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pubParseDb
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pubParseDb
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#!/usr/bin/env python
# load default python packages
import logging, optparse, sys, glob, gzip, collections, copy, gzip, os, doctest, re
from os.path import *
from collections import defaultdict
#try:
#from lxml import etree
#except ImportError:
## Python 2.5
#print "py 2.5 fallback etree"
import xml.etree.cElementTree as etree
# doesn't work anymore, we need the partial parsing option
# add <scriptDir>/lib/ to package search path
sys.path.insert(0, join(dirname(abspath(__file__)), "lib"))
import pubGeneric, maxCommon, pubConf, maxbio
# example file /hive/data/outside/pdb/aa/pdb1aa0.ent.gz
pdbHeaders = ["acc", "isMain", "authors", "title", "ref", "issn", "pmid", "doi"]
pdbToHeader = {'AUTH' : "authors", "TITL" : "title", "REFN": "issn", "PMID":"pmid", "DOI":"doi", "REF":"ref", "isMain":"isMain", "acc": "acc"}
PdbRefRec = collections.namedtuple("pdbRef", pdbHeaders)
def parsePdbRefLine(data, line):
" add line to data dict "
keyword, entry = line[12:16].strip(), line[19:].strip()
if keyword in data:
data[keyword] = data[keyword]+" "+entry
else:
data[keyword] = entry
def parsePdb(pdbDir, outDir):
" write pdb.tab to outDir, parsing an ftp mirror from PDB "
# get list of infnames
if isdir(pdbDir):
logging.info("Scanning for input files in %s" % pdbDir)
inDirs = [d for d in glob.glob(pdbDir+"/*") if isdir(d)]
inFnames = []
for inDir in inDirs:
dirFnames = glob.glob(inDir+"/*.ent.gz")
inFnames.extend(dirFnames)
logging.info("Found %d input files under %s" % (len(inFnames), pdbDir))
elif isfile(pdbDir):
inFnames = [pdbDir]
else:
raise Exception("pdbDir %s does not exist" % pdbDir)
# write headers and open outfile
outFname = join(outDir, "pdb.tab")
logging.info("Writing to %s" % outFname)
ofh = open(outFname, "w")
ofh.write("\t".join(pdbHeaders))
ofh.write("\n")
tp = maxCommon.ProgressMeter(len(inFnames))
for inFname in inFnames:
logging.debug("Parsing %s" % inFname)
ifh = gzip.open(inFname)
refs = []
refData = {}
for line in ifh:
if line.startswith("HEADER "):
acc = line.split()[-1]
if line.startswith("JRNL"):
refData["isMain"]="1"
refData["acc"] = acc
parsePdbRefLine(refData, line)
elif line.startswith("REMARK 1 "):
if line[11:].startswith("REFERENCE"):
refs.append(refData)
refData = {}
refData["isMain"] = "0"
refData["acc"] = acc
continue
parsePdbRefLine(refData, line)
refs.append(refData)
# translate keys from PDB to our own ones and write to outfile
newRefs = []
for ref in refs:
if '' in ref:
del ref['']
if 'EDIT' in ref:
del ref['EDIT']
if 'PUBL' in ref:
del ref['PUBL']
if 'REFE' in ref: # looks like a typo in /hive/data/outside/pdb/o9/pdb1o91.ent.gz
logging.warn("REFE typo ignored")
del ref['REFE']
newRef = {}
for k, v, in ref.iteritems():
newRef[pdbToHeader[k]] = v
for h in pdbHeaders:
if not h in newRef:
newRef[h] = ""
newRef["issn"] = newRef["issn"].replace("ISSN ","")
row = PdbRefRec(**newRef)
ofh.write("\t".join(row))
ofh.write("\n")
tp.taskCompleted()
# UNIPROT PARSING
# remove these PMIDs from all evidences
pmidBlackList = set([17344846]) # high-throughput study
# only parse these feature types
featTypes = {
"sequence variant": "variant",
"mutagenesis site": "mutagen",
"modified residue": "modif",
"cross-link": "cross-link",
"region of interest": "interest",
"short sequence motif": "motif",
"metal ion-binding site": "ion-binding",
"site": "site",
"topological domain" : "topo",
"transmembrane region" : "transmem",
"disulfide bond" : "disulf bond",
"glycosylation site" : "glyco",
"binding site" : "bind",
"active site" : "enzyme act site",
"signal peptide" : "signal pep",
"transit peptide" : "trans pep",
"calcium-binding region" : "calcium bind",
"lipid moiety-binding region" : "lipid",
"propeptide" : "propep",
"intramembrane region" : "intramem",
