TEXT , ON_PROCESS TEXT , ON_PROT_INTERACT TEXT , ON_OTHER_INTERACT TEXT , notes TEXT , PRIMARY KEY (ppep_id) ON CONFLICT IGNORE ) ; CREATE VIEW ppep_metadata_view AS SELECT DISTINCT ppep.seq AS phospho_peptide , protein_description , gene_name , FASTA_name , phospho_sites , motifs_unique , accessions , motifs_all_members , domain , ON_FUNCTION , ON_PROCESS , ON_PROT_INTERACT , ON_OTHER_INTERACT , notes FROM ppep, ppep_metadata WHERE ppep_metadata.ppep_id = ppep.id ORDER BY ppep.seq ; CREATE TABLE ppep_intensity ( ppep_id INTEGER REFERENCES ppep(id) , sample_id INTEGER , intensity INTEGER , PRIMARY KEY (ppep_id, sample_id) ON CONFLICT IGNORE ) ; CREATE VIEW ppep_intensity_view AS SELECT DISTINCT ppep.seq AS phospho_peptide , sample.name AS sample , intensity FROM ppep, sample, ppep_intensity WHERE ppep_intensity.sample_id = sample.id AND ppep_intensity.ppep_id = ppep.id ; """ UNIPROT_SEQ_AND_ID_SQL = """ select Sequence, Uniprot_ID from UniProtKB """ # Parse Command Line parser = argparse.ArgumentParser( description=" ".join([ "Phopsphoproteomic Enrichment", "phosphopeptide SwissProt search (in place in SQLite DB)." ]) ) # inputs: # Phosphopeptide data for experimental results, including the intensities # and the mapping to kinase domains, in tabular format. parser.add_argument( "--phosphopeptides", "-p", nargs=1, required=True, dest="phosphopeptides", help=" ".join([ "Phosphopeptide data for experimental results,", "generated by the Phopsphoproteomic Enrichment Localization", "Filter tool" ]), ) parser.add_argument( "--uniprotkb", "-u", nargs=1, required=True, dest="uniprotkb", help=" ".join([ "UniProtKB/Swiss-Prot data, converted from FASTA format by the", "Phopsphoproteomic Enrichment Kinase Mapping tool" ]), ) parser.add_argument( "--schema", action="store_true", dest="db_schema", help="show updated database schema", ) parser.add_argument( "--warn-duplicates", action="store_true", dest="warn_duplicates", help="show warnings for duplicated sequences", ) parser.add_argument( "--verbose", action="store_true", dest="verbose", help="show somewhat verbose program tracing", ) # "Make it so!" (parse the arguments) options = parser.parse_args() if options.verbose: print("options: " + str(options) + "\n") # path to phosphopeptide (e.g., "outputfile_STEP2.txt") input tabular file if options.phosphopeptides is None: exit('Argument "phosphopeptides" is required but not supplied') try: f_name = os.path.abspath(options.phosphopeptides[0]) except Exception as e: exit("Error parsing phosphopeptides argument: %s" % (e)) # path to SQLite input/output tabular file if options.uniprotkb is None: exit('Argument "uniprotkb" is required but not supplied') try: db_name = os.path.abspath(options.uniprotkb[0]) except Exception as e: exit("Error parsing uniprotkb argument: %s" % (e)) # print("options.schema is %d" % options.db_schema) # db_name = "demo/test.sqlite" # f_name = "demo/test_input.txt" con = sqlite3.connect(db_name) cur = con.cursor() ker = con.cursor() cur.executescript(DROP_TABLES_SQL) # if options.db_schema: # print("\nAfter dropping tables/views that are to be created," # + schema is:") # cur.execute("SELECT * FROM sqlite_schema") # for row in cur.fetchall(): # if row[4] is not None: # print("%s;" % row[4]) cur.executescript(CREATE_TABLES_SQL) if options.db_schema: print( "\nAfter creating tables/views that are to be created, schema is:" ) cur.execute("SELECT * FROM sqlite_schema") for row in cur.fetchall(): if row[4] is not None: print("%s;" % row[4]) def generate_ppep(f): # get keys from upstream tabular file using readline() # ref: https://stackoverflow.com/a/16713581/15509512 # answer to "Use codecs to read file with correct encoding" file1_encoded = open(f, "rb") file1 = cx_getreader("latin-1")(file1_encoded) count = 0 re_tab = re.compile("^[^\t]*") re_quote = re.compile('"') while True: count += 1 # Get next line from file line = file1.readline() # if line is empty # end of file is reached if not line: break if count > 1: m = re_tab.match(line) m = re_quote.sub("", m[0]) yield m file1.close() file1_encoded.close() # Build an Aho-Corasick automaton from a trie # - ref: # - https://pypi.org/project/pyahocorasick/ # - https://en.wikipedia.org/wiki/Aho%E2%80%93Corasick_algorithm # - https://en.wikipedia.org/wiki/Trie auto = ahocorasick.Automaton() re_phos = re.compile("p") # scrub out unsearchable characters per section # "Match the p_peptides to the @sequences array:" # of the original # PhosphoPeptide Upstream Kinase Mapping.pl # which originally read # $tmp_p_peptide =~ s/#//g; # $tmp_p_peptide =~ s/\d//g; # $tmp_p_peptide =~ s/\_//g; # $tmp_p_peptide =~ s/\.