Beispiel #1
0
        private void TestTagBasedSearch(LcMsRun run,
                                        FastaDatabase fastaDb, Tolerance tolerance, AminoAcidSet aaSet)
        {
            var engine = new ScanBasedTagSearchEngine(run, new SequenceTagGenerator(run, new Tolerance(8)), new LcMsPeakMatrix(run), fastaDb, tolerance, aaSet);

//            engine.MinScan = 3400;
//            engine.MaxScan = 3900;
            engine.RunSearch();
        }
Beispiel #2
0
        public void TestSearchWithTagGeneration()
        {
            var methodName = MethodBase.GetCurrentMethod().Name;

            Utils.ShowStarting(methodName);

            const string rawFilePath = @"D:\MassSpecFiles\training\raw\QC_Shew_Intact_26Sep14_Bane_C2Column3.pbf";

            if (!File.Exists(rawFilePath))
            {
                Assert.Ignore(@"Skipping test {0} since file not found: {1}", methodName, rawFilePath);
            }

            var          run           = PbfLcMsRun.GetLcMsRun(rawFilePath);
            const string fastaFilePath = @"D:\MSPathFinder\Fasta\ID_002216_235ACCEA.fasta";

            //const string fastaFilePath = @"D:\MassSpecFiles\60k\ID_004973_9BA6912F.fasta";
            if (!File.Exists(fastaFilePath))
            {
                Assert.Ignore(@"Skipping test {0} since file not found: {1}", methodName, fastaFilePath);
            }

            var fastaDb      = new FastaDatabase(fastaFilePath);
            var tolerance    = new Tolerance(10);
            var modsFilePath = @"D:\MSPathFinder\Fasta\Mods.txt";

            if (!File.Exists(modsFilePath))
            {
                Assert.Ignore(@"Skipping test {0} since file not found: {1}", methodName, modsFilePath);
            }

            var aaSet = new AminoAcidSet(modsFilePath);

            //TestTagBasedSearch(run, fastaDb, tolerance, aaSet);
            var tagSearchEngine = new ScanBasedTagSearchEngine(run, new SequenceTagGenerator(run, new Tolerance(8)), new LcMsPeakMatrix(run), fastaDb, tolerance, aaSet);

            var matchedTags = tagSearchEngine.RunSearch(4672);

            foreach (var match in matchedTags)
            {
                Console.Write(match.Sequence);
                Console.WriteLine("\t{0}\t{1}\t{2}", match.TagMatch.StartIndex, match.TagMatch.EndIndex, match.TagMatch.Mass);
            }
        }
Beispiel #3
0
        public bool RunSearch(double corrThreshold = 0.7, CancellationToken?cancellationToken = null, IProgress <ProgressData> progress = null)
        {
            // Get the Normalized spec file/folder path
            SpecFilePath = MassSpecDataReaderFactory.NormalizeDatasetPath(SpecFilePath);

            var prog     = new Progress <ProgressData>();
            var progData = new ProgressData(progress);

            if (progress != null)
            {
                prog = new Progress <ProgressData>(p =>
                {
                    progData.Status         = p.Status;
                    progData.StatusInternal = p.StatusInternal;
                    progData.Report(p.Percent);
                });
            }

            var sw    = new Stopwatch();
            var swAll = new Stopwatch();

            swAll.Start();
            ErrorMessage = string.Empty;

            Console.Write(@"Reading raw file...");
            progData.Status = "Reading spectra file";
            progData.StepRange(10.0);
            sw.Start();

            _run = PbfLcMsRun.GetLcMsRun(SpecFilePath, 0, 0, prog);

            _ms2ScanNums             = _run.GetScanNumbers(2).ToArray();
            _isolationWindowTargetMz = new double[_run.MaxLcScan + 1];
            foreach (var ms2Scan in _ms2ScanNums)
            {
                var ms2Spec = _run.GetSpectrum(ms2Scan) as ProductSpectrum;
                if (ms2Spec == null)
                {
                    continue;
                }
                _isolationWindowTargetMz[ms2Scan] = ms2Spec.IsolationWindow.IsolationWindowTargetMz;
            }


            sw.Stop();
            Console.WriteLine(@"Elapsed Time: {0:f1} sec", sw.Elapsed.TotalSeconds);

            progData.StepRange(20.0);
            ISequenceFilter ms1Filter;