"peptide" : "peptide",
"nucleotide phosphate-binding region" : "nucl phos bind",
"helix" : "helix",
"chain" : "chain",
"coiled-coil region" : "coiled-coil",
"turn" : "turn",
"strand" : "beta",
"domain" : "domain",
"zinc finger region" : "zinc finger",
"repeat" : "repeat",
"compositionally biased region" : "biased",
"initiator methionine" : "init Met",
"non-standard amino acid" : "non-std",
"non-consecutive residues" : "non-consec",
"unsure residue" : "unsure",
"DNA-binding region" : "DNA-binding",
"non-terminal residue" : "nonTerm"
}
# main record info
entryHeaders = ["dataset", "acc", "mainIsoAcc", "orgName", "orgCommon", "taxonId", "name", "accList", \
"protFullNames", "protShortNames", "protAltFullNames", "protAltShortNames", \
"geneName", "geneSynonyms", "isoNames", \
"geneOrdLocus", "geneOrf", \
"hgncSym", "hgncId", "refSeq", "refSeqProt", "entrezGene", "ensemblGene", "ensemblProt", \
"kegg", "emblMrna", "emblMrnaProt", "emblDna", "emblDnaProt", \
"pdb", "ec", \
"uniGene", "omimGene", "omimPhenotype", "subCellLoc", "functionText", "mainSeq", "isoIds", "isoSeqs"]
EntryRec = collections.namedtuple("uprec", entryHeaders)
# disease associated mutation
mutHeaders = ["acc", "mainIsoAcc", "varId", "featType", "shortFeatType", "begin", "end", "origAa", "mutAa", "dbSnpId", "disRelated", "disease", "disCode", "pmid", "comment"]
MutRec = collections.namedtuple("mutrec", mutHeaders)
# references from record
refHeaders = ["name", "citType", "year", "journal", "vol", "page", \
"title", "authors", "doi", "pmid", "scopeList"]
RefRec = collections.namedtuple("refRec", refHeaders)
emptyRef = dict(zip(refHeaders, len(refHeaders)*[""]))
def strip_namespace_inplace(etree, namespace=None,remove_from_attr=True):
""" Takes a parsed ET structure and does an in-place removal of all namespaces,
or removes a specific namespacem (by its URL).
Can make node searches simpler in structures with unpredictable namespaces
and in content given to be non-mixed.
By default does so for node names as well as attribute names.
(doesn't remove the namespace definitions, but apparently
ElementTree serialization omits any that are unused)
Note that for attributes that are unique only because of namespace,
this may attributes to be overwritten.
For example: <e p:at="bar" at="quu"> would become: <e at="bar">
I don't think I've seen any XML where this matters, though.
"""
if namespace==None: # all namespaces
for elem in etree.getiterator():
tagname = elem.tag
if not isinstance(elem.tag, basestring):
continue
if tagname[0]=='{':
elem.tag = tagname[ tagname.index('}',1)+1:]
if remove_from_attr:
to_delete=[]
to_set={}
for attr_name in elem.attrib:
if attr_name[0]=='{':
old_val = elem.attrib[attr_name]
to_delete.append(attr_name)
attr_name = attr_name[attr_name.index('}',1)+1:]
to_set[attr_name] = old_val
for key in to_delete:
elem.attrib.pop(key)
elem.attrib.update(to_set)
else: # asked to remove specific namespace.
ns = '{%s}' % namespace
nsl = len(ns)
for elem in etree.getiterator():
if elem.tag.startswith(ns):
elem.tag = elem.tag[nsl:]
if remove_from_attr:
to_delete=[]
to_set={}
for attr_name in elem.attrib:
if attr_name.startswith(ns):
old_val = elem.attrib[attr_name]
to_delete.append(attr_name)
attr_name = attr_name[nsl:]
to_set[attr_name] = old_val
for key in to_delete:
elem.attrib.pop(key)
elem.attrib.update(to_set)
def parseDiseases(fname):
" parse the file humanDiseases.txt from uniprot to resolve disease IDs to disease names "
dis = {}
for line in open(fname).read().splitlines():
if line.startswith("ID"):
name = line[5:].strip(".")
if line.startswith("AR"):
code = line[5:].strip(".")
dis[code]=name
return dis
def findSaveList(el, path, dataDict, key, attribKey=None, attribVal=None, useAttrib=None, subSubEl=None):
""" find all text of subelemets matching path with given optionally attrib and save into dataDict with key
You can specify a subSubEl of the element to get the text from.
