def __init__(self, curs, assembly, pg): self.curs = curs self.assembly = assembly self.pg = pg self.pgc = PGcommon(self.pg, self.assembly) self.ctmap = self.pgc.makeCtMap()
def __init__(self, pw, assembly): self.pw = pw checkAssembly(assembly) self.assembly = assembly self.pgc = PGcommon(self.pw, self.assembly) self.pgg = PGgwas(self.pw, self.assembly) self.ctmap = self.pgc.makeCtMap() self.ctsTable = self.pgc.makeCTStable()
def __init__(self, DBCONN, assembly): self.assembly = assembly self.ps = PostgresWrapper(DBCONN) self.pgSearch = PGsearch(self.ps, self.assembly) self.cache = CachedObjects(self.ps, self.assembly) self._load() pg = PGcommon(self.ps, self.assembly) self.rankMethodToIDxToCellType = pg.rankMethodToIDxToCellType()
class TopAccessions: def __init__(self, curs, assembly, pg): self.curs = curs self.assembly = assembly self.pg = pg self.pgc = PGcommon(self.pg, self.assembly) self.ctmap = self.pgc.makeCtMap() def run(self): self._makeFile("promoter", "Promoter") self._makeFile("insulator", "Insulator") self._makeFile("enhancer", "Enhancer") def _makeFile(self, assay, title): print("********************", title) self.assaymap = {assay: self.pgc.datasets_multi(assay)} cts = sorted(list(set(self.assaymap[assay].keys()))) for ct in cts: print(ct) cti = self.ctmap[title][ct] self.curs.execute(""" SELECT accession, {assay}_zscores[{cti}], chrom, start, stop FROM {tn} WHERE {assay}_zscores[{cti}] > 1.64 ORDER BY 2 DESC """.format(assay=assay, cti=cti, tn=self.assembly + "_cre_all")) rows = self.curs.fetchall() ctSan = "".join(x for x in ct if x.isalnum() or x == '_') dnase_expID = self.assaymap[assay][ct]["dnase_expid"] other_expID = self.assaymap[assay][ct]["other_expid"] outFnp = paths.path( self.assembly, "export", assay + "-like", '_'.join([ctSan, dnase_expID, other_expID]) + ".tsv") Utils.ensureDir(outFnp) with open(outFnp, 'w') as outF: for r in rows: toks = [r[2], r[3], r[4], r[0], r[1]] outF.write('\t'.join([str(s) for s in toks]) + '\n') printWroteNumLines(outFnp)
def __init__(self, pw, assembly): self.pw = pw checkAssembly(assembly) self.assembly = assembly pg = PGcommon(self.pw, self.assembly) self.ctmap = pg.makeCtMap() self.ctsTable = pg.makeCTStable() # does does gwas_enrichment_fdr table exist for this assembly? self.wenrichment = {} tn = assembly + "_gwas_enrichment_fdr" hasTable = assembly == "GRCh38" if hasTable: cols = self.pw.description( "PGgwas", """ SELECT * FROM {tn} LIMIT 0""".format(tn=tn), {}) self.wenrichment = {x[0]: True for x in cols}
class PGsearch(object): def __init__(self, pw, assembly): self.pw = pw checkAssembly(assembly) self.assembly = assembly self.pgc = PGcommon(self.pw, self.assembly) self.pgg = PGgwas(self.pw, self.assembly) self.ctmap = self.pgc.makeCtMap() self.ctsTable = self.pgc.makeCTStable() def vista(self, accession): rows = self.pw.fetchall( "vista", """ SELECT * from {vtn} WHERE accession = %(acc)s""".format(vtn=self.assembly + "_vista"), {"acc": accession}) return [{"vid": x[2]} for x in rows] def versions(self): rows = self.pw.fetchall( "versions", """ SELECT accession, biosample, assay, version FROM {tn}""".format(tn=self.assembly + "_ground_level_versions")) return rows