# # = lib/evo/io/parser/hmmscan_domain_extractor.rb - HmmscanMultiDomainExtractor class # # Copyright:: Copyright (C) 2017 Christian M. Zmasek # License:: GNU Lesser General Public License (LGPL) # # Last modified: 2017/02/20 require 'lib/evo/util/constants' require 'lib/evo/msa/msa_factory' require 'lib/evo/io/msa_io' require 'lib/evo/io/writer/fasta_writer' require 'lib/evo/io/parser/fasta_parser' require 'lib/evo/io/parser/hmmscan_parser' module Evoruby class HmmscanMultiDomainExtractor OUTPUT_ID = 'mdsx' DOMAIN_DELIMITER = ' -- ' PASSING_FL_SEQS_SUFFIX = "_#{OUTPUT_ID}_passing_full_length_seqs.fasta" FAILING_FL_SEQS_SUFFIX = "_#{OUTPUT_ID}_failing_full_length_seqs.fasta" TARGET_DA_SUFFIX = "_#{OUTPUT_ID}_target_da.fasta" CONCAT_TARGET_DOM_SUFFIX = "_#{OUTPUT_ID}_concat_target_dom.fasta" TARGET_DOM_OUTPUT_MIDPART = "_#{OUTPUT_ID}_target_dom_" def initialize @passing_domains_data = nil @failing_domains_data = nil @failing_domain_architectures = nil @passsing_domain_architectures = nil @failing_proteins_bc_not_all_target_doms_present = nil @failing_proteins_bc_missing_cutoffs = nil end # raises ArgumentError, IOError, StandardError def parse( target_da, hmmscan_output, fasta_sequence_file, outfile_base, log_str ) passing_fl_seqs_outfile = outfile_base + PASSING_FL_SEQS_SUFFIX failing_fl_seqs_outfile = outfile_base + FAILING_FL_SEQS_SUFFIX target_da_outfile = outfile_base + TARGET_DA_SUFFIX concat_target_dom_outfile = outfile_base + CONCAT_TARGET_DOM_SUFFIX Util.check_file_for_readability( hmmscan_output ) Util.check_file_for_readability( fasta_sequence_file ) Util.check_file_for_writability( passing_fl_seqs_outfile ) Util.check_file_for_writability( failing_fl_seqs_outfile ) Util.check_file_for_writability( target_da_outfile ) Util.check_file_for_writability( concat_target_dom_outfile ) in_msa = nil factory = MsaFactory.new() in_msa = factory.create_msa_from_file( fasta_sequence_file, FastaParser.new() ) if ( in_msa == nil || in_msa.get_number_of_seqs() < 1 ) error_msg = "could not find fasta sequences in " + fasta_sequence_file raise IOError, error_msg end failed_seqs_msa = Msa.new passed_seqs_msa = Msa.new ld = Constants::LINE_DELIMITER hmmscan_parser = HmmscanParser.new( hmmscan_output ) results = hmmscan_parser.parse #### # Import: if multiple copies of same domain, thresholds need to be same! target_domain_ary = Array.new #target_domain_ary.push(TargetDomain.new('DNA_pol_B_exo1', 1e-6, -1, 0.6, 0 )) #target_domain_ary.push(TargetDomain.new('DNA_pol_B', 1e-6, -1, 0.6, 1 )) #target_domain_ary.push(TargetDomain.new('Hexokinase_1', 1e-6, -1, 0.9, 0 )) #target_domain_ary.push(TargetDomain.new('Hexokinase_2', 1e-6, -1, 0.9, 1 )) # target_domain_ary.push(TargetDomain.new('Hexokinase_2', 0.1, -1, 0.5, 1 )) # target_domain_ary.push(TargetDomain.new('Hexokinase_1', 0.1, -1, 0.5, 1 )) target_domain_ary.push(TargetDomain.new('BH4', 1, -1, 0.2, 0 )) target_domain_ary.push(TargetDomain.new('Bcl-2', 1, -1, 0.2, 1 )) target_domain_ary.push(TargetDomain.new('Bcl-2', 1, -1, 0.2, 2 )) # target_domain_ary.push(TargetDomain.new('Bcl-2_3', 0.01, -1, 0.5, 2 )) # target_domain_ary.push(TargetDomain.new('Nitrate_red_del', 1000, -1, 0.1, 0 )) # target_domain_ary.push(TargetDomain.new('Nitrate_red_del', 1000, -1, 0.1, 1 )) #target_domain_ary.push(TargetDomain.new('Chordopox_A33R', 1000, -1, 0.1 )) target_domains = Hash.new target_domain_architecure = "" target_domain_ary.each do |target_domain| target_domains[target_domain.name] = target_domain if target_domain_architecure.length > 0 target_domain_architecure += DOMAIN_DELIMITER end target_domain_architecure += target_domain.name end target_domain_architecure.freeze puts 'Target domain architecture: ' + target_domain_architecure target_domain_names = Set.new target_domains.each_key {|key| target_domain_names.add( key ) } prev_query_seq_name = nil domains_in_query_seq = Array.new passing_sequences = Array.new # This will be an Array of Array of HmmscanResult for the same query seq. failing_sequences = Array.new # This will be an Array of Array of HmmscanResult for the same query seq. total_sequences = 0 @failing_domain_architectures = Hash.new @passsing_domain_architectures = Hash.new @passing_domains_data = Hash.new @failing_domains_data = Hash.new @failing_proteins_bc_not_all_target_doms_present = 0 @failing_proteins_bc_missing_cutoffs = 0 out_domain_msas = Hash.new out_domain_architecture_msa = Msa.new out_concatenated_domains_msa = Msa.new results.each do |hmmscan_result| if ( prev_query_seq_name != nil ) && ( hmmscan_result.query != prev_query_seq_name ) if checkit2(domains_in_query_seq, target_domain_names, target_domains, in_msa, out_domain_msas, out_domain_architecture_msa, out_concatenated_domains_msa, target_domain_architecure) passing_sequences.push(domains_in_query_seq) else failing_sequences.push(domains_in_query_seq) end domains_in_query_seq = Array.new total_sequences += 1 end prev_query_seq_name = hmmscan_result.query domains_in_query_seq.push(hmmscan_result) end # each result if prev_query_seq_name != nil total_sequences += 1 if checkit2(domains_in_query_seq, target_domain_names, target_domains, in_msa, out_domain_msas, out_domain_architecture_msa, out_concatenated_domains_msa, target_domain_architecure) passing_sequences.push(domains_in_query_seq) else failing_sequences.push(domains_in_query_seq) end end puts puts 'Failing domain architectures containing one or more target domain(s):' @failing_domain_architectures = @failing_domain_architectures .sort{|a, b|a<=>b}.to_h failing_da_sum = 0 @failing_domain_architectures .each do |da, count| failing_da_sum += count puts count.to_s.rjust(4) + ': ' + da end puts puts 'Passing domain architectures containing target domain(s):' @passsing_domain_architectures = @passsing_domain_architectures.sort{|a, b|a<=>b}.to_h passing_da_sum = 0 @passsing_domain_architectures.each do |da, count| passing_da_sum += count puts count.to_s.rjust(4) + ': ' + da end puts 'Passing domain(s):' @passing_domains_data = @passing_domains_data.sort{|a, b|a<=>b}.to_h @passing_domains_data.each do |n, d| puts d.to_str end puts 'Failing domain(s):' @failing_domains_data = @failing_domains_data.sort{|a, b|a<=>b}.to_h @failing_domains_data.each do |n, d| puts d.to_str end unless total_sequences == (passing_sequences.size + failing_sequences.size) error_msg = "this should not have happened: total seqs not equal to passing plus failing seqs" raise StandardError, error_msg end unless failing_sequences.size == (@failing_proteins_bc_not_all_target_doms_present + @failing_proteins_bc_missing_cutoffs) error_msg = "this should not have happened: failing seqs sums not consistent" raise StandardError, error_msg end unless @failing_proteins_bc_missing_cutoffs == failing_da_sum error_msg = "this should not have happened: failing seqs not equal to failing da sum" raise StandardError, error_msg end unless passing_sequences.size == passing_da_sum error_msg = "this should not have happened: passing seqs not equal to passing da sum" raise StandardError, error_msg end puts puts "Protein sequences in sequence (fasta) file: " + in_msa.get_number_of_seqs.to_s.rjust(5) puts "Protein sequences in hmmscan output file : " + total_sequences.to_s.rjust(5) puts " Passing protein sequences : " + passing_sequences.size.to_s.rjust(5) puts " Failing protein sequences : " + failing_sequences.size.to_s.rjust(5) puts " Not all target domain present : " + @failing_proteins_bc_not_all_target_doms_present.to_s.rjust(5) puts " Target domain(s) failing cutoffs : " + @failing_proteins_bc_missing_cutoffs.to_s.rjust(5) puts out_domain_msas.keys.sort.each do |domain_name| file_name = outfile_base + TARGET_DOM_OUTPUT_MIDPART + domain_name + '.fasta' write_msa( out_domain_msas[domain_name], file_name ) puts "wrote #{domain_name}" end write_msa( out_domain_architecture_msa, target_da_outfile ) puts "wrote target_domain_architecure" write_msa( out_concatenated_domains_msa, concat_target_dom_outfile ) puts "wrote concatenated_domains_msa" passing_sequences.each do | domains | query_name = domains[0].query if passed_seqs_msa.find_by_name_start( query_name, true ).length < 1 add_sequence( query_name, in_msa, passed_seqs_msa ) else error_msg = "this should not have happened" raise StandardError, error_msg end end failing_sequences.each do | domains | query_name = domains[0].query if failed_seqs_msa.find_by_name_start( query_name, true ).length < 1 add_sequence( query_name, in_msa, failed_seqs_msa ) else error_msg = "this should not have happened" raise StandardError, error_msg end end write_msa( passed_seqs_msa, passing_fl_seqs_outfile ) puts "wrote ..." write_msa( failed_seqs_msa, failing_fl_seqs_outfile ) puts "wrote ..." log_str << ld log_str << "proteins in sequence (fasta) file : " + in_msa.get_number_of_seqs.to_s + ld log_str << ld end # parse private # domains_in_query_seq: Array of HmmscanResult # target_domain_names: Set of String # target_domains: Hash String->TargetDomain # target_domain_architecture: String def checkit2(domains_in_query_seq, target_domain_names, target_domains, in_msa, out_domain_msas, out_domain_architecture_msa, out_contactenated_domains_msa, target_domain_architecture) domain_names_in_query_seq = Set.new domains_in_query_seq.each do |domain| domain_names_in_query_seq.add(domain.model) end if target_domain_names.subset?(domain_names_in_query_seq) passed_domains = Array.new passed_domains_counts = Hash.new domains_in_query_seq.each do |domain| if target_domains.has_key?(domain.model) target_domain = target_domains[domain.model] if (target_domain.i_e_value != nil) && (target_domain.i_e_value >= 0) if domain.i_e_value > target_domain.i_e_value addToFailingDomainData(domain) next end end if (target_domain.abs_len != nil) && (target_domain.abs_len > 0) length = 1 + domain.env_to - domain.env_from if length < target_domain.abs_len addToFailingDomainData(domain) next end end if (target_domain.rel_len != nil) && (target_domain.rel_len > 0) length = 1 + domain.env_to - domain.env_from if length < (target_domain.rel_len * domain.tlen) addToFailingDomainData(domain) next end end passed_domains.push(domain) if (passed_domains_counts.key?(domain.model)) passed_domains_counts[domain.model] = passed_domains_counts[domain.model] + 1 else passed_domains_counts[domain.model] = 1 end addToPassingDomainData(domain) end # if target_domains.has_key?(domain.model) end # domains_in_query_seq.each do |domain| else @failing_proteins_bc_not_all_target_doms_present += 1 return false end # target_domain_names.subset?(domain_names_in_query_seq) passed_domains.sort! { |a,b| a.ali_from <=> b.ali_from } # Compare architectures if !compareArchitectures(target_domain_architecture, passed_domains) @failing_proteins_bc_missing_cutoffs += 1 return false end domain_counter = Hash.new min_env_from = 10000000 max_env_to = 0 query_seq = nil concatenated_domains = '' passed_domains.each do |domain| domain_name = domain.model unless out_domain_msas.has_key? domain_name out_domain_msas[ domain_name ] = Msa.new end if domain_counter.key?(domain_name) domain_counter[domain_name] = domain_counter[domain_name] + 1 else domain_counter[domain_name] = 1 end if query_seq == nil query_seq = domain.query query_seq.freeze elsif query_seq != domain.query error_msg = "seq names do not match: this should not have happened" raise StandardError, error_msg end extracted_domain_seq = extract_domain( query_seq, domain_counter[domain_name], passed_domains_counts[domain_name], domain.env_from, domain.env_to, in_msa, out_domain_msas[ domain_name ] ) concatenated_domains += extracted_domain_seq if domain.env_from < min_env_from min_env_from = domain.env_from end if domain.env_to > max_env_to max_env_to = domain.env_to end end extract_domain( query_seq, 1, 1, min_env_from, max_env_to, in_msa, out_domain_architecture_msa ) out_contactenated_domains_msa.add( query_seq, concatenated_domains) true end def addToPassingDomainData(domain) unless ( @passing_domains_data.key?(domain.model)) @passing_domains_data[domain.model] = DomainData.new(domain.model) end @passing_domains_data[domain.model].add( domain.model, (1 + domain.env_to - domain.env_from), domain.i_e_value) end def addToFailingDomainData(domain) unless ( @failing_domains_data.key?(domain.model)) @failing_domains_data[domain.model] = DomainData.new(domain.model) end @failing_domains_data[domain.model].add( domain.model, (1 + domain.env_to - domain.env_from), domain.i_e_value) end # passed_domains needs to be sorted! def compareArchitectures(target_domain_architecture, passed_domains, strict = false) domain_architecture = '' passed_domains.each do |domain| if domain_architecture.length > 0 domain_architecture += DOMAIN_DELIMITER end domain_architecture += domain.model end pass = false if strict pass = (target_domain_architecture == domain_architecture) else pass = (domain_architecture.index(target_domain_architecture) != nil) end if pass if (@passsing_domain_architectures.key?