"""
l = []
for se in el.findall(path):
if attribKey!=None and se.attrib.get(attribKey, None)!=attribVal:
continue
if useAttrib:
val = se.attrib[useAttrib]
else:
if subSubEl:
val = se.find(subSubEl).text
else:
val = se.text
l.append(val)
s = "|".join(l)
dataDict[key] = s
def openOutTabFile(subDir, outName, headers):
" create outdir and open outfile, write headers "
#subDir = join(outDir, outSubDir)
if not isdir(subDir):
logging.info("Creating dir %s" % subDir)
os.makedirs(subDir)
outPath = join(subDir, outName)
logging.info("Writing output to %s" % outPath)
ofh = open(outPath, "w")
ofh.write("\t".join(headers)+"\n")
return ofh
def findDisCodes(text, disToName):
""" find disease codes in text, return as a set of disease codes
>>> findDiseases("Defects in HAL are the cause of histidinemia (HISTID) ")
set(['HISTID'])
"""
disSet = set()
for m in re.finditer("[(]([a-zA-Z0-9- ]+)[)]", text):
word = m.group(1)
if word in disToName:
disSet.add(word)
return disSet
#def findDiseases(text):
# """ find disease codes and their names in text, return as dict code -> name
# >>> findDiseases("Defects in CEACAM16 are the cause of deafness autosomal dominant type 4B (DFNA4B) [MIM:614614].")
# {'DFNA4B': 'deafness autosomal dominant type 4B'}
# >>> findDiseases("Defects in ALX4 are the cause of parietal foramina 2 (PFM2) [MIM:609597]; also known as foramina parietalia permagna (FPP). PFM2 is an autosomal dominant disease characterized by oval defects of the parietal bones caused by deficient ossification around the parietal notch, which is normally obliterated during the fifth fetal month. PFM2 is also a clinical feature of Potocki-Shaffer syndrome.")
# {'PFM2': 'parietal foramina 2', 'FPP': 'foramina parietalia permagna'}
#
# # disease is only one word, but long enough
# >>> findDiseases("Defects in HAL are the cause of histidinemia (HISTID) ")
# {'HISTID': 'histidinemia'}
# """
# result = {}
# phrases = re.split("[;.] ", text)
# notDisease = set(["of", "with", "to", "as", "or", "also", "in"])
#
# for phrase in phrases:
# words = phrase.split()
# revWords = reversed(words)
#
# grabWords = False
# disWords = []
# disCode = None
# # go backwords over words and look for acronym, then grab all words before that
# # until we find a common English word
# for word in revWords:
# m = re.match("[(]([A-Z0-9-]+)[)]", word)
# if m!=None:
# disCode = m.group(1)
# grabWords = True
# continue
#
# if word in notDisease and (len(disWords)>1 or len("".join(disWords))>=9):
# disName = " ".join(list(reversed(disWords)))
# if disCode==None:
# logging.debug("Found disease %s, but no code for it" % disName)
# continue
# result[disCode] = disName
# disCode = None
# disWords = []
# grabWords = False
#
# if grabWords:
# disWords.append(word)
#
# return result
#def parseDiseaseComment(entryEl):
# """ return two dicts
# one with evidence code -> disease code
# one with disease code -> disease name
# """
# disRefs = {}
# disCodes = {}
# for commentEl in entryEl.findall("comment"):
# textEl = commentEl.find("text")
# if commentEl.attrib["type"]=="disease":
# refStr = commentEl.attrib.get("evidence", None)
# # website xml is different, has evidence attribute on text element
# if refStr==None:
# refStr = textEl.attrib.get("evidence", None)
# if refStr==None:
# continue
#
# refs = refStr.split(" ")
#
# text = textEl.text
# logging.debug("Disease comment: %s, evidence %s" % (text, refStr))
# disCodes.update(findDiseases(text))
#
# for refId in refs:
# disRefs[refId] = disCodes
#
# logging.debug("Found disease evidences: %s" % disRefs)
# logging.debug("Found disease names: %s" % disCodes)
# return disRefs, disCodes
def parseDiseaseComment(entryEl, disToName):
"""
parse the general comments, disease section from up record
return evidence codes that refer to diseases
also return disease codes
"""
disRefs = {}
disCodes = set()
for commentEl in entryEl.findall("comment"):