def gwasJson(self, j, json): self.pgg.gwasPercentActive(j["gwas_study"], j["cellType"], json) def allCREs(self): rows = self.pw.fetchall( "allCREs", """ SELECT {tn}.accession AS accession, chrom, start, stop FROM {tn} INNER JOIN {ttn} ON {ttn}.accession = {tn}.accession """.format(tn=self.assembly + "_cre_all", ttn=self.assembly + "_ccres_toptier")) return [{ "accession": e[0], "chrom": e[1], "start": e[2], "end": e[3] } for e in rows] def chromCounts(self): rows = self.pw.fetchall( "chromCounts", """ SELECT chrom, count from {tn} """.format(tn=self.assembly + "_cre_all_nums")) arr = [(e[0], e[1]) for e in rows] return natsorted(arr, key=lambda y: y[0]) def creHist(self): rows = self.pw.fetchall( "creHist", """ SELECT chrom, buckets, numBins, binMax from {tn} """.format(tn=self.assembly + "_cre_bins")) return { e[0]: { "bins": e[1], "numBins": e[2], "binMax": e[3] } for e in rows } def rfacets_active(self, j): present = [] ct = j.get("cellType", None) if ct: for assay in ["dnase", "promoter", "enhancer", "ctcf"]: if ct in self.ctmap[assay]: present.append(assay) return present def haveSCT(self, j): ct = j.get("cellType", None) ret = [] if ct: if ct in self.ctsTable: ret = ["sctv"] return ret def creTable(self, j, chrom, start, stop): pct = PGcreTable(self.pw, self.assembly, self.ctmap, self.ctsTable) return pct.creTable(j, chrom, start, stop) def geneTable(self, j, chrom, start, stop): pct = PGcreTable(self.pw, self.assembly, self.ctmap, self.ctsTable) return pct.geneTable(j, chrom, start, stop) def creTableDownloadBed(self, j, fnp): pct = PGcreTable(self.pw, self.assembly, self.ctmap, self.ctsTable) return pct.creTableDownloadBed(j, fnp) def creTableDownloadJson(self, j, fnp): pct = PGcreTable(self.pw, self.assembly, self.ctmap, self.ctsTable) return pct.creTableDownloadJson(j, fnp) def crePos(self, accession): r = self.pw.fetchone( "cre_pos", """ SELECT chrom, start, stop FROM {tn} WHERE accession = %s """.format(tn=self.assembly + "_cre_all"), (accession, )) if not r: print("ERROR: missing", accession) return None return Coord(r[0], r[1], r[2]) def _getGenes(self, accession, chrom, allOrPc): rows = self.pw.fetchall( "_getGenes", """ SELECT gi.approved_symbol, g.distance, gi.ensemblid_ver, gi.chrom, gi.start, gi.stop FROM (SELECT UNNEST(gene_{allOrPc}_id) geneid, UNNEST(gene_{allOrPc}_distance) distance FROM {tn} WHERE accession = %s) AS g INNER JOIN {gtn} AS gi ON g.geneid = gi.geneid """.format(tn=self.assembly + "_cre_all", gtn=self.assembly + "_gene_info", allOrPc=allOrPc), (accession, )) return rows def creGenes(self, accession, chrom): return (self._getGenes(accession, chrom, "all"), self._getGenes(accession, chrom, "pc")) def geneInfo(self, gene): r = self.pw.fetchoneAsNamedTuples( "pg$geneInfo", """ SELECT * FROM {gtn} WHERE approved_symbol = %s OR ensemblid = %s OR ensemblid_ver = %s """.format(gtn=self.assembly + "_gene_info"), (gene, gene, gene)) return r def intersectingSnps(self, accession, coord, halfWindow): c = coord.expanded(halfWindow) rows = self.pw.fetchall( "intersectingSnps", """ SELECT start, stop, snp FROM {tn} WHERE chrom = %s AND int4range(start, stop) && int4range(%s, %s) """.format(tn=self.assembly + "_snps"), (c.chrom, c.start, c.end)) ret = [] for snp in rows: start = snp[0] end = snp[1] ret.append({ "chrom": c.chrom, "cre_start": coord.start, "cre_end": coord.end, "accession": accession, "snp_start": start, "snp_end": end, "name": snp[2], "distance": min(abs(coord.end - end), abs(coord.start - start)) }) return ret def nearbyCREs(self, coord, halfWindow, cols, isProximalOrDistal): c = coord.expanded(halfWindow) tableName = self.assembly + "_cre_all" q = """ SELECT {cols} FROM {tn} INNER JOIN {ttn} ON {tn}.accession = {ttn}.accession WHERE chrom = %s AND int4range(start, stop) && int4range(%s, %s) """.format(cols=','.join(cols), tn=tableName, ttn=self.assembly + "_ccres_toptier") if isProximalOrDistal is not None: q += """ AND isProximal is {isProx} """.format(isProx=str(isProximalOrDistal)) rows = self.pw.fetchall("nearbyCREs", q, (c.chrom, c.start, c.end)) return rows def distToNearbyCREs(self, accession, coord, halfWindow): cols = [ "start", "stop", self.assembly + "_cre_all.accession AS accession" ] cres = self.nearbyCREs(coord, halfWindow, cols, None) ret = [] for c in cres: acc = c[2] if acc == accession: continue start = c[0] end = c[1] ret.append({ "name": acc, "distance": min(abs(coord.end - end), abs(coord.start - start)) }) return ret def cresInTad(self, accession, chrom, start): rows = self.pw.fetchall( "cresInTad", """ SELECT {cre}.accession AS accession, abs(%s - start) AS distance FROM {cre} INNER JOIN {ttn} ON {cre}.accession = {ttn}.accession WHERE chrom = %s AND int4range(start, stop) && int4range( (SELECT int4range(min(start), max(stop)) FROM {ti} ti inner join {tads} tads on ti.tadname = tads.tadname WHERE accession = %s)) AND abs(%s - start) < 100000 ORDER BY 2 """.format(cre=self.assembly + "_cre_all", ttn=self.assembly + "_ccres_toptier", ti=self.assembly + "_tads_info", tads=self.assembly + "_tads"), (start, chrom, accession, start)) frows = [x for x in rows if x[0] != accession] return [{"accession": r[0], "distance": r[1]} for r in frows] def genesInTad(self, accession, chrom): rows = self.pw.fetchall( "genesInTad", """ SELECT geneIDs FROM {tn} WHERE accession = %s """.format(tn=self.assembly + "_tads"), (accession, )) return rows def rankMethodToIDxToCellType(self): pg = PGcommon(self.pw, self.assembly) return pg.rankMethodToIDxToCellType() def rankMethodToCellTypes(self): rows = self.pw.fetchall( "pg$getRanIdxToCellType", """ SELECT idx, celltype, rankmethod FROM {assembly}_rankcelltypeindexex """.format(assembly=self.assembly)) _map = {} for r in rows: _map[r[2]] = [ (r[0], r[1]) ] if r[2] not in _map else _map[r[2]] + [(r[0], r[1])] ret = {} for k, v in _map.items(): ret[k] = [x[1] for x in sorted(v, key=lambda a: a[0])] #print(k, ret[k]) #print(ret.keys()) # ['Enhancer', 'H3K4me3', 'H3K27ac', 'Promoter', 'DNase', 'Insulator', 'CTCF'] return ret def _getColsForAccession(self, accession, chrom, cols): row = self.pw.fetchone( "_getColsForAccession", """ SELECT {cols} FROM {tn} WHERE accession = %s """.format(cols=','.join(cols), tn=self.assembly + "_cre_all"), (accession, )) return row def creRanksPromoter(self, accession, chrom): cols = ["promoter_zscores"] r = self._getColsForAccession(accession, chrom, cols) return {"zscores": {"Promoter": r[0]}} def creRanksEnhancer(self, accession, chrom): cols = ["enhancer_zscores"] r = self._getColsForAccession(accession, chrom, cols) return {"zscores": {"Enhancer": r[0]}} def creRanks(self, accession, chrom): cols = """dnase_zscores ctcf_zscores enhancer_zscores h3k27ac_zscores h3k4me3_zscores insulator_zscores promoter_zscores dnase_max h3k4me3_max h3k27ac_max ctcf_max pct""".split('\n') cols = [c.strip() for c in cols] r = self._getColsForAccession(accession, chrom, cols) group = r[-1] r = r[:-1] cols = [c.split('_')[0] if "max" not in c else c for c in cols][:-1] return (dict(list(zip(cols, r))), group) def creMostsimilar(self, acc, assay, threshold=20000): if self.assembly == "hg19": return [] def whereclause(r): _assay = assay if assay != "dnase": _assay = assay.replace("_dnase", "") + "_only" return " or ".join([ "%s_rank[%d] < %d" % (_assay, i + 1, threshold) for i in range(len(r)) if r[i] < threshold ]) r = self.pw.fetchone( "cre$CRE::mostsimilar", """ SELECT {assay}_rank FROM {assembly}_cre_all WHERE accession = %s """.format(assay=assay, assembly=self.assembly), acc) if not r: if 0: print("cre$CRE::mostsimilar WARNING: no results for accession", acc, " -- returning empty set") return [] whereclause = whereclause(r[0]) if len(whereclause.split(" or ")) > 200: if 0: print("cre$CRE::mostsimilar", "NOTICE:", acc, "is active in too many cell types", len(whereclause.split(" or ")), "returning empty set") return [] if not whereclause: if 0: print("cre$CRE::mostsimilar NOTICE:", acc, "not active in any cell types; returning empty set") return [] rows = self.pw.fetchall( "pg_search", """ SELECT accession, intarraysimilarity(%(r)s, {assay}_rank, {threshold}) AS similarity, chrom, start, stop FROM {assembly}_cre_all WHERE {whereclause} ORDER BY similarity DESC LIMIT 10 """.format(assay=assay, assembly=self.assembly, threshold=threshold, whereclause=whereclause), {"r": r}) return [{ "accession": r[0], "chrom": r[2], "start": r[3], "end": r[4] } for r in rows] def _intersections_tablename(self, metadata=False, eset=None): if eset not in [None, "cistrome", "peak"]: raise Exception( "pg$PGSearch::_intersections_tablename: invalid dataset %s" % eset) if eset is None: eset = "peak" return eset + "Intersections" + ("" if not metadata else "Metadata") def peakIntersectCount(self, accession, chrom, totals, eset=None): r = self.pw.fetchone( "peakIntersectCount", """ SELECT tf, histone FROM {tn} WHERE accession = %s """.format(tn=self.assembly + "_" + self._intersections_tablename(eset=eset)), (accession, )) if not r: return {"tfs": [], "histone": []} tfs = [{ "name": k, "n": len(set(v)), "total": totals.get(k, -1) } for k, v in r[0].items()] histones = [{ "name": k, "n": len(set(v)), "total": totals.get(k, -1) } for k, v in r[1].items()] return {"tf": tfs, "histone": histones} def tfHistoneDnaseList(self, eset=None): rows = self.pw.fetchall( "peakIntersectCount", """ SELECT distinct label FROM {tn} """.format(tn=self.assembly + "_" + self._intersections_tablename(metadata=True, eset=eset))) return sorted([r[0] for r in rows]) def genePos(self, gene): ensemblid = gene if gene.startswith("ENS") and '.' in gene: ensemblid = gene.split('.')