/** * identify additional groups that are not directly attached to amino acids. * * @param mc {@link ModifiedCompound}. * @param chain a {@link Chain}. * @return a list of added groups. */ private void identifyAdditionalAttachments( ModifiedCompound mc, List<Group> ligands, Map<String, Chain> mapChainIdChain) { if (ligands.isEmpty()) { return; } // TODO: should the additional groups only be allowed to the identified // ligands or both amino acids and ligands? Currently only on ligands // ligands to amino acid bonds for same modification of unknown category // will be combined in mergeModComps() // TODO: how about chain-chain links? List<Group> identifiedGroups = new ArrayList<Group>(); for (StructureGroup num : mc.getGroups(false)) { Group group; try { // String numIns = "" + num.getResidueNumber(); // if (num.getInsCode() != null) { // numIns += num.getInsCode(); // } ResidueNumber resNum = new ResidueNumber(); resNum.setChainId(num.getChainId()); resNum.setSeqNum(num.getResidueNumber()); resNum.setInsCode(num.getInsCode()); // group = chain.getGroupByPDB(numIns); group = mapChainIdChain.get(num.getChainId()).getGroupByPDB(resNum); } catch (StructureException e) { logger.error("Exception: ", e); // should not happen continue; } identifiedGroups.add(group); } int start = 0; int n = identifiedGroups.size(); while (n > start) { for (Group group1 : ligands) { for (int i = start; i < n; i++) { Group group2 = identifiedGroups.get(i); if (!identifiedGroups.contains(group1)) { List<Atom[]> linkedAtoms = StructureUtil.findAtomLinkages(group1, group2, false, bondLengthTolerance); if (!linkedAtoms.isEmpty()) { for (Atom[] atoms : linkedAtoms) { mc.addAtomLinkage( StructureUtil.getStructureAtomLinkage(atoms[0], false, atoms[1], false)); } identifiedGroups.add(group1); break; } } } } start = n; n = identifiedGroups.size(); } }
private void recordUnidentifiableModifiedResidues(List<ModifiedCompound> modComps) { Set<StructureGroup> identifiedComps = new HashSet<StructureGroup>(); for (ModifiedCompound mc : modComps) { identifiedComps.addAll(mc.getGroups(true)); } // TODO: use the ModifiedAminoAcid after Andreas add that. for (Group group : residues) { if (group.getType().equals(GroupType.HETATM)) { StructureGroup strucGroup = StructureUtil.getStructureGroup(group, true); if (!identifiedComps.contains(strucGroup)) { unidentifiableModifiedResidues.add(strucGroup); } } } }
/** * Record unidentifiable atom linkages in a chain. Only linkages between two residues or one * residue and one ligand will be recorded. */ private void recordUnidentifiableAtomLinkages( List<ModifiedCompound> modComps, List<Group> ligands) { // first put identified linkages in a map for fast query Set<StructureAtomLinkage> identifiedLinkages = new HashSet<StructureAtomLinkage>(); for (ModifiedCompound mc : modComps) { identifiedLinkages.addAll(mc.getAtomLinkages()); } // record // cross link int nRes = residues.size(); for (int i = 0; i < nRes - 1; i++) { Group group1 = residues.get(i); for (int j = i + 1; j < nRes; j++) { Group group2 = residues.get(j); List<Atom[]> linkages = StructureUtil.findAtomLinkages(group1, group2, true, bondLengthTolerance); for (Atom[] atoms : linkages) { StructureAtomLinkage link = StructureUtil.getStructureAtomLinkage(atoms[0], true, atoms[1], true); unidentifiableAtomLinkages.add(link); } } } // attachment int nLig = ligands.size(); for (int i = 0; i < nRes; i++) { Group group1 = residues.get(i); for (int j = 0; j < nLig; j++) { Group group2 = ligands.get(j); if (group1.equals(group2)) { // overlap between residues and ligands continue; } List<Atom[]> linkages = StructureUtil.findAtomLinkages(group1, group2, false, bondLengthTolerance); for (Atom[] atoms : linkages) { StructureAtomLinkage link = StructureUtil.getStructureAtomLinkage(atoms[0], true, atoms[1], false); unidentifiableAtomLinkages.add(link); } } } }
/** Merge identified modified compounds if linked. */ private void mergeModComps(List<ModifiedCompound> modComps) { TreeSet<Integer> remove = new TreeSet<Integer>(); int n = modComps.size(); for (int icurr = 1; icurr < n; icurr++) { ModifiedCompound curr = modComps.get(icurr); String id = curr.getModification().getId(); if (ProteinModificationRegistry.getById(id).getCategory() != ModificationCategory.UNDEFINED) continue; // find linked compounds that before curr // List<Integer> merging = new ArrayList<Integer>(); int ipre = 0; for (; ipre < icurr; ipre++) { if (remove.contains(ipre)) continue; ModifiedCompound pre = modComps.get(ipre); if (!Collections.disjoint(pre.getGroups(false), curr.getGroups(false))) { break; } } if (ipre < icurr) { ModifiedCompound mcKeep = modComps.get(ipre); // merge modifications of the same type if (mcKeep.getModification().getId().equals(id)) { // merging the current one to the previous one mcKeep.addAtomLinkages(curr.getAtomLinkages()); remove.add(icurr); } } } Iterator<Integer> it = remove.descendingIterator(); while (it.hasNext()) { modComps.remove(it.next().intValue()); } }