            if (this.ScanNumbers != null && this.ScanNumbers.Any())
            {
                ms1Filter = new SelectedMsMsFilter(this.ScanNumbers);
            }
            else if (string.IsNullOrWhiteSpace(FeatureFilePath))
            {
                // Checks whether SpecFileName.ms1ft exists
                var ms1FtFilePath = MassSpecDataReaderFactory.ChangeExtension(SpecFilePath, LcMsFeatureFinderLauncher.FileExtension);
                if (!File.Exists(ms1FtFilePath))
                {
                    Console.WriteLine(@"Running ProMex...");
                    sw.Start();
                    var param = new LcMsFeatureFinderInputParameter
                    {
                        InputPath                = SpecFilePath,
                        MinSearchMass            = MinSequenceMass,
                        MaxSearchMass            = MaxSequenceMass,
                        MinSearchCharge          = MinPrecursorIonCharge,
                        MaxSearchCharge          = MaxPrecursorIonCharge,
                        CsvOutput                = false,
                        ScoreReport              = false,
                        LikelihoodScoreThreshold = -10
                    };
                    var featureFinder = new LcMsFeatureFinderLauncher(param);
                    featureFinder.Run();
                }
                sw.Reset();
                sw.Start();
                Console.Write(@"Reading ProMex results...");
                ms1Filter = new Ms1FtFilter(_run, PrecursorIonTolerance, ms1FtFilePath, -10);
            }
            else
            {
                sw.Reset();
                sw.Start();
                var extension = Path.GetExtension(FeatureFilePath);
                if (extension.ToLower().Equals(".csv"))
                {
                    Console.Write(@"Reading ICR2LS/Decon2LS results...");
                    ms1Filter = new IsosFilter(_run, PrecursorIonTolerance, FeatureFilePath);
                }
                else if (extension.ToLower().Equals(".ms1ft"))
                {
                    Console.Write(@"Reading ProMex results...");
                    ms1Filter = new Ms1FtFilter(_run, PrecursorIonTolerance, FeatureFilePath, -10);
                }
                else if (extension.ToLower().Equals(".msalign"))
                {
                    Console.Write(@"Reading MS-Align+ results...");
                    ms1Filter = new MsDeconvFilter(_run, PrecursorIonTolerance, FeatureFilePath);
                }
                else
                {
                    ms1Filter = null;  //new Ms1FeatureMatrix(_run);
                }
            }

            sw.Stop();
            Console.WriteLine(@"Elapsed Time: {0:f1} sec", sw.Elapsed.TotalSeconds);


            // pre-generate deconvoluted spectra for scoring
            _massBinComparer = new FilteredProteinMassBinning(AminoAcidSet, MaxSequenceMass + 1000);

            _ms2ScorerFactory2 = new CompositeScorerFactory(_run, _massBinComparer, AminoAcidSet,
                                                            MinProductIonCharge, MaxProductIonCharge, ProductIonTolerance);
            sw.Reset();
            Console.WriteLine(@"Generating deconvoluted spectra for MS/MS spectra...");
            sw.Start();
            var pfeOptions = new ParallelOptions
            {
                MaxDegreeOfParallelism = MaxNumThreads,
                CancellationToken      = cancellationToken ?? CancellationToken.None
            };

            Parallel.ForEach(_ms2ScanNums, pfeOptions, ms2ScanNum =>
            {
                _ms2ScorerFactory2.DeconvonluteProductSpectrum(ms2ScanNum);
            });
            sw.Stop();
            Console.WriteLine(@"Elapsed Time: {0:f1} sec", sw.Elapsed.TotalSeconds);

            progData.StepRange(10.0);
            progData.Status = "Reading Fasta File";

            // Target database
            var targetDb = new FastaDatabase(DatabaseFilePath);

            targetDb.Read();

            // Generate sequence tags for all MS/MS spectra
            if (TagBasedSearch)
            {
                progData.StepRange(25.0);
                progData.Status = "Generating Sequence Tags";
                sw.Reset();
                Console.WriteLine(@"Generating sequence tags for MS/MS spectra...");
                sw.Start();
                var seqTagGen = GetSequenceTagGenerator();
                _tagMs2ScanNum = seqTagGen.GetMs2ScanNumsContainingTags().ToArray();
                sw.Stop();
                Console.WriteLine(@"Elapsed Time: {0:f1} sec", sw.Elapsed.TotalSeconds);
                _tagSearchEngine = new ScanBasedTagSearchEngine(_run, seqTagGen, new LcMsPeakMatrix(_run, ms1Filter), targetDb, ProductIonTolerance, AminoAcidSet,
                                                                _ms2ScorerFactory2,
                                                                ScanBasedTagSearchEngine.DefaultMinMatchedTagLength,
                                                                MaxSequenceMass, MinProductIonCharge, MaxProductIonCharge);
            }

            var specFileName         = MassSpecDataReaderFactory.RemoveExtension(Path.GetFileName(SpecFilePath));
            var targetOutputFilePath = Path.Combine(OutputDir, specFileName + TargetFileNameEnding);
            var decoyOutputFilePath  = Path.Combine(OutputDir, specFileName + DecoyFileNameEnding);
            var tdaOutputFilePath    = Path.Combine(OutputDir, specFileName + TdaFileNameEnding);

