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author | davidmurphy |
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date | Sat, 31 Mar 2012 16:07:07 -0400 |
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# Copyright 2000 by Jeffrey Chang. All rights reserved. # Copyright 2001 by Gavin E. Crooks. All rights reserved. # Modifications Copyright 2004/2005 James Casbon. # Copyright 2005 by Regents of the University of California. All rights Reserved. # (Major rewrite for conformance to corebio. Gavin Crooks) # # This code is derived from the Biopython distribution and is governed by it's # license. Please see the LICENSE file that should have been included # as part of this package. """ SCOP: Structural Classification of Proteins. The SCOP database aims to provide a manually constructed classification of all know protein structures into a hierarchy, the main levels of which are family, superfamily and fold. * SCOP: http://scop.mrc-lmb.cam.ac.uk/scop/ * Introduction: http://scop.mrc-lmb.cam.ac.uk/scop/intro.html * SCOP parsable files: http://scop.mrc-lmb.cam.ac.uk/scop/parse/ The Scop object in this module represents the entire SCOP classification. It can be built from the three SCOP parsable files (see DesRecord, HieRecord and ClaRecord), modified is so desired, and converted back to the same file formats. A single SCOP domain (represented by the Domain class) can be obtained from Scop using the domain's SCOP identifier (sid). Classes: - Scop -- The entire SCOP hierarchy. - Node -- A node in the SCOP hierarchy. - Domain -- A SCOP domain. - Residues -- A collection of residues from a PDB structure. - HieRecord -- Handle the SCOP HIErarchy files. - DesRecord -- Handle the SCOP DEScription file. - ClaRecord -- Handle the SCOP CLAssification file. nodeCodeDict -- A mapping between known 2 letter node codes and a longer description. The known node types are 'cl' (class), 'cf' (fold), 'sf' (superfamily), 'fa' (family), 'dm' (domain), 'sp' (species), 'px' (domain). Additional node types may be added in the future. """ import os, re nodeCodeDict = { 'cl':'class', 'cf':'fold', 'sf':'superfamily', 'fa':'family', 'dm':'protein', 'sp':'species', 'px':'domain'} _nodetype_to_code= dict([[v,k] for k,v in nodeCodeDict.items()]) nodeCodeOrder = [ 'ro', 'cl', 'cf', 'sf', 'fa', 'dm', 'sp', 'px' ] def cmp_sccs(sccs1, sccs2) : """Order SCOP concise classification strings (sccs). a.4.5.1 < a.4.5.11 < b.1.1.1 A sccs (e.g. a.4.5.11) compactly represents a domain's classification. The letter represents the class, and the numbers are the fold, superfamily, and family, respectively. """ s1 = sccs1.split(".") s2 = sccs2.split(".") if s1[0] != s2[0]: return cmp(s1[0], s2[0]) s1 = map(int, s1[1:]) s2 = map(int, s2[1:]) return cmp(s1,s2) def _open_scop_file(scop_dir_path, version, filetype) : filename = "dir.%s.scop.txt_%s" % (filetype,version) afile = open(os.path.join( scop_dir_path, filename)) return afile class Scop(object): """The entire SCOP hierarchy. root -- The root node of the hierarchy domains -- A list of all domains nodes_by_sid -- A dictionary of nodes indexed by SCOP identifier (e.g. 'd1hbia_') domains_by_sunid -- A dictionary of domains indexed by SCOP uniquie identifiers (e.g. 14996) """ def __init__(self): """ An empty Scop object. See also Scop.parse() and Scop.parse_files() """ self.root = None self.domains = [] self.nodes_by_sunid = dict() self.domains_by_sid = dict() #@classmethod def parse(cls, dir_path, version) : """Build the SCOP hierarchy from the SCOP parsable files. - dir_path -- A directory that contains the SCOP files - version -- The SCOP version (as a string) The SCOP files are named dir.XXX.scop.txt_VERSION, where XXX is 'cla', 'des' or 'hie'. """ cla_file = None des_file = None hie_file = None try : cla_file = _open_scop_file( dir_path, version, 'cla') des_file = _open_scop_file( dir_path, version, 'des') hie_file = _open_scop_file( dir_path, version, 'hie') scop = cls.parse_files(cla_file, des_file, hie_file) finally : # If we opened the files, we close the files if cla_file : cla_file.close() if des_file : des_file.close() if hie_file : hie_file.close() return scop parse = classmethod(parse) #@classmethod def parse_files(cls, cla_file, des_file, hie_file): """Build the SCOP hierarchy from the SCOP parsable files. - cla_file -- the CLA clasification file - des_file -- the DES description file - hie_file -- the HIE hierarchy file """ self = cls() sunidDict = {} root = Node() domains = [] root.sunid=0 root.type='ro' sunidDict[root.sunid] = root root.description = 'SCOP Root' # Build the rest of the nodes using the DES file for rec in DesRecord.records(des_file): if rec.nodetype =='px' : n = Domain() n.sid = rec.name domains.append(n) else : n = Node() n.sunid = rec.sunid n.type = rec.nodetype n.sccs = rec.sccs n.description = rec.description sunidDict[n.sunid] = n # Glue all of the Nodes together using the HIE file for rec in HieRecord.records(hie_file): if not rec.sunid in sunidDict : print rec.sunid #FIXME: HUH? n = sunidDict[rec.sunid] if rec.parent !='': # Not root node if not rec.parent in sunidDict : raise ValueError("Incomplete data?") n.parent = sunidDict[rec.parent] for c in rec.children: if not c in sunidDict : raise ValueError("Incomplete data?") n.children.append(sunidDict[c]) # Fill in the gaps with information from the CLA file sidDict = {} for rec in ClaRecord.records(cla_file): n = sunidDict[rec.sunid] assert n.sccs == rec.sccs assert n.sid == rec.sid n.residues = rec.residues sidDict[n.sid] = n # Clean up self.root = root self.nodes_by_sunid = sunidDict self.domains_by_sid = sidDict self.domains = tuple(domains) return self parse_files = classmethod(parse_files) def write_hie(self, stream) : """Build an HIE SCOP parsable file from this object""" nodes = self.nodes_by_sunid.values() # We order nodes to ease comparison with original file nodes.sort(lambda n1,n2: cmp(n1.sunid, n2.sunid)) for n in nodes : stream.write(str(n.to_hie_record())) def write_des(self, stream) : """Build a DES SCOP parsable file from this object""" nodes = self.nodes_by_sunid.values() # Origional SCOP file is not ordered? nodes.sort(lambda n1,n2: cmp(n1.sunid, n2.sunid)) for n in nodes : if n != self.root : stream.write(str(n.to_des_record())) def write_cla(self, stream) : """Build a CLA SCOP parsable file from this object""" nodes = self.domains_by_sid.values() # We order nodes to ease comparison with original file nodes.sort(lambda n1,n2: cmp(n1.sunid, n2.sunid)) for n in nodes : stream.write(str(n.to_cla_record())) # End Scop class Node(object) : """ A node in the Scop hierarchy sunid -- SCOP unique identifiers. e.g. '14986' parent -- The parent node children -- A list of child nodes sccs -- SCOP concise classification string. e.g. 'a.1.1.2' type -- A 2 letter node type code. e.g. 'px' for domains description -- """ def __init__(self) : """A new, uninitilized SCOP node.""" self.sunid='' self.parent = None self.children=[] self.sccs = '' self.type ='' self.description ='' def __str__(self) : s = [] s.append(str(self.sunid)) s.append(self.sccs) s.append(self.type) s.append(self.description) return " ".join(s) def to_hie_record(self): """Return an Hie.Record""" rec = HieRecord() rec.sunid = str(self.sunid) if self.parent : # Not root node rec.parent = str(self.parent.sunid) else: rec.parent = '-' for c in self.children : rec.children.append(str(c.sunid)) return rec def to_des_record(self): """Return a Des.Record""" rec = DesRecord() rec.sunid = str(self.sunid) rec.nodetype = self.type rec.sccs = self.sccs rec.description = self.description return rec def descendents( self, node_type) : """ Return a list of all decendent nodes of the given type. Node type can be a two letter code or longer description. e.g. 