textEl = commentEl.find("text")
if commentEl.attrib["type"]=="disease":
refStr = commentEl.attrib.get("evidence", None)
# website xml is different, has evidence attribute on text element
if refStr==None:
refStr = textEl.attrib.get("evidence", None)
if refStr==None:
continue
refs = refStr.split(" ")
text = textEl.text
logging.debug("Disease comment: %s, evidence %s" % (text, refStr))
disCodes.update(findDisCodes(text, disToName))
for refId in refs:
disRefs[refId] = disCodes
logging.debug("Found disease evidences: %s" % disRefs)
#logging.debug("Found disease names: %s" % disCodes)
return disRefs, disCodes
def parseIsoforms(acc, mainSeq, entryEl, isoSeqs):
" parse sequences of isoforms, returns lists: isoIds, isoNames, seqs "
isoDefined = False
isoIds = []
isoNames = []
seqs = []
for isoEl in entryEl.findall("comment/isoform"):
isoDefined = True
# get id
idEl = isoEl.find("id")
isoId = idEl.text
# get names (just as gene synonyms)
for nameEl in isoEl.find("name"):
isoNames.append(nameEl.text)
seqEl = isoEl.find("sequence")
# get sequences
seqType = seqEl.attrib["type"]
if seqType=="displayed":
seqs.append(mainSeq)
isoIds.append(isoId)
elif seqType=="external":
pass # weird anyways
else:
if isoId not in isoSeqs:
logging.debug("sequence %s does not exist" % isoId)
else:
seqs.append(isoSeqs[isoId])
isoIds.append(isoId)
if not isoDefined:
isoIds = [acc]
seqs = [mainSeq]
assert(len(seqs)==len(isoIds))
return isoIds, isoNames, seqs
def parseDbRefs(entryEl):
" return dict with db -> id (various special cases) "
dbRefs = defaultdict(set)
dbRefs["emblMrna"] = []
dbRefs["emblMrnaProt"] = []
dbRefs["emblDna"] = []
dbRefs["emblDnaProt"] = []
for dbRefEl in entryEl.findall("dbReference"):
db = dbRefEl.attrib["type"]
mainId = dbRefEl.attrib["id"]
if db=="EMBL": # special case, don't add yet
emblId = mainId
else:
dbRefs[db].add(mainId)
propEls = dbRefEl.findall("property")
emblProtId = "na"
id = None
for propEl in propEls:
propType = propEl.attrib["type"]
propDb = db
if (db, propType) ==("RefSeq", "nucleotide sequence ID"):
id = propEl.attrib["value"]
propDb = "refseqNucl"
elif db=="HGNC" and propType=="gene designation":
id = propEl.attrib["value"]
propDb = "hgncGene"
elif db=="Ensembl" and propType=="gene ID":
id = propEl.attrib["value"]
propDb = "ensemblGene"
elif db=="Ensembl" and propType=="protein sequence ID":
id = propEl.attrib["value"]
propDb = "ensemblProt"
elif db=="EMBL" and propType=="protein sequence ID":
emblProtId = propEl.attrib["value"]
continue # don't add yet
elif db=="MIM" and propType=="type":
omimCat = propEl.attrib["value"]
if omimCat=="phenotype":
dbRefs["omimPhenotype"].add(mainId)
elif omimCat=="gene" or omimCat=="gene+phenotype":
dbRefs["omimGene"].add(mainId)
else:
assert(False)
elif db=="EMBL" and propType=="molecule type":
val = propEl.attrib["value"]
if val=="mRNA":
# add now
dbRefs["emblMrna"].append(emblId)
dbRefs["emblMrnaProt"].append(emblProtId)
else:
dbRefs["emblDna"].append(emblId)
dbRefs["emblDnaProt"].append(emblProtId)
continue # don't add any id
else:
id = dbRefEl.attrib["id"]
if id!=None:
dbRefs[propDb].add(id)
result = {}
for db, valList in dbRefs.iteritems():
result[db] = "|".join(valList)
logging.debug("dbRefs: %s" % result)
return result
def splitAndResolve(disName, disCodes, splitWord):
" split and split word, try to resolve via disCodes and rejoin again "
subDises = disName.split(splitWord)
newDises = []
for subDis in subDises:
subDis = subDis.strip()
if subDis in disCodes:
newDises.append(disCodes[subDis])
else:
newDises.append(subDis)
disName = ",".join(newDises)
return disName
def parseFeatDesc(text, disToName):
"""
parse the description of a feature to find code name of disease, snpId and comments
return tuple: (disease name, dbSnpId, otherComments)
>>> parseFeatDesc("In sporadic cancers; somatic mutation; dbSNP:rs11540654.", {})
('sporadic cancers', 'rs11540654', 'somatic mutation')
