}//*/
/// <summary>
/// Latest version of the search routine. Associates spectrum to digested peptide sequences,
/// aligns precursors and fragments, clusters common precursors accross samples, create the list of detected
/// peptide and protein sequences.
/// TODO Align maps together (retention time)
/// </summary>
/// <param name="queries"></param>
/// <returns></returns>
public Result SearchVersionAugust2013(Queries queries, bool optimize)
{
Result result = new Result();
result.queries = queries;
result.dbOptions = dbOptions;
result.samples = Project;
DBSearcher dbSearcher = new DBSearcher(dbOptions);
Digestion ps = new Digestion(dbOptions);
if (dbOptions.NoEnzymeSearch)
{
result.SetPrecursors(dbSearcher.Search(queries, ps.DigestProteomeOnTheFlyNoEnzyme(AllProteins, queries)));
}
else
{
result.SetPrecursors(dbSearcher.Search(queries, ps.DigestProteomeOnTheFly(AllProteins, false, queries)));
}
dbOptions.ConSole.WriteLine(result.precursors.Count + " precursors matched !");
PeptideSpectrumMatches allPSMs = new PeptideSpectrumMatches();
foreach (Precursor precursor in result.precursors)
{
foreach (PeptideSpectrumMatch psm in precursor.psms_AllPossibilities)
{
allPSMs.Add(psm);
}
}
//Add all psm possibilities to psms list
foreach (PeptideSpectrumMatch psm in allPSMs)
{
psm.Query.precursor.psms.Add(psm);
}
long nbTargets = result.SetPrecursors(result.precursors);
dbOptions.ConSole.WriteLine("Targets before Optimizing Score Ratios : " + nbTargets + " [" + result.matchedPrecursors.Count + "]");
if (optimize)
{
//allPSMs.OptimizePSMScoreRatios(dbOptions, dbOptions.PSMFalseDiscoveryRate, result);
//result.matchedPrecursors.OptimizePSMScoreRatios(dbOptions, dbOptions.PSMFalseDiscoveryRate, result);
nbTargets = result.SetPrecursors(result.precursors);
dbOptions.ConSole.WriteLine("Targets : " + nbTargets + " [" + result.matchedPrecursors.Count + "]");
//*/
//TODO Improve alignment results
/*
* Align.AlignPrecursorsByDiff(result, allPSMs);
* nbTargets = result.SetPrecursors(result.precursors);
* dbOptions.ConSole.WriteLine("Targets after precursor alignment : " + nbTargets + " [" + result.matchedPrecursors.Count + "]");
*
* Align.AlignProductsByDiff(result, allPSMs);
* nbTargets = result.SetPrecursors(result.precursors);
* dbOptions.ConSole.WriteLine("Targets after fragment alignment : " + nbTargets + " [" + result.matchedPrecursors.Count + "]");
* //*/
/*
* dbOptions.precursorMassTolerance.Value = Align.CropPrecursors(result, allPSMs);
* nbTargets = result.SetPrecursors(result.precursors);
* dbOptions.ConSole.WriteLine("Targets after croping precursors : " + nbTargets + " [" + result.matchedPrecursors.Count + "]");
*
* dbOptions.productMassTolerance.Value = Align.CropProducts(result, allPSMs);
* nbTargets = result.SetPrecursors(result.precursors);
* dbOptions.ConSole.WriteLine("Targets after croping fragments : " + nbTargets + " [" + result.matchedPrecursors.Count + "]");
* //*/
}
//*/
allPSMs = null;
long bestTargets = nbTargets;
MSSearcher msSearcher = new MSSearcher(dbOptions, Project);
msSearcher.CumulPsm(result.matchedPrecursors);//TODO Check if its still needed
//Step 1 : Cluster psms together based on precursor feature //TODO Implement ProteoProfile Scoring based clustering
//Group in clusters
result.clusters = msSearcher.Search(result.matchedPrecursors, true);
//Todo Align retention times
//Todo redo clusterization, based on retention time aligned maps
//Step 2 : Regroup based on peptide sequence (Morpheus code)
PeptideSearcher pepSearcher = new PeptideSearcher(dbOptions);
result.peptides = pepSearcher.Search(result.clusters, result.matchedPrecursors, true);
result.peptideSequences = pepSearcher.Search(result.clusters, result.matchedPrecursors, false);
//Step 3 : Regroup based on protein sequences (Morpheus code)
ProteinSearcher protSearcher = new ProteinSearcher(dbOptions);
result.proteins = protSearcher.SearchLatest(result.peptideSequences);//, dbSearcher.DicOfProteins);
//long lastNbTarget = nbTargets;
//do
//{
// lastNbTarget = nbTargets;
//UpdatePsmScores(result.proteins);
// nbTargets = result.SetPrecursors(result.precursors);
//} while (lastNbTarget < nbTargets);//*/
result.peptides = pepSearcher.Search(result.clusters, result.matchedPrecursors, true);
result.peptideSequences = pepSearcher.Search(result.clusters, result.matchedPrecursors, false);
if (optimize)
{
dbOptions.ConSole.WriteLine("Targets before second Optimization of Score Ratios : " + nbTargets + " [" + result.matchedPrecursors.Count + "]");
