Exemplo n.º 1
0
        public static void OGlycoTest_Localization()
        {
            //Get glycanBox
            var glycanBox = OGlycanBoxes[19];

            //Get unmodified peptide, products, allPossible modPos and all boxes.
            Protein        protein  = new Protein("TTGSLEPSSGASGPQVSSVK", "P16150");
            var            peptide  = protein.Digest(new DigestionParams(), new List <Modification>(), new List <Modification>()).First();
            List <Product> products = new List <Product>();

            peptide.Fragment(DissociationType.ETD, FragmentationTerminus.Both, products);

            int[] modPos = GlycoSpectralMatch.GetPossibleModSites(peptide, new string[] { "S", "T" }).OrderBy(v => v).ToArray();
            var   boxes  = GlycanBox.BuildChildOGlycanBoxes(3, glycanBox.ModIds).ToArray();

            Assert.That(boxes.Count() == 6);

            //Get Unlocal Fragment
            var unlocalCost = GlycoPeptides.GetUnlocalFragment(products, modPos, glycanBox);

            Assert.That(unlocalCost.Count == 4); //Basicly, the unlocal are c/z ions that don't localize glycosylation.

            //Get scan
            CommonParameters commonParameters = new CommonParameters(dissociationType: DissociationType.EThcD, trimMsMsPeaks: false);
            string           spectraFile      = Path.Combine(TestContext.CurrentContext.TestDirectory, @"GlycoTestData\2019_09_16_StcEmix_35trig_EThcD25_rep1_4565.mgf");
            var file  = new MyFileManager(true).LoadFile(spectraFile, commonParameters);
            var scans = MetaMorpheusTask.GetMs2Scans(file, spectraFile, commonParameters).ToArray();

            //Known peptideWithMod match.
            var peptideWithMod = GlycoPeptides.OGlyGetTheoreticalPeptide(new int[3] {
                10, 2, 3
            }, peptide, glycanBox);

            Assert.That(peptideWithMod.FullSequence == "T[O-Glycosylation:H1N1 on X]T[O-Glycosylation:H1N1 on X]GSLEPSS[O-Glycosylation:N1 on X]GASGPQVSSVK");
            List <Product> knownProducts            = GlycoPeptides.OGlyGetTheoreticalFragments(DissociationType.EThcD, peptide, peptideWithMod);
            var            matchedKnownFragmentIons = MetaMorpheusEngine.MatchFragmentIons(scans.First(), knownProducts, commonParameters);

            //Graph Localization
            LocalizationGraph localizationGraph = new LocalizationGraph(modPos, glycanBox, boxes, -1);

            LocalizationGraph.LocalizeOGlycan(localizationGraph, scans.First(), commonParameters.ProductMassTolerance, products);
            var allPaths = LocalizationGraph.GetAllHighestScorePaths(localizationGraph.array, localizationGraph.ChildModBoxes);
            var knowPath = new int[8] {
                2, 4, 4, 4, 5, 5, 5, 5
            };

            Assert.That(Enumerable.SequenceEqual(knowPath, allPaths[0]));

            //Get localized Route
            var local = LocalizationGraph.GetLocalizedPath(localizationGraph, allPaths.First());

            Assert.That(Enumerable.SequenceEqual(local.Mods.Select(v => v.Item1), new List <int> {
                2, 3, 10
            }));
            Assert.That(Enumerable.SequenceEqual(local.Mods.Select(v => v.Item2), new List <int> {
                1, 1, 0
            }));


            //Get all paths, calculate PScore and calculate position probability.
            var p = scans.First().TheScan.MassSpectrum.Size *commonParameters.ProductMassTolerance.GetRange(1000).Width / scans.First().TheScan.MassSpectrum.Range.Width;
            var n = knownProducts.Where(v => v.ProductType == ProductType.c || v.ProductType == ProductType.zDot).Count();
            var allPathWithWeights = LocalizationGraph.GetAllPaths_CalP(localizationGraph, p, n);

            Assert.That(allPathWithWeights.Count == 168);

            //Calculate Site Specific Localization Probability
            var y = LocalizationGraph.CalSiteSpecificLocalizationProbability(allPathWithWeights, localizationGraph.ModPos);