'fa' or 'family' """ if node_type in _nodetype_to_code: node_type = _nodetype_to_code[node_type] nodes = [self] while nodes[0].type != node_type: if nodes[0].type == 'px' : return [] # Fell of the bottom of the hierarchy child_list = [] for n in nodes: for child in n.children: child_list.append( child ) nodes = child_list return nodes def ascendent( self, node_type) : """ Return the ancestor node of the given type, or None. Node type can be a two letter code or longer description. e.g. 'fa' or 'family' """ if node_type in _nodetype_to_code : node_type = _nodetype_to_code[node_type] n = self if n.type == node_type: return None while n.type != node_type: if n.type == 'ro': return None # Fell of the top of the hierarchy n = n.parent return n # End Node class Domain(Node) : """ A SCOP domain. A leaf node in the Scop hierarchy. - sid -- The SCOP domain identifier. e.g. 'd5hbib_' - residues -- A Residue object. It defines the collection of PDB atoms that make up this domain. """ def __init__(self) : Node.__init__(self) self.sid = '' self.residues = None def __str__(self) : s = [] s.append(self.sid) s.append(self.sccs) s.append("("+str(self.residues)+")") if not self.parent : s.append(self.description) else : sp = self.parent dm = sp.parent s.append(dm.description) s.append("{"+sp.description+"}") return " ".join(s) def to_des_record(self): """Return a des.Record""" rec = Node.to_des_record(self) rec.name = self.sid return rec def to_cla_record(self) : """Return a cla.Record""" rec = ClaRecord() rec.sid = self.sid rec.residues = self.residues rec.sccs = self.sccs rec.sunid = self.sunid n = self while n.sunid != 0: # Not root node rec.hierarchy.append( (n.type, str(n.sunid)) ) n = n.parent rec.hierarchy.reverse() return rec # End Domain class DesRecord(object): """ Handle the SCOP DEScription file. The file format is described in the scop "release notes.":http://scop.berkeley.edu/release-notes-1.55.html The latest DES file can be found "elsewhere at SCOP.":http://scop.mrc-lmb.cam.ac.uk/scop/parse/ The DES file consisnt of one DES record per line. Each record holds information for one node in the SCOP hierarchy, and consist of 5 tab deliminated fields, sunid, node type, sccs, node name, node description. For example :: 21953 px b.1.2.1 d1dan.1 1dan T:,U:91-106 48724 cl b - All beta proteins 48725 cf b.1 - Immunoglobulin-like beta-sandwich 49265 sf b.1.2 - Fibronectin type III 49266 fa b.1.2.1 - Fibronectin type III - sunid -- SCOP unique identifiers - nodetype -- One of 'cl' (class), 'cf' (fold), 'sf' (superfamily), 'fa' (family), 'dm' (protein), 'sp' (species), 'px' (domain). Additional node types may be added. - sccs -- SCOP concise classification strings. e.g. b.1.2.1 - name -- The SCOP ID (sid) for domains (e.g. d1anu1), currently empty for other node types - description -- e.g. "All beta proteins","Fibronectin type III", """ def __init__(self, record=None): if not record : self.sunid = '' self.nodetype = '' self.sccs = '' self.name = '' self.description ='' else : entry = record.rstrip() # no trailing whitespace columns = entry.split("\t") # separate the tab-delineated cols if len(columns) != 5: raise ValueError("I don't understand the format of %s" % entry) self.sunid, self.nodetype, self.sccs, self.name, self.description \ = columns if self.name == '-' : self.name ='' self.sunid = int(self.sunid) def __str__(self): s = [] s.append(self.sunid) s.append(self.nodetype) s.append(self.sccs) if self.name : s.append(self.name) else : s.append("-") s.append(self.description) return "\t".join(map(str,s)) + "\n" #@staticmethod def records(des_file): """Iterates