//result.matchedPrecursors.OptimizePSMScoreRatios(dbOptions, dbOptions.PSMFalseDiscoveryRate, result);
nbTargets = result.SetPrecursors(result.precursors);
dbOptions.ConSole.WriteLine("Targets after ReOptimizing PSM Score Ratios : " + nbTargets + " [" + result.matchedPrecursors.Count + "]");//*/
}
//Step 5 : Compute the new number of Targets
nbTargets = result.SetPrecursors(result.precursors);
if (nbTargets < bestTargets)
{
dbOptions.ConSole.WriteLine("FAILED to improve PSMs while adding protein and peptide information");
}
dbOptions.ConSole.WriteLine(result.matchedPrecursors.Count + " precursors remaining after ProPheus Search!");
return(result);
}//*/
public Result SearchLatestVersion(Queries queries, bool optimize, bool runCluster = false)
{
Result result = new Result();
result.queries = queries;
result.dbOptions = dbOptions;
result.samples = Project;
DBSearcher dbSearcher = new DBSearcher(dbOptions);
Digestion ps = new Digestion(dbOptions);
if (dbOptions.NoEnzymeSearch)
{
result.SetPrecursors(dbSearcher.Search(queries, ps.DigestProteomeOnTheFlyNoEnzyme(AllProteins, queries)));
}
else
{
result.SetPrecursors(dbSearcher.Search(queries, ps.DigestProteomeOnTheFly(AllProteins, false, queries)));
}
dbOptions.ConSole.WriteLine(result.precursors.Count + " precursors matched !");
//Use gradient descent to figure out thresholds on PSMs
foreach (Precursor precursor in result.precursors)
{
foreach (PeptideSpectrumMatch psm in precursor.psms_AllPossibilities)
{
precursor.psms.Add(psm);
}
}
long nbTargets = result.SetPrecursors(result.precursors);
/*//This approach is unstable ...
* dbOptions.ConSole.WriteLine("Targets before Optimizing PSM Thresholds : " + nbTargets + " [" + result.matchedPrecursors.Count + "]");
*
* PeptideSpectrumMatches allMatches = new PeptideSpectrumMatches();
* foreach (Precursor precursor in result.precursors)
* allMatches.AddRange(precursor.psms_AllPossibilities);
* PSMScoreThreshold threshold = allMatches.ComputeScoreThreshold(dbOptions.PSMFalseDiscoveryRate);
* foreach (Precursor precursor in result.precursors)
* {
* if (precursor.psms.Count > 0)
* {
* precursor.psms.Clear();
* foreach (PeptideSpectrumMatch psm in precursor.psms_AllPossibilities)
* if (threshold.KeepPSM(psm))
* precursor.psms.Add(psm);
* }
* }
*
* nbTargets = result.SetPrecursors(result.precursors);
* //*/
dbOptions.ConSole.WriteLine("Targets after Optimizing PSM Thresholds : " + nbTargets + " [" + result.matchedPrecursors.Count + "]");
//*/
long bestTargets = nbTargets;
MSSearcher msSearcher = new MSSearcher(dbOptions, Project);
msSearcher.CumulPsm(result.matchedPrecursors);//TODO Check if its still needed
//Step 1 : Cluster psms together based on precursor feature //TODO Implement ProteoProfile Scoring based clustering
//Group in clusters
result.clusters = msSearcher.Search(result.matchedPrecursors, runCluster);
//Todo Align retention times
//Todo redo clusterization, based on retention time aligned maps
//Step 2 : Regroup based on peptide sequence
PeptideSearcher pepSearcher = new PeptideSearcher(dbOptions);
if (optimize)
{
//result.peptides = UpdatePsmScores(pepSearcher.SearchAll(result.clusters, result.matchedPrecursors, true), result);
//dbOptions.ConSole.WriteLine("Found peptides from UpdatePSMScore routine : " + result.peptides.Count);
//nbTargets = result.SetPrecursors(result.precursors);
//dbOptions.ConSole.WriteLine("Targets after Updating PSM scores : " + nbTargets + " [" + result.matchedPrecursors.Count + "]");
/*
* PeptideSpectrumMatches allPSMs = new PeptideSpectrumMatches();
* foreach (Precursor precursor in result.precursors)
* foreach (PeptideSpectrumMatch psm in precursor.psms)
* allPSMs.Add(psm);
*
* allPSMs.OptimizePSMScoreRatios(dbOptions, dbOptions.PSMFalseDiscoveryRate, result);
* //*/
}
result.peptides = pepSearcher.SearchClusters(result.clusters, result.matchedPrecursors, true);
result.peptideSequences = pepSearcher.SearchClusters(result.clusters, result.matchedPrecursors, false);
dbOptions.ConSole.WriteLine("Found peptides from Searchclusters routine : " + result.peptides.Count);
nbTargets = result.SetPrecursors(result.precursors);
dbOptions.ConSole.WriteLine("Targets after ReRanking peptides : " + nbTargets + " [" + result.matchedPrecursors.Count + "]");//*/
dbOptions.ConSole.WriteLine(result.matchedPrecursors.Count + " precursors remaining after ProPheus Search!");
return(result);
}//*/