            Assert.That(y.Count == 8);
            Assert.That(y.First().Value[1].Item2 > 0.99);
        }
Exemplo n.º 2
0
        protected override MyTaskResults RunSpecific(string OutputFolder, List <DbForTask> dbFilenameList, List <string> currentRawFileList, string taskId, FileSpecificParameters[] fileSettingsList)
        {
            MyTaskResults = new MyTaskResults(this);
            List <List <GlycoSpectralMatch> > ListOfGsmsPerMS2Scan = new List <List <GlycoSpectralMatch> >();

            LoadModifications(taskId, out var variableModifications, out var fixedModifications, out var localizeableModificationTypes);

            // load proteins
            List <Protein> proteinList = LoadProteins(taskId, dbFilenameList, true, _glycoSearchParameters.DecoyType, localizeableModificationTypes, CommonParameters);

            MyFileManager myFileManager = new MyFileManager(true);

            int completedFiles = 0;

            Status("Searching files...", taskId);
            ProseCreatedWhileRunning.Append("\n");
            ProseCreatedWhileRunning.Append("protease = " + CommonParameters.DigestionParams.Protease + "; \n");
            ProseCreatedWhileRunning.Append("maximum missed cleavages = " + CommonParameters.DigestionParams.MaxMissedCleavages + "; \n");
            ProseCreatedWhileRunning.Append("minimum peptide length = " + CommonParameters.DigestionParams.MinPeptideLength + "; \n");
            ProseCreatedWhileRunning.Append(CommonParameters.DigestionParams.MaxPeptideLength == int.MaxValue ?
                                            "maximum peptide length = unspecified; " :
                                            "maximum peptide length = " + CommonParameters.DigestionParams.MaxPeptideLength + "; \n");
            ProseCreatedWhileRunning.Append("initiator methionine behavior = " + CommonParameters.DigestionParams.InitiatorMethionineBehavior + "; \n");
            ProseCreatedWhileRunning.Append("max modification isoforms = " + CommonParameters.DigestionParams.MaxModificationIsoforms + "; \n");
            ProseCreatedWhileRunning.Append("fixed modifications = " + string.Join(", ", fixedModifications.Select(m => m.IdWithMotif)) + "; \n");
            ProseCreatedWhileRunning.Append("variable modifications = " + string.Join(", ", variableModifications.Select(m => m.IdWithMotif)) + "; \n");
            ProseCreatedWhileRunning.Append("parent mass tolerance(s) = " + CommonParameters.PrecursorMassTolerance + "; \n");
            ProseCreatedWhileRunning.Append("product mass tolerance = " + CommonParameters.ProductMassTolerance + "; \n");
            ProseCreatedWhileRunning.Append("The combined search database contained " + proteinList.Count + " total entries including " + proteinList.Where(p => p.IsContaminant).Count() + " contaminant sequences. \n");
            if (_glycoSearchParameters.GlycoSearchType == GlycoSearchType.OGlycanSearch)
            {
                ProseCreatedWhileRunning.Append("The O-glycan database: " + _glycoSearchParameters.OGlycanDatabasefile + "\n");
            }
            else if (_glycoSearchParameters.GlycoSearchType == GlycoSearchType.NGlycanSearch)
            {
                ProseCreatedWhileRunning.Append("The N-glycan database: " + _glycoSearchParameters.OGlycanDatabasefile + "\n");
            }
            else
            {
                ProseCreatedWhileRunning.Append("The O-glycan database: " + _glycoSearchParameters.OGlycanDatabasefile + "\n");
                ProseCreatedWhileRunning.Append("The N-glycan database: " + _glycoSearchParameters.NGlycanDatabasefile + "\n");
            }

            ProseCreatedWhileRunning.Append("\n");

            for (int spectraFileIndex = 0; spectraFileIndex < currentRawFileList.Count; spectraFileIndex++)
            {
                var origDataFile = currentRawFileList[spectraFileIndex];
                CommonParameters combinedParams = SetAllFileSpecificCommonParams(CommonParameters, fileSettingsList[spectraFileIndex]);

                var thisId = new List <string> {
                    taskId, "Individual Spectra Files", origDataFile
                };
                NewCollection(Path.GetFileName(origDataFile), thisId);