//g; # re_scrub = re.compile("0-9_.#") ppep_count = 0 for ppep in generate_ppep(f_name): ppep_count += 1 add_to_trie = False # print(ppep) scrubbed = re_scrub.sub("", ppep) deppep = re_phos.sub("", scrubbed) if options.verbose: print("deppep: %s; scrubbed: %s" % (deppep, scrubbed)) # print(deppep) cur.execute("SELECT id FROM deppep WHERE seq = (?)", (deppep,)) if cur.fetchone() is None: add_to_trie = True cur.execute("INSERT INTO deppep(seq) VALUES (?)", (deppep,)) cur.execute("SELECT id FROM deppep WHERE seq = (?)", (deppep,)) deppep_id = cur.fetchone()[0] if add_to_trie: # print((deppep_id, deppep)) # Build the trie auto.add_word(deppep, (deppep_id, deppep)) cur.execute( "INSERT INTO ppep(seq, scrubbed, deppep_id) VALUES (?,?,?)", (ppep, scrubbed, deppep_id), ) # def generate_deppep(): # cur.execute("SELECT seq FROM deppep") # for row in cur.fetchall(): # yield row[0] cur.execute("SELECT count(*) FROM (SELECT seq FROM deppep GROUP BY seq)") for row in cur.fetchall(): deppep_count = row[0] cur.execute( """ SELECT count(*) FROM ( SELECT Sequence FROM UniProtKB GROUP BY Sequence ) """ ) for row in cur.fetchall(): sequence_count = row[0] print("%d phosphopeptides were read from input" % ppep_count) print( "%d corresponding dephosphopeptides are represented in input" % deppep_count ) # Look for cases where both Gene_Name and Sequence are identical cur.execute( """ SELECT Uniprot_ID, Gene_Name, Sequence FROM UniProtKB WHERE Sequence IN ( SELECT Sequence FROM UniProtKB GROUP BY Sequence, Gene_Name HAVING count(*) > 1 ) ORDER BY Sequence """ ) duplicate_count = 0 old_seq = "" for row in cur.fetchall(): if duplicate_count == 0: print(" ".join([ "\nEach of the following sequences is associated with several", "accession IDs (which are listed in the first column) but", "the same gene ID (which is listed in the second column)." ])) if row[2] != old_seq: old_seq = row[2] duplicate_count += 1 if options.warn_duplicates: print("\n%s\t%s\t%s" % row) else: if options.warn_duplicates: print("%s\t%s" % (row[0], row[1])) if duplicate_count > 0: print( "\n%d sequences have duplicated accession IDs\n" % duplicate_count ) print("%s accession sequences will be searched\n" % sequence_count) # print(auto.dump()) # Convert the trie to an automaton (a finite-state machine) auto.make_automaton() # Execute query for seqs and metadata without fetching the results yet uniprot_seq_and_id = cur.execute(UNIPROT_SEQ_AND_ID_SQL) while 1: batch = uniprot_seq_and_id.fetchmany(size=50) if not batch: break for Sequence, UniProtKB_id in batch: if Sequence is not None: for end_index, (insert_order, original_value) in auto.iter( Sequence ): ker.execute( """ INSERT INTO deppep_UniProtKB (deppep_id,UniProtKB_id,pos_start,pos_end) VALUES (?,?,?,?) """, ( insert_order, UniProtKB_id, 1 + end_index - len(original_value), end_index, ), ) else: raise ValueError( "UniProtKB_id %s, but Sequence is None: %s %s" % ( UniProtKB_id, "Check whether SwissProt file is missing", "the sequence for this ID") ) ker.execute( """ SELECT count(*) || ' accession-peptide-phosphopeptide combinations were found' FROM uniprotkb_pep_ppep_view """ ) for row in ker.fetchall(): print(row[0]) ker.execute( """ SELECT count(*) || ' accession matches were found', count(*) AS accession_count FROM ( SELECT accession FROM uniprotkb_pep_ppep_view GROUP BY accession ) """ ) for row in ker.fetchall(): print(row[0]) ker.execute( """ SELECT count(*) || ' peptide matches were found' FROM ( SELECT peptide FROM uniprotkb_pep_ppep_view GROUP BY peptide ) """ ) for row in ker.fetchall(): print(row[0]) ker.execute( """ SELECT count(*) || ' phosphopeptide matches were found', count(*) AS phosphopeptide_count FROM ( SELECT phosphopeptide FROM uniprotkb_pep_ppep_view GROUP BY phosphopeptide ) """ ) for row in ker.fetchall(): print(row[0]) # link peptides not found in sequence database to a dummy sequence-record ker.execute( """ INSERT INTO deppep_UniProtKB(deppep_id,UniProtKB_id,pos_start,pos_end) SELECT id, 'No Uniprot_ID', 0, 0 FROM deppep WHERE id NOT IN (SELECT deppep_id FROM deppep_UniProtKB) """ ) con.commit() ker.execute("vacuum") con.close() if __name__ == "__main__": wrap_start_time = time.perf_counter() __main__() wrap_stop_time = time.perf_counter() # print(wrap_start_time) # print(wrap_stop_time) print( "\nThe matching process took %d milliseconds to run.\n" % ((wrap_stop_time - wrap_start_time) * 1000), ) # vim: sw=4 ts=4 et ai :