>>> parseFeatDesc("In RIEG1; pointless comment", {"RIEG1" : "Axel-Riegerfeldt syndrome"})
('Axel-Riegerfeldt syndrome', '', 'pointless comment')
"""
# find disease name and try to resolve via disToNames
logging.debug("Feature description: %s " % (text))
text = text.strip(".").strip()
parts = text.split("; ")
disCode = ""
comments = []
for part in parts:
part = part.replace("a patient with", "")
part = part.replace("in a ", "in ")
partLow = part.lower()
if partLow.startswith("in ") and "dbSNP" not in part and "allele" not in part:
disCode = " ".join(part.split()[1:])
# some entries contain two disease names
else:
if "dbSNP" not in part:
comments.append(part)
# we got a plain disease code
if disCode in disToName:
disLongName = disToName[disCode]
# or two dis codes with and
elif " and " in disCode:
disLongName = splitAndResolve(disCode, disToName, " and ")
else:
# there are dis code somewhere inside the text
intDisCodes = findDisCodes(disCode, disToName)
if len(intDisCodes)!=0:
disLongName = disCode
disCode = ",".join(intDisCodes)
# ok nothing worked, keep it as it is
else:
disLongName = disCode
# find snpId
snpId = ""
for m in re.finditer("dbSNP:(rs[0-9]+)", text):
if m!=None:
#assert(snpId=="")
snpId = m.group(1)
logging.debug("Disease: %s, snpId: %s" % (disLongName, snpId))
return disCode, disLongName, snpId, "; ".join(comments)
ignoredTypes = collections.Counter()
def parseFeatures(entryEl, disRefs, defaultDisCodes, disToName, evidPmids, mainIsoAcc):
" go over features and yield mutation records "
acc = entryEl.find("accession").text
mutations = []
for featEl in entryEl.findall("feature"):
featType = featEl.attrib["type"]
if featType not in featTypes:
ignoredTypes[featType] += 1
continue
if featType in ["sequence variant"]:
isVariant = True
else:
isVariant = False
shortFeatType = featTypes[featType]
logging.debug("type: %s" % featType)
varId = featEl.attrib.get("id", "")
logging.debug("Variant ID %s" % varId)
origEl = featEl.find("original")
if origEl==None:
#logging.debug("No original residue")
#continue
orig = ""
else:
orig = origEl.text
varEl = featEl.find("variation")
if varEl==None:
variant = ""
else:
variant = varEl.text
logging.debug("residue change: %s->%s" % (orig, variant))
posEl = featEl.find("location/position")
if posEl!=None:
begin = posEl.attrib["position"]
end = str(int(begin)+1)
else:
beginEl = featEl.find("location/begin")
begin = beginEl.attrib.get("position", None)
if begin==None:
logging.debug("Unknown start, skipping a feature")
continue
endEl = featEl.find("location/end")
end = endEl.attrib.get("position", None)
if end==None:
logging.debug("Unknown end, skipping a feature")
continue
end = str(int(end)+1)
desc = featEl.attrib.get("description", None)
if desc==None:
#logging.debug("No description")
#continue
desc = ""
if "sulfinic" in desc:
shortFeatType = "sulfo"
descWords = desc.split()
if len(descWords)>0:
desc1 = descWords[0].lower()
if "phos" in desc1:
shortFeatType = "phos"
elif "acetyl" in desc1:
shortFeatType = "acetyl"
elif "methyl" in desc1:
shortFeatType = "methyl"
elif "lipo" in desc1:
shortFeatType = "lipo"
elif "hydroxy" in desc1:
shortFeatType = "hydroxy"
elif "nitro" in desc1:
shortFeatType = "nitro"
evidStr = featEl.attrib.get("evidence", "")
logging.debug("variant pos %s-%s, desc %s, evidence %s" % (begin, end, desc, evidStr))
desc = desc.strip("() ")
#if desc=="":
#logging.debug("No description")
#continue
#if evidStr==None:
#logging.debug("No evidence")
#continue
evidList = evidStr.split()
if isVariant:
# only do this for natural variants
disCode, disName, snpId, comments = parseFeatDesc(desc, disToName)
# if no disease annotated to feature, use the one from the record
if disCode=="" and len(defaultDisCodes)==1:
disCode = list(defaultDisCodes)[0]
disName = disToName.get(disCode, disCode)+" (not annotated on variant but on gene record)"
disCode = disCode + "?"