(domain_architecture)) @passsing_domain_architectures[domain_architecture] = @passsing_domain_architectures[domain_architecture] + 1 else @passsing_domain_architectures[domain_architecture] = 1 end else if ( @failing_domain_architectures .key?(domain_architecture)) @failing_domain_architectures [domain_architecture] = @failing_domain_architectures [domain_architecture] + 1 else @failing_domain_architectures [domain_architecture] = 1 end end return pass end def write_msa( msa, filename ) io = MsaIO.new() w = FastaWriter.new() w.set_line_width( 60 ) w.clean( true ) File.delete(filename) if File.exist?(filename) #TODO remove me begin io.write_to_file( msa, filename, w ) rescue Exception error_msg = "could not write to \"" + filename + "\"" raise IOError, error_msg end end def add_sequence( sequence_name, in_msa, add_to_msa ) seqs = in_msa.find_by_name_start( sequence_name, true ) if ( seqs.length < 1 ) error_msg = "sequence \"" + sequence_name + "\" not found in sequence file" raise StandardError, error_msg end if ( seqs.length > 1 ) error_msg = "sequence \"" + sequence_name + "\" not unique in sequence file" raise StandardError, error_msg end seq = in_msa.get_sequence( seqs[ 0 ] ) add_to_msa.add_sequence( seq ) end def extract_domain( seq_name, number, out_of, seq_from, seq_to, in_msa, out_msa) if number < 1 || out_of < 1 || number > out_of error_msg = "number=" + number.to_s + ", out of=" + out_of.to_s raise StandardError, error_msg end if seq_from < 1 || seq_to < 1 || seq_from >= seq_to error_msg = "impossible: seq-from=" + seq_from.to_s + ", seq-to=" + seq_to.to_s raise StandardError, error_msg end seqs = in_msa.find_by_name_start(seq_name, true) if seqs.length < 1 error_msg = "sequence \"" + seq_name + "\" not found in sequence file" raise IOError, error_msg end if seqs.length > 1 error_msg = "sequence \"" + seq_name + "\" not unique in sequence file" raise IOError, error_msg end # hmmscan is 1 based, whereas sequences are 0 bases in this package. seq = in_msa.get_sequence( seqs[ 0 ] ).get_subsequence( seq_from - 1, seq_to - 1 ) orig_name = seq.get_name seq.set_name( orig_name.split[ 0 ] ) if out_of != 1 seq.set_name( seq.get_name + "~" + number.to_s + "-" + out_of.to_s ) end out_msa.add_sequence( seq ) seq.get_sequence_as_string end end # class HmmscanMultiDomainExtractor class DomainData def initialize( name ) if (name == nil) || name.size < 1 error_msg = "domain name nil or empty" raise StandardError, error_msg end @name = name @count = 0 @i_e_value_min = 10000000.0 @i_e_value_max = -1.0 @i_e_value_sum = 0.0 @len_min = 10000000 @len_max = -1 @len_sum = 0.0 end def add( name, length, i_e_value) if name != @name error_msg = "domain names do not match" raise StandardError, error_msg end if length < 0 error_msg = "length cannot me negative" raise StandardError, error_msg end if i_e_value < 0 error_msg = "iE-value cannot me negative" raise StandardError, error_msg end @count += 1 @i_e_value_sum += i_e_value @len_sum += length if i_e_value > @i_e_value_max @i_e_value_max = i_e_value end if i_e_value < @i_e_value_min @i_e_value_min = i_e_value end if length > @len_max @len_max = length end if length < @len_min @len_min = length end end def avg_length if @count == 0 return 0 end @len_sum / @count end def avg_i_e_value if @count == 0 return 0 end @i_e_value_sum / @count end def to_str s = '' s << @name.rjust(24) + ': ' s << @count.to_s.rjust(4) + ' ' s << avg_length.round(1).to_s.rjust(6) + ' ' s << @len_min.to_s.rjust(4) + ' -' s << @len_max.to_s.rjust(4) + ' ' s << ("%.2E" % avg_i_e_value).rjust(9) + ' ' s << ("%.2E" % @i_e_value_min).rjust(9) + ' -' s << ("%.2E" % @i_e_value_max).rjust(9) + ' ' s end attr_reader :name, :count, :i_e_value_min, :i_e_value_max, :length_min, :length_max end class TargetDomain def initialize( name, i_e_value, abs_len, rel_len, position ) if (name == nil) || name.size < 1 error_msg = "target domain name nil or empty" raise StandardError, error_msg end if rel_len > 1 error_msg = "target domain relative length is greater than 1" raise StandardError, error_msg end @name = name @i_e_value = i_e_value @abs_len = abs_len @rel_len = rel_len @position = position end attr_reader :name, :i_e_value, :abs_len, :rel_len, :position end end # module Evoruby