                Status("Loading spectra file...", thisId);
                MsDataFile myMsDataFile = myFileManager.LoadFile(origDataFile, combinedParams);

                Status("Getting ms2 scans...", thisId);

                Ms2ScanWithSpecificMass[] arrayOfMs2ScansSortedByMass = GetMs2Scans(myMsDataFile, origDataFile, combinedParams).OrderBy(b => b.PrecursorMass).ToArray();

                List <GlycoSpectralMatch>[] newCsmsPerMS2ScanPerFile = new List <GlycoSpectralMatch> [arrayOfMs2ScansSortedByMass.Length];

                myFileManager.DoneWithFile(origDataFile);

                for (int currentPartition = 0; currentPartition < CommonParameters.TotalPartitions; currentPartition++)
                {
                    List <PeptideWithSetModifications> peptideIndex = null;

                    //When partition, the proteinList will be split for each Thread.
                    List <Protein> proteinListSubset = proteinList.GetRange(currentPartition * proteinList.Count() / combinedParams.TotalPartitions, ((currentPartition + 1) * proteinList.Count() / combinedParams.TotalPartitions) - (currentPartition * proteinList.Count() / combinedParams.TotalPartitions));

                    Status("Getting fragment dictionary...", new List <string> {
                        taskId
                    });

                    //Only reverse Decoy for glyco search has been tested and are set as fixed parameter.
                    var indexEngine = new IndexingEngine(proteinListSubset, variableModifications, fixedModifications, null, null, null, currentPartition, _glycoSearchParameters.DecoyType, combinedParams, this.FileSpecificParameters, 30000.0, false, dbFilenameList.Select(p => new FileInfo(p.FilePath)).ToList(), TargetContaminantAmbiguity.RemoveContaminant, new List <string> {
                        taskId
                    });
                    List <int>[] fragmentIndex  = null;
                    List <int>[] precursorIndex = null;
                    GenerateIndexes(indexEngine, dbFilenameList, ref peptideIndex, ref fragmentIndex, ref precursorIndex, proteinList, taskId);

                    //The second Fragment index is for 'MS1-HCD_MS1-ETD_MS2s' type of data. If LowCID is used for MS1, ion-index is not allowed to use.
                    List <int>[] secondFragmentIndex = null;
                    //if (combinedParams.MS2ChildScanDissociationType != DissociationType.LowCID
                    //&& !CrosslinkSearchEngine.DissociationTypeGenerateSameTypeOfIons(combinedParams.DissociationType, combinedParams.MS2ChildScanDissociationType))
                    //{
                    //    //Becuase two different type of dissociation methods are used, the parameters are changed with different dissociation type.
                    //    var secondCombinedParams = CommonParameters.CloneWithNewDissociationType(combinedParams.MS2ChildScanDissociationType);
                    //    var secondIndexEngine = new IndexingEngine(proteinListSubset, variableModifications, fixedModifications, null, null, null, currentPartition, _glycoSearchParameters.DecoyType, secondCombinedParams, this.FileSpecificParameters, 30000.0, false, dbFilenameList.Select(p => new FileInfo(p.FilePath)).ToList(), new List<string> { taskId });
                    //    GenerateSecondIndexes(indexEngine, secondIndexEngine, dbFilenameList, ref secondFragmentIndex, proteinList, taskId);
                    //}

                    Status("Searching files...", taskId);
                    new GlycoSearchEngine(newCsmsPerMS2ScanPerFile, arrayOfMs2ScansSortedByMass, peptideIndex, fragmentIndex, secondFragmentIndex, currentPartition, combinedParams, this.FileSpecificParameters,
                                          _glycoSearchParameters.OGlycanDatabasefile, _glycoSearchParameters.NGlycanDatabasefile, _glycoSearchParameters.GlycoSearchType, _glycoSearchParameters.GlycoSearchTopNum, _glycoSearchParameters.MaximumOGlycanAllowed, _glycoSearchParameters.OxoniumIonFilt, thisId).Run();