over a DES file, generating DesRecords """ for line in des_file: if line[0] =='#': continue # A comment if line.isspace() : continue yield DesRecord(line) records = staticmethod(records) # End DesRecord class HieRecord(object): """Handle the SCOP HIErarchy files, which describe the SCOP hierarchy in terms of SCOP unique identifiers (sunid). The file format is described in the scop "release notes.":http://scop.berkeley.edu/release-notes-1.55.html The latest HIE file can be found "elsewhere at SCOP.":http://scop.mrc-lmb.cam.ac.uk/scop/parse/ "Release 1.55":http://scop.berkeley.edu/parse/dir.hie.scop.txt_1.55 Records consist of 3 tab deliminated fields; node's sunid, parent's sunid, and a list of children's sunids. For example :: 0 - 46456,48724,51349,53931,56572,56835,56992,57942 21953 49268 - 49267 49266 49268,49269 Each record holds information for one node in the SCOP hierarchy. sunid -- SCOP unique identifiers of this node parent -- Parents sunid children -- Sequence of childrens sunids """ def __init__(self, record = None): self.sunid = None self.parent = None self.children = [] if not record : return # Parses HIE records. entry = record.rstrip() # no trailing whitespace columns = entry.split('\t') # separate the tab-delineated cols if len(columns) != 3: raise ValueError("I don't understand the format of %s" % entry) self.sunid, self.parent, children = columns if self.sunid =='-' : self.sunid = '' if self.parent =='-' : self.parent = '' else : self.parent = int( self.parent ) if children =='-' : self.children = () else : self.children = children.split(',') self.children = map ( int, self.children ) self.sunid = int(self.sunid) def __str__(self): s = [] s.append(str(self.sunid)) if self.parent: s.append(str(self.parent)) else: if self.sunid != 0: s.append('0') else: s.append('-') if self.children : child_str = map(str, self.children) s.append(",".join(child_str)) else: s.append('-') return "\t".join(s) + "\n" #@staticmethod def records(hie_file): """Iterates over a DOM file, generating DomRecords """ for line in hie_file: if line[0] =='#': continue # A comment if line.isspace() : continue yield HieRecord(line) records = staticmethod(records) # End HieRecord class ClaRecord(object): """Handle the SCOP CLAssification file, which describes SCOP domains. The file format is described in the scop "release notes.":http://scop.berkeley.edu/release-notes-1.55.html The latest CLA file can be found "elsewhere at SCOP.":http://scop.mrc-lmb.cam.ac.uk/scop/parse/ sid -- SCOP identifier. e.g. d1danl2 residues -- The domain definition as a Residues object sccs -- SCOP concise classification strings. e.g. b.1.2.1 sunid -- SCOP unique identifier for this domain hierarchy -- A sequence of tuples (nodetype, sunid) describing the location of this domain in the SCOP hierarchy. See the Scop module for a description of nodetypes. """ def __init__(self, record=None): self.sid = '' self.residues = None self.sccs = '' self.sunid ='' self.hierarchy = [] if not record: return # Parse a tab-deliminated CLA record. entry = record.rstrip() # no trailing whitespace columns = entry.split('\t') # separate the tab-delineated cols if len(columns) != 6: raise ValueError("I don't understand the format of %s" % entry) self.sid, pdbid, residues, self.sccs, self.sunid, hierarchy = columns self.residues = Residues(residues) self.residues.pdbid = pdbid self.sunid = int(self.sunid) h = [] for ht in hierarchy.split(",") : h.append( ht.split('=')) for ht in h: ht[1] = int(ht[1]) self.hierarchy = h def __str__(self): s = [] s.append(self.sid) s += str(self.residues).split(" ") s.append(self.sccs) s.append(self.sunid) h=[] for ht in self.hierarchy: h.append("=".join(map(str,ht))) s.append(",".join(h)) return "\t".join(map(str,s)) + "\n" #@staticmethod def