[0] r = self.pw.fetchone( "cre_pos", """ SELECT chrom, start, stop, approved_symbol, ensemblid_ver FROM {tn} WHERE chrom != '' AND (approved_symbol = %s OR ensemblid = %s OR ensemblid_ver = %s) """.format(tn=self.assembly + "_gene_info"), (gene, ensemblid, gene)) if not r: print("ERROR: missing", gene) return None, None return Coord(r[0], r[1], r[2]), (r[3], r[4]) def allDatasets(self): # TODO: fixme!! dects = """ C57BL/6_embryonic_facial_prominence_embryo_11.5_days C57BL/6_embryonic_facial_prominence_embryo_12.5_days C57BL/6_embryonic_facial_prominence_embryo_13.5_days C57BL/6_embryonic_facial_prominence_embryo_14.5_days C57BL/6_embryonic_facial_prominence_embryo_15.5_days C57BL/6_forebrain_embryo_11.5_days C57BL/6_forebrain_embryo_12.5_days C57BL/6_forebrain_embryo_13.5_days C57BL/6_forebrain_embryo_14.5_days C57BL/6_forebrain_embryo_15.5_days C57BL/6_forebrain_embryo_16.5_days C57BL/6_forebrain_postnatal_0_days C57BL/6_heart_embryo_11.5_days C57BL/6_heart_embryo_12.5_days C57BL/6_heart_embryo_13.5_days C57BL/6_heart_embryo_14.5_days C57BL/6_heart_embryo_15.5_days C57BL/6_heart_embryo_16.5_days C57BL/6_heart_postnatal_0_days C57BL/6_hindbrain_embryo_11.5_days C57BL/6_hindbrain_embryo_12.5_days C57BL/6_hindbrain_embryo_13.5_days C57BL/6_hindbrain_embryo_14.5_days C57BL/6_hindbrain_embryo_15.5_days C57BL/6_hindbrain_embryo_16.5_days C57BL/6_hindbrain_postnatal_0_days C57BL/6_intestine_embryo_14.5_days C57BL/6_intestine_embryo_15.5_days C57BL/6_intestine_embryo_16.5_days C57BL/6_intestine_postnatal_0_days C57BL/6_kidney_embryo_14.5_days C57BL/6_kidney_embryo_15.5_days C57BL/6_kidney_embryo_16.5_days C57BL/6_kidney_postnatal_0_days C57BL/6_limb_embryo_11.5_days C57BL/6_limb_embryo_12.5_days C57BL/6_limb_embryo_13.5_days C57BL/6_limb_embryo_14.5_days C57BL/6_limb_embryo_15.5_days C57BL/6_liver_embryo_11.5_days C57BL/6_liver_embryo_12.5_days C57BL/6_liver_embryo_13.5_days C57BL/6_liver_embryo_14.5_days C57BL/6_liver_embryo_15.5_days C57BL/6_liver_embryo_16.5_days C57BL/6_liver_postnatal_0_days C57BL/6_lung_embryo_14.5_days C57BL/6_lung_embryo_15.5_days C57BL/6_lung_embryo_16.5_days C57BL/6_lung_postnatal_0_days C57BL/6_midbrain_embryo_11.5_days C57BL/6_midbrain_embryo_12.5_days C57BL/6_midbrain_embryo_13.5_days C57BL/6_midbrain_embryo_14.5_days C57BL/6_midbrain_embryo_15.5_days C57BL/6_midbrain_embryo_16.5_days C57BL/6_midbrain_postnatal_0_days C57BL/6_neural_tube_embryo_11.5_days C57BL/6_neural_tube_embryo_12.5_days C57BL/6_neural_tube_embryo_13.5_days C57BL/6_neural_tube_embryo_14.5_days C57BL/6_neural_tube_embryo_15.5_days C57BL/6_stomach_embryo_14.5_days C57BL/6_stomach_embryo_15.5_days C57BL/6_stomach_embryo_16.5_days C57BL/6_stomach_postnatal_0_days""".split('\n') dects = set(dects) def makeDataset(r): return { "assay": r[0], "expID": r[1], "fileID": r[2], "tissue": r[3], "biosample_summary": r[4], "biosample_type": r[5], "cellTypeName": r[6], "cellTypeDesc": r[7], "name": r[7], "value": r[6], # for datatables "isde": r[6] in dects, "synonyms": r[8] } cols = [ "assay", "expID", "fileID", "tissue", "biosample_summary", "biosample_type", "cellTypeName", "cellTypeDesc", "synonyms" ] rows = self.pw.fetchall( "datasets", """ SELECT {cols} FROM {tn} """.format(tn=self.assembly + "_datasets", cols=','.join(cols))) return [makeDataset(r) for r in rows] def datasets(self, assay): return self.pgc.datasets(assay) def genemap(self): rows = self.pw.fetchall( "pg::genemap", """ SELECT ensemblid, approved_symbol, strand FROM {tn} WHERE strand != '' """.format(tn=self.assembly + "_gene_info")) toSymbol = {r[0]: r[1] for r in rows} toStrand = {r[0]: r[2] for r in rows} rows = self.pw.fetchall( "pg::genemap", """ SELECT ensemblid_ver, approved_symbol, strand FROM {tn} WHERE strand != '' """.format(tn=self.assembly + "_gene_info")) toSymbol.update({r[0]: r[1] for r in rows}) toStrand.update({r[0]: r[2] for r in rows}) return toSymbol, toStrand def genesInRegion(self, chrom, start, stop): fields = ["approved_symbol", "start", "stop", "strand"] rows = self.pw.fetchall( "genesinregion", """ SELECT {fields} FROM {tn} WHERE chrom = %s AND int4range(start, stop) && int4range(%s, %s) ORDER BY start """.format(fields=','.join(fields), tn=self.assembly + "_gene_info"), (chrom, start, stop)) fields = ["gene", "start", "stop", "strand"] return [dict(list(zip(fields, r))) for r in rows] def histoneTargetExps(self, accession, target, eset=None): peakTn = self.assembly + "_" + self._intersections_tablename(eset=eset) peakMetadataTn = self.assembly + "_" + self._intersections_tablename( metadata=True, eset=eset) rows = self.pw.fetchall( "histoneTargetExps", """ SELECT {eid}fileID, biosample_term_name{tissue} FROM {peakMetadataTn} WHERE fileID IN ( SELECT distinct(jsonb_array_elements_text(histone->%s)) FROM {peakTn} WHERE accession = %s ) ORDER BY biosample_term_name """.format(eid=("" if eset == "cistrome" else "expID, "), tissue=(", tissue" if eset == "cistrome" else ""), peakTn=peakTn, peakMetadataTn=peakMetadataTn), (target, accession)) return [{ "expID": r[0] if eset == "cistrome" else (r[0] + ' / ' + r[1]), "biosample_term_name": r[1 if (eset == "cistrome" and r[1] != "None") else 2] } for r in rows] def tfTargetExps(self, accession, target, eset=None): peakTn = self.assembly + "_" + self._intersections_tablename( metadata=False, eset=eset) peakMetadataTn = self.assembly + "_" + self._intersections_tablename( metadata=True, eset=eset) rows = self.pw.fetchall( "tfTargetExps", """ SELECT {eid}fileID, biosample_term_name FROM {peakMetadataTn} WHERE fileID IN ( SELECT distinct(jsonb_array_elements_text(tf->%s)) FROM {peakTn} WHERE accession = %s ) ORDER BY biosample_term_name """.format(eid="" if eset == "cistrome" else "expID, ", peakTn=peakTn, peakMetadataTn=peakMetadataTn), (target, accession)) return [{ "expID": r[0] if eset == "cistrome" else (r[0] + ' / ' + r[1]), "biosample_term_name": r[1 if eset == "cistrome" else 2] } for r in rows] def rampageByGene(self, ensemblid_ver): rows = self.pw.fetchallAsDict( "rampageByGene", """ SELECT * FROM {tn} WHERE ensemblid_ver = %s """.format(tn=self.assembly + "_rampage"), (ensemblid_ver, )) ret = [] for r in rows: nr = {"data": {}} for k, v in r.items(): if k.startswith("encff"): nr["data"][k] = v continue nr[k] = v if not nr["data"]: continue ret.append(nr) return ret def rampage_info(self): rows = self.pw.fetchallAsDict( "rampageInfo", """ SELECT * FROM {tn} """.format(tn=self.assembly + "_rampage_info")) ret = {} for r in rows: ret[r["fileid"]] = r return ret def rampageEnsemblID(self, gene): r = self.pw.fetchone( "rampageEnsemblID", """ SELECT ensemblid_ver FROM {assembly}_gene_info WHERE approved_symbol = %(gene)s """.format(assembly=self.assembly), {"gene": gene}) return r[0] def geBiosampleTypes(self): rows = self.pw.fetchall( "geBiosampleTypes", """ SELECT DISTINCT(biosample_type) FROM {tn} ORDER BY 1 """.format(tn=self.assembly + "_rnaseq_exps")) return [r[0] for r in rows] def geneIDsToApprovedSymbol(self): rows = self.pw.fetchall( "geneIDsToApprovedSymbol", """ SELECT geneid, approved_symbol FROM {gtn} ORDER BY 1 """.format(gtn=self.assembly + "_gene_info")) return {r[0]: r[1] for r in rows} def getHelpKeys(self): rows = self.pw.fetchall( "getHelpKeys", """ SELECT key, title, summary FROM helpkeys """) return {r[0]: {"title": r[1], "summary": r[2]} for r in rows} def tfHistCounts(self, eset=None): if eset is None: eset = "peak" rows = self.pw.fetchall( "tfHistCounts", """ SELECT COUNT(label), label FROM {assembly}_{eset}intersectionsmetadata GROUP BY label """.format(assembly=self.assembly, eset=eset)) return {r[1]: r[0] for r in rows} def geneExpressionTissues(self): rows = self.pw.fetchall( "geneExpressionTissues", """ SELECT DISTINCT(organ) FROM {assembly}_rnaseq_exps """.format(assembly=self.assembly)) return [r[0] for r in rows] def loadNineStateGenomeBrowser(self): rows = self.pw.fetchallAsDict( "loadNineStateGenomeBrowser", """ SELECT cellTypeName, cellTypeDesc, dnase, h3k4me3, h3k27ac, ctcf, assembly, tissue FROM {tn} """.format(tn=self.assembly + "_nine_state")) ret = {} for r in rows: for k in ["dnase", "h3k4me3", "h3k27ac", "ctcf"]: fileID = r[k] if "NA" == fileID: url = "" else: fn = fileID + ".bigBed.bed.gz" url = "http://bib7.umassmed.edu/~purcarom/screen/ver4/v10/9-State/" + fn r[k + "_url"] = url ret[r["celltypename"]] = r return ret def loadMoreTracks(self): rows = self.pw.fetchall( "loadMoreTracks", """ SELECT cellTypeName, tracks FROM {tn} """.format(tn=self.assembly + "_more_tracks")) ret = {} for r in rows: ret[r[0]] = r[1] return ret def linkedGenes(self, accession): rows = self.pw.fetchallAsDict( "linkedGenes", """ SELECT gene, celltype, method, dccaccession FROM {tn} WHERE cre = %s """.format(tn=self.assembly + "_linked_genes"), (accession, )) return rows def creBigBeds(self): rows = self.pw.fetchall( "creBigBeds", """ SELECT celltype, dcc_accession, typ FROM {tn} """.format(tn=self.assembly + "_dcc_cres")) ret = {} for ct, acc, typ in rows: if ct not in ret: ret[ct] = {} ret[ct][typ] = acc return ret def creBeds(self): rows = self.pw.fetchall( "creBeds", """ SELECT celltype, dcc_accession, typ FROM {tn} """.format(tn=self.assembly + "_dcc_cres_beds")) ret = {} for ct, acc, typ in rows: if ct not in ret: ret[ct] = {} ret[ct][typ] = acc return ret
def rankMethodToIDxToCellType(self): pg = PGcommon(self.pw, self.assembly) return pg.rankMethodToIDxToCellType()
def __init__(self, pw, assembly): self.pw = pw checkAssembly(assembly) self.assembly = assembly pg = PGcommon(self.pg, self.assembly)