                    ReportProgress(new ProgressEventArgs(100, "Done with search " + (currentPartition + 1) + "/" + CommonParameters.TotalPartitions + "!", thisId));
                    if (GlobalVariables.StopLoops)
                    {
                        break;
                    }
                }

                ListOfGsmsPerMS2Scan.AddRange(newCsmsPerMS2ScanPerFile.Where(p => p != null).ToList());

                completedFiles++;
                ReportProgress(new ProgressEventArgs(completedFiles / currentRawFileList.Count, "Searching...", new List <string> {
                    taskId, "Individual Spectra Files"
                }));
            }

            ReportProgress(new ProgressEventArgs(100, "Done with all searches!", new List <string> {
                taskId, "Individual Spectra Files"
            }));

            //For every Ms2Scans, each have a list of candidates psms. The allPsms from GlycoSearchEngine is the list (all ms2scans) of list (each ms2scan) of psm (all candidate psm).
            //Currently, only keep the first scan for consideration.
            List <GlycoSpectralMatch> GsmPerScans = ListOfGsmsPerMS2Scan.Select(p => p.First()).ToList();

            var filteredAllPsms = new List <GlycoSpectralMatch>();

            //For each ms2scan, try to find the best candidate psm from the psms list. Do the localizaiton analysis. Add it into filteredAllPsms.
            foreach (var gsmsPerScan in GsmPerScans.GroupBy(p => p.ScanNumber))
            {
                var glycos = RemoveSimilarSequenceDuplicates(gsmsPerScan.OrderByDescending(p => p.Score).ToList());

                foreach (var glycoSpectralMatch in glycos)
                {
                    if (glycoSpectralMatch.LocalizationGraphs != null)
                    {
                        List <Route> localizationCandidates = new List <Route>();

                        for (int i = 0; i < glycoSpectralMatch.LocalizationGraphs.Count; i++)
                        {
                            var allPathWithMaxScore = LocalizationGraph.GetAllHighestScorePaths(glycoSpectralMatch.LocalizationGraphs[i].array, glycoSpectralMatch.LocalizationGraphs[i].ChildModBoxes);

                            foreach (var path in allPathWithMaxScore)
                            {
                                var local = LocalizationGraph.GetLocalizedPath(glycoSpectralMatch.LocalizationGraphs[i], path);
                                local.ModBoxId = glycoSpectralMatch.LocalizationGraphs[i].ModBoxId;
                                localizationCandidates.Add(local);
                            }
                        }

                        glycoSpectralMatch.Routes = localizationCandidates;
                    }

                    if (glycoSpectralMatch.Routes != null)
                    {
                        LocalizationLevel localLevel;
                        glycoSpectralMatch.LocalizedGlycan   = GlycoSpectralMatch.GetLocalizedGlycan(glycoSpectralMatch.Routes, out localLevel);
                        glycoSpectralMatch.LocalizationLevel = localLevel;

                        //Localization PValue.
                        if (localLevel == LocalizationLevel.Level1 || localLevel == LocalizationLevel.Level2)
                        {
                            List <Route> allRoutes = new List <Route>();
                            foreach (var graph in glycoSpectralMatch.LocalizationGraphs)
                            {
                                allRoutes.AddRange(LocalizationGraph.GetAllPaths_CalP(graph, glycoSpectralMatch.ScanInfo_p, glycoSpectralMatch.Thero_n));
                            }
                            glycoSpectralMatch.SiteSpeciLocalProb = LocalizationGraph.CalSiteSpecificLocalizationProbability(allRoutes, glycoSpectralMatch.LocalizationGraphs.First().ModPos);
                        }
                    }

                    filteredAllPsms.Add(glycoSpectralMatch);
                }
            }

            PostGlycoSearchAnalysisTask postGlycoSearchAnalysisTask = new PostGlycoSearchAnalysisTask();

            postGlycoSearchAnalysisTask.FileSpecificParameters = this.FileSpecificParameters;
            return(postGlycoSearchAnalysisTask.Run(OutputFolder, dbFilenameList, currentRawFileList, taskId, fileSettingsList, filteredAllPsms.OrderByDescending(p => p.Score).ToList(), CommonParameters, _glycoSearchParameters, proteinList, variableModifications, fixedModifications, localizeableModificationTypes, MyTaskResults));
        }