            progData.StepRange(60.0);
            progData.Status = "Running Target search";

            if (RunTargetDecoyAnalysis.HasFlag(DatabaseSearchMode.Target))
            {
                sw.Reset();
                Console.Write(@"Reading the target database...");
                sw.Start();
                targetDb.Read();
                sw.Stop();
                Console.WriteLine(@"Elapsed Time: {0:f1} sec", sw.Elapsed.TotalSeconds);

                var targetMatches = new SortedSet <DatabaseSequenceSpectrumMatch> [_run.MaxLcScan + 1];

                progData.MaxPercentage = 42.5;
                if (TagBasedSearch)
                {
                    sw.Reset();
                    Console.WriteLine(@"Tag-based searching the target database");
                    sw.Start();
                    RunTagBasedSearch(targetMatches, targetDb, null, prog);
                    Console.WriteLine(@"Target database tag-based search elapsed Time: {0:f1} sec", sw.Elapsed.TotalSeconds);
                }
                progData.MaxPercentage = 60.0;

                sw.Reset();
                Console.WriteLine(@"Searching the target database");
                sw.Start();
                RunSearch(targetMatches, targetDb, ms1Filter, null, prog);
                Console.WriteLine(@"Target database search elapsed Time: {0:f1} sec", sw.Elapsed.TotalSeconds);

                // calculate spectral e-value usign generating function
                sw.Reset();
                Console.WriteLine(@"Calculating spectral E-values for target-spectrum matches");
                sw.Start();
                var bestTargetMatches = RunGeneratingFunction(targetMatches);
                WriteResultsToFile(bestTargetMatches, targetOutputFilePath, targetDb);
                sw.Stop();
                Console.WriteLine(@"Target-spectrum match E-value calculation elapsed Time: {0:f1} sec", sw.Elapsed.TotalSeconds);
            }

            progData.StepRange(95.0); // total to 95%
            progData.Status = "Running Decoy search";

            if (RunTargetDecoyAnalysis.HasFlag(DatabaseSearchMode.Decoy))
            {
                // Decoy database
                sw.Reset();
                sw.Start();
                var decoyDb = targetDb.Decoy(null, true);

                Console.Write(@"Reading the decoy database...");
                decoyDb.Read();
                Console.WriteLine(@"Elapsed Time: {0:f1} sec", sw.Elapsed.TotalSeconds);

                progData.MaxPercentage = 77.5;
                var decoyMatches = new SortedSet <DatabaseSequenceSpectrumMatch> [_run.MaxLcScan + 1];
                if (TagBasedSearch)
                {
                    sw.Reset();
                    Console.WriteLine(@"Tag-based searching the decoy database");
                    sw.Start();
                    RunTagBasedSearch(decoyMatches, decoyDb, null, prog);
                    Console.WriteLine(@"Decoy database tag-based search elapsed Time: {0:f1} sec", sw.Elapsed.TotalSeconds);
                }
                progData.MaxPercentage = 95.0;

                sw.Reset();
                Console.WriteLine(@"Searching the decoy database");
                sw.Start();
                RunSearch(decoyMatches, decoyDb, ms1Filter, null, prog);
                Console.WriteLine(@"Decoy database search elapsed Time: {0:f1} sec", sw.Elapsed.TotalSeconds);

                // calculate spectral e-value usign generating function
                sw.Reset();
                Console.WriteLine(@"Calculating spectral E-values for decoy-spectrum matches");
                sw.Start();
                var bestDecoyMatches = RunGeneratingFunction(decoyMatches);
                WriteResultsToFile(bestDecoyMatches, decoyOutputFilePath, decoyDb);
                sw.Stop();
                Console.WriteLine(@"Decoy-spectrum match E-value calculation elapsed Time: {0:f1} sec", sw.Elapsed.TotalSeconds);
            }

            progData.StepRange(100.0);
            progData.Status = "Writing combined results file";
            if (RunTargetDecoyAnalysis.HasFlag(DatabaseSearchMode.Both))
            {
                // Add "Qvalue" and "PepQValue"
                var fdrCalculator = new FdrCalculator(targetOutputFilePath, decoyOutputFilePath);
                if (fdrCalculator.HasError())
                {
                    ErrorMessage = fdrCalculator.ErrorMessage;
                    Console.WriteLine(@"Error computing FDR: " + fdrCalculator.ErrorMessage);
                    return(false);
                }

                fdrCalculator.WriteTo(tdaOutputFilePath);
            }
            progData.Report(100.0);

            Console.WriteLine(@"Done.");
            swAll.Stop();
            Console.WriteLine(@"Total elapsed time for search: {0:f1} sec ({1:f2} min)", swAll.Elapsed.TotalSeconds, swAll.Elapsed.TotalMinutes);

            return(true);
        }