else:
disCode, disName, snpId, comments = "", "", "", desc
varPmids = []
if disCode!="":
diseaseRelated = "disRelated"
else:
diseaseRelated = "noEvidence"
for evidId in evidList:
if evidId in disRefs:
diseaseRelated="disRelated"
else:
diseaseRelated="notDisRelated"
logging.debug("evidence is not a disease evidence or blacklisted, check description")
pmids = evidPmids.get(evidId, [])
assert(len(pmids)<=1)
if len(pmids)>0:
pmid = list(pmids)[0]
varPmids.append(pmid)
if len(varPmids)==1 and set(varPmids).intersection(pmidBlackList)==len(varPmids):
logging.debug("only blacklist pmids, skipping feature")
mut = MutRec(acc, mainIsoAcc, varId, featType, shortFeatType, begin, end, orig, variant, snpId, diseaseRelated, disName, disCode, ",".join(varPmids), comments)
logging.debug("Accepted variant: %s" % str(mut))
# rewrite disulfide bonds to two separate features, one for each cysteine involved
if featType=="disulfide bond":
end = mut.end
comment = mut.comment
if comment!="":
comment+= "; "
newComment = comment + "disulfide bond to position %s" % str(int(mut.end)-1)
mut1 = mut._replace(end=str(int(mut.begin)+1), comment=newComment)
yield mut1
newComment = comment + "disulfide bond to position %s" % mut.begin
mut2 = mut._replace(begin=str(int(mut.end)-1), comment=newComment)
yield mut2
else:
yield mut
def parseEvidence(entryEl):
" return a dict with evidCode -> PMID "
result = {}
for evidEl in entryEl.findall("evidence"):
evidCode = evidEl.attrib["key"]
for dbRefEl in evidEl.findall("source/dbReference"):
dbType = dbRefEl.attrib["type"]
if dbType=="PubMed":
pmid = dbRefEl.attrib["id"]
#if pmid in pmidBlackList:
#continue
result.setdefault(evidCode, [])
result[evidCode].append(pmid)
return result
def parseVariants(entryEl, mainIsoAcc, disToName):
" return MutRecs with disease associated variants "
# parse the general record comment about diseases
disRefs, allDiseaseCodes = parseDiseaseComment(entryEl, disToName)
#if len(disRefs)==0:
#logging.debug("No disease evidence")
#return []
acc = entryEl.find("accession").text
logging.debug("Diseases in %s" % acc)
evidPmids = parseEvidence(entryEl)
mutRecs = list(parseFeatures(entryEl, disRefs, allDiseaseCodes, disToName, evidPmids, mainIsoAcc))
return mutRecs
def parseRecInfo(entryEl, entry, isoSeqs):
"""parse uniprot general record info into entry dict
use isoform sequences from isoSeqs
only process certain taxonIds
"""
dataset = entryEl.attrib["dataset"]
entry["dataset"] = dataset
findSaveList(entryEl, "name", entry, "name")
findSaveList(entryEl, "accession", entry, "accList")
entry["acc"] = entry["accList"].split("|")[0]
logging.debug("Parsing rec info for acc %s" % entry["acc"])
findSaveList(entryEl, "protein/recommendedName/fullName", entry, "protFullNames")
findSaveList(entryEl, "protein/recommendedName/shortName", entry, "protShortNames")
findSaveList(entryEl, "protein/alternativeName/fullName", entry, "protAltFullNames")
findSaveList(entryEl, "protein/alternativeName/shortName", entry, "protAltShortNames")
findSaveList(entryEl, "gene/name", entry, "geneName", attribKey="type", attribVal="primary")
findSaveList(entryEl, "gene/name", entry, "geneSynonyms", attribKey="type", attribVal="synonym")
findSaveList(entryEl, "gene/name", entry, "geneOrdLocus", attribKey="type", attribVal="ordered locus")
findSaveList(entryEl, "gene/name", entry, "geneOrf", attribKey="type", attribVal="ORF")
findSaveList(entryEl, "organism/name", entry, "orgName", attribKey="type", attribVal="scientific")
findSaveList(entryEl, "organism/name", entry, "orgCommon", attribKey="type", attribVal="common")
findSaveList(entryEl, "organism/dbReference", entry, "taxonId", useAttrib="id")
findSaveList(entryEl, "comment/isoform/id", entry, "isoIds")
findSaveList(entryEl, "comment/isoform/name", entry, "isoNames")
findSaveList(entryEl, "comment/subcellularLocation/location", entry, "subCellLoc")
findSaveList(entryEl, "comment", entry, "functionText", attribKey="type", attribVal="function", subSubEl="text")
mainSeq = entryEl.find("sequence").text
entry["mainSeq"] = mainSeq
isoIds, isoNames, seqs = parseIsoforms(entry["acc"], mainSeq, entryEl, isoSeqs)
dbRefs = parseDbRefs(entryEl)