records(cla_file): """Iterates over a DOM file, generating DomRecords """ for line in cla_file: if line[0] =='#': continue # A comment if line.isspace() : continue yield ClaRecord(line) records = staticmethod(records) # End ClaRecord class DomRecord(object): """Handle the SCOP DOMain file. The DOM file has been officially deprecated. For more information see the SCOP"release notes.":http://scop.berkeley.edu/release-notes-1.55.html The DOM files for older releases can be found "elsewhere at SCOP.":http://scop.mrc-lmb.cam.ac.uk/scop/parse/ DOM records consist of 4 tab deliminated fields; sid, pdbid, residues, hierarchy For example :: d1sctg_ 1sct g: 1.001.001.001.001.001 d1scth_ 1sct h: 1.001.001.001.001.001 d1flp__ 1flp - 1.001.001.001.001.002 d1moh__ 1moh - 1.001.001.001.001.002 sid -- The SCOP ID of the entry, e.g. d1anu1 residues -- The domain definition as a Residues object hierarchy -- A string specifying where this domain is in the hierarchy. """ def __init__(self, record= None): self.sid = '' self.residues = [] self.hierarchy = '' if record: entry = record.rstrip() # no trailing whitespace columns = entry.split("\t") # separate the tab-delineated cols if len(columns) != 4: raise ValueError("I don't understand the format of %s" % entry) self.sid, pdbid, res, self.hierarchy = columns self.residues = Residues(res) self.residues.pdbid = pdbid def __str__(self): s = [] s.append(self.sid) s.append(str(self.residues).replace(" ","\t") ) s.append(self.hierarchy) return "\t".join(s) + "\n" #@staticmethod def records(dom_file): """Iterates over a DOM file, generating DomRecords """ for line in dom_file: if line[0] =='#': continue # A comment if line.isspace() : continue yield DomRecord(line) records = staticmethod(records) # End DomRecord _pdbid_re = re.compile(r"^(\w\w\w\w)(?:$|\s+|_)(.*)") _fragment_re = re.compile(r"\(?(\w:)?(-?\w*)-?(-?\w*)\)?(.*)") class Residues(object) : """A collection of residues from a PDB structure. This class provides code to work with SCOP domain definitions. These are concisely expressed as a one or more chain fragments. For example, "(1bba A:10-20,B:)" indicates residue 10 through 20 (inclusive) of chain A, and every residue of chain B in the pdb structure 1bba. The pdb id and brackets are optional. In addition "-" indicates every residue of a pbd structure with one unnamed chain. Start and end residue ids consist of the residue sequence number and an optional single letter insertion code. e.g. "12", "-1", "1a", "1000" pdbid -- An optional PDB id, e.g. "1bba" fragments -- A sequence of tuples (chainID, startResID, endResID) """ def __init__(self, str=None) : self.pdbid = '' self.fragments = () if str is not None : self._parse(str) def _parse(self, string): string = string.strip() #Is there a pdbid at the front? e.g. 1bba A:1-100 m = _pdbid_re.match(string) if m is not None : self.pdbid = m.group(1) string = m.group(2) # Everything else if string=='' or string == '-' or string=='(-)': # no fragments, whole sequence return fragments = [] for l in string.split(",") : m = _fragment_re.match(l) if m is None: raise ValueError("I don't understand the format of %s" % l) chain, start, end, postfix = m.groups() if postfix != "" : raise ValueError("I don't understand the format of %s" % l ) if chain: if chain[-1] != ':': raise ValueError("I don't understand the chain in %s" % l) chain = chain[:-1] # chop off the ':' else : chain ="" fragments.append((chain, start, end)) self.fragments = tuple(fragments) def __str__(self): prefix ="" if self.pdbid : prefix =self.pdbid +' ' if not self.fragments: return prefix+'-' strs = [] for chain, start, end in self.fragments: s = [] if chain: s.append("%s:" % chain) if start: s.append("%s-%s" % (start, end)) strs.append("".join(s)) return prefix+ ",".join(strs) # End Residues