entry["mainIsoAcc"] = isoIds[0]
entry["hgncSym"] = dbRefs.get("hgncGene", "")
entry["hgncId"] = dbRefs.get("HGNC", "")
entry["refSeq"] = dbRefs.get("refseqNucl", "")
entry["refSeqProt"] = dbRefs.get("RefSeq", "")
entry["ensemblProt"] = dbRefs.get("ensemblProt", "")
entry["ensemblGene"] = dbRefs.get("ensemblGene", "")
entry["entrezGene"] = dbRefs.get("GeneID", "")
entry["kegg"] = dbRefs.get("KEGG", "")
entry["uniGene"] = dbRefs.get("UniGene", "")
entry["omimGene"] = dbRefs.get("omimGene", "")
entry["omimPhenotype"] = dbRefs.get("omimPhenotype", "")
entry["emblMrna"] = dbRefs.get("emblMrna", "") # mrnas
entry["emblMrnaProt"] = dbRefs.get("emblMrnaProt", "") # the protein accessions for mrnas
entry["emblDna"] = dbRefs.get("EmblDna", "") # anything not an mrna
entry["emblDnaProt"] = dbRefs.get("EmblDnaProt", "") # protein accessions for non-mrnas
entry["pdb"] = dbRefs.get("PDB", "")
entry["ec"] = dbRefs.get("EC", "")
entry["isoIds"]="|".join(isoIds)
entry["isoSeqs"]="|".join(seqs)
entry["isoNames"]="|".join(isoNames)
entryRow = EntryRec(**entry)
return entryRow
def parseRefInfo(entryEl, recName):
for refEl in entryEl.findall("reference"):
ref = copy.copy(emptyRef)
ref["name"] = recName
citEl = refEl.find("citation")
ref["citType"] = citEl.attrib["type"]
year = citEl.attrib.get("date", "")
ref["year"] = year.split("-")[0]
ref["journal"] = citEl.attrib.get("name", "")
if ref["journal"]=="":
ref["journal"] = citEl.attrib.get("db", "") # for submissions
ref["vol"] = citEl.attrib.get("volume", "")
ref["page"] = citEl.attrib.get("first", "")
for titleEl in citEl.findall("title"):
ref["title"] = titleEl.text
authorList = []
for personEl in citEl.findall("authorList/person"):
if "name" in personEl.attrib:
name = personEl.attrib["name"]
name = name.replace(" ", ",", 1)
authorList.append(name)
ref["authors"]=";".join(authorList)
for dbRefEl in citEl.findall("dbReference"):
if "type" in dbRefEl.attrib:
if dbRefEl.attrib["type"]=="DOI":
ref["doi"] = dbRefEl.attrib["id"]
if dbRefEl.attrib["type"]=="PubMed":
ref["pmid"] = dbRefEl.attrib["id"]
findSaveList(refEl, "scope", ref, "scopeList")
refRow = RefRec(**ref)
yield refRow
def readIsoforms(inDir):
" return all isoform sequences as dict isoName (eg. P48347-2) -> sequence "
isoFname = join(inDir, "uniprot_sprot_varsplic.fasta.gz")
isoFile = gzip.open(isoFname)
logging.info("reading isoform sequences from %s" % isoFname)
isoSeqs = maxbio.parseFastaAsDict(isoFile)
result = {}
seqNames = []
for id, seq in isoSeqs.iteritems():
idParts = id.split("|")
isoName = idParts[1]
result[isoName] = seq
seqNames.append(idParts[2].split()[0])
logging.info("Found %d isoform sequences" % len(result))
return result, len(set(seqNames))
def writeFaSeqs(entry, faFiles, allVariants=False):
""" write main sequence to faFile with the right taxonId
base sequence always has accession as ID
"""
#seqIds = entry.isoIds.split("|")
if allVariants:
seqIds = entry.isoIds.split("|")
seqs = entry.isoSeqs.split("|")
else:
seqIds = [entry.acc]
seqs = [entry.isoSeqs.split("|")[0]]
taxonId = entry.taxonId
if "all" in faFiles:
ofh = faFiles["all"]
else:
ofh = faFiles[taxonId]
#for seqId, seq in zip(seqIds, seqs):
#ofh.write(">%s\n%s\n" % (seqId, seq))
c = 0
for seqId, seq in zip(seqIds, seqs):
# this was to make sure that the first variant has the uniprot ID
# sounds like not such a good idea but maybe necessary for the
# uniprot lifter file?
#if c==0 and allVariants:
#seqId = entry.acc
ofh.write(">%s\n%s\n" % (seqId.strip(), seq.strip()))
c+=1
def openFaFiles(taxonIds, outDir, outPrefix, seqType="base"):
faFiles = {}
if taxonIds == None:
taxonIds = ["all"]
for taxonId in taxonIds:
taxonId = str(taxonId)
seqQual = ""
if seqType!="base":
seqQual = "."+seqType
faFname = join(outDir, outPrefix+"."+taxonId+seqQual+".fa.gz")
faFiles[taxonId] = gzip.open(faFname, "w")
logging.info("Writing fasta seqs for taxon %s to %s (seqType: %s)" % (taxonId, faFname, seqType))
return faFiles
def parseUniprot(db, inDir, outDir, taxonIds):
" parse uniprot, write records and refs to outdir "
if options.parse:
fname = options.parse
logging.info("Debug parse of %s" % fname)
xmlFile = open(fname)
isoSeqs, recCount = {}, 1
outDir = "."
outPrefix = "temp"
else:
isoSeqs, recCount = readIsoforms(inDir)
if db=="uniprot":
xmlBase = "uniprot_sprot.xml.gz"
outPrefix = "uniprot"
recCount = 500000
elif db=="uniprotTrembl":
xmlBase = "uniprot_trembl.xml.gz"
outPrefix = "uniprotTrembl"
recCount = 500000*37
else:
raise Exception("unknown db")
xmlFile = gzip.open(join(inDir, xmlBase))
logging.info("Parsing main XML file %s" % xmlFile.name)
# create a dict taxonId -> output file handles for record info, pmid reference info and mutation info
outFhs = {}
for taxId in taxonIds:
entryOf = openOutTabFile(outDir, "%s.%s.tab" % (outPrefix, taxId), entryHeaders)
refOf = openOutTabFile(outDir, "%s.%s.refs.tab" % (outPrefix, taxId), refHeaders)
mutOf = openOutTabFile(outDir, "%s.%s.mut.tab" % (outPrefix, taxId), mutHeaders)
outFhs[taxId] = (entryOf, refOf, mutOf)
disToName = parseDiseases(join(inDir, "humdisease.txt"))
# base and variant sequence filehandles
faFiles = openFaFiles(taxonIds, outDir, outPrefix)
varFaFiles = openFaFiles(taxonIds, outDir, outPrefix, "var")
emptyEntry = dict(zip(entryHeaders, len(entryHeaders)*[""]))
pm = maxCommon.ProgressMeter(recCount)
#for _, entryEl in etree.iterparse(xmlFile.name, tag='{http://uniprot.org/uniprot}entry'):
for _, entryEl in etree.iterparse(xmlFile):
if entryEl.tag!="{http://uniprot.org/uniprot}entry":
continue
strip_namespace_inplace(entryEl) # die, die stupid namespaces!!
entry = copy.copy(emptyEntry)
pm.taskCompleted()
entryTax = int(entryEl.find("organism/dbReference").attrib["id"])
if taxonIds==['all']:
taxId = "all"
else:
if entryTax not in taxonIds:
continue
entryOf, refOf, mutOf = outFhs[taxId]
entryRow = parseRecInfo(entryEl, entry, isoSeqs)
writeFaSeqs(entryRow, faFiles)
writeFaSeqs(entryRow, varFaFiles, allVariants=True)
entryOf.write("\t".join(entryRow)+"\n")
recName = entryRow.name
refRows = list(parseRefInfo(entryEl, recName))
for refRow in refRows:
refOf.write("\t".join(refRow)+"\n")
mutRecs = parseVariants(entryEl, entryRow.mainIsoAcc, disToName)
for mutRow in mutRecs:
logging.debug("writing row %s" % str(mutRow))
mutOf.write("\t".join(mutRow)+"\n")
entryEl.clear()
logging.info("Skipped annotation types: %s" % ignoredTypes.most_common())
def main(args, options):
#logFname = join(outDir, "dbParse.log")
if options.test:
import doctest
doctest.testmod()
sys.exit(0)
pubGeneric.setupLogging("pubParseDb", options)
db = args[0]
refDir = pubConf.dbRefDir
maxCommon.mustExistDir(refDir, makeDir=True)
if db=="pdb":
dbDir = pubConf.pdbBaseDir
#parsePdb("/hive/data/outside/pdb/o9/pdb1o91.ent.gz", refDir)
parsePdb(dbDir, refDir)
elif db in ["uniprot", "uniprotTrembl"]:
dbDir = pubConf.uniProtBaseDir
#taxonIds = set(pubConf.uniProtTaxonIds)
if len(args)==1:
raise Exception("Please specify a taxonId or list of taxonIds, like 9606, or 'all'")
taxonIds = args[1]
if taxonIds=="all":
taxonIds = ['all']
else:
taxonIds=[int(x) for x in taxonIds.split(",")]
parseUniprot(db, dbDir, refDir, taxonIds)
else:
assert(False) # illegal db arg