2007-07-20 11:36:26 +02:00
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import sys
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import rpy
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2007-11-07 13:34:13 +01:00
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from pylab import gca, figure, subplot,plot
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2007-07-20 11:36:26 +02:00
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from scipy import *
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2007-11-07 13:34:13 +01:00
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from scipy.linalg import norm
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from lpls import correlation_loadings
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2007-07-20 11:36:26 +02:00
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import rpy_go
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sys.path.append("../../fluents") # home of dataset
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sys.path.append("../../fluents/lib") # home of cx_stats
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2007-11-07 13:34:13 +01:00
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sys.path.append("/home/flatberg/fluents/scripts/lpls")
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2007-07-20 11:36:26 +02:00
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import dataset
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import cx_stats
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2007-11-07 13:34:13 +01:00
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from engines import nipals_lpls
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from validation import lpls_val, lpls_jk
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from plots_lpls import plot_corrloads, plot_dag
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import plots_lpls
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# Possible outliers
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# http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pubmed&pubmedid=16817967
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sample_outliers = ['OV:NCI_ADR_RES', 'CNS:SF_295', 'CNS:SF_539', 'RE:SN12C', 'LC:NCI_H226', 'LC:NCI_H522', 'PR:PC_3', 'PR:DU_145']
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####### OPTIONS ###########
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# data
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chip = "hgu133a"
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use_data = 'uma'
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subset = 'plsr'
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small_test = False
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use_sbg_subset = True # the sandberg nci-Ygroups subset
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std_y = True
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std_z = False
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# go
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ontology = "bp"
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min_genes = 5
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similarities = ("JiangConrath","Resnik","Lin","CoutoEnriched","CoutoJiangConrath","CoutoResnik","CoutoLin")
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meth = similarities[2]
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go_term_sim = "OA"
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# lpls
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a_max = 5
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aopt = 2
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xz_alpha = .4
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w_alpha = .3
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mean_ctr = [2, 0, 2]
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nsets = None
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qval_cutoff = 0.01
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n_iter = 200
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alpha_check = False
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calc_rmsep = False
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2007-07-20 11:36:26 +02:00
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######## DATA ##########
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2007-08-21 12:25:23 +02:00
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if use_data=='smoker':
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# full smoker data
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DX = dataset.read_ftsv(open("../../data/smokers-full/Smokers.ftsv"))
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DY = dataset.read_ftsv(open("../../data/smokers-full/Yg.ftsv"))
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Y = DY.asarray().astype('d')
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gene_ids = DX.get_identifiers('gene_ids', sorted=True)
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elif use_data=='scherf':
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2007-09-20 18:10:40 +02:00
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DX = dataset.read_ftsv(open("../../data/scherf/scherfX.ftsv"))
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DY = dataset.read_ftsv(open("../../data/scherf/scherfY.ftsv"))
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2007-11-07 13:34:13 +01:00
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Yg = DY.asarray().astype('d')
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2007-08-21 12:25:23 +02:00
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gene_ids = DX.get_identifiers('gene_ids', sorted=True)
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elif use_data=='staunton':
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pass
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elif use_data=='uma':
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DX = dataset.read_ftsv(open("../../data/uma/X133.ftsv"))
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2007-09-20 18:10:40 +02:00
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DYg = dataset.read_ftsv(open("../../data/uma/Yg133.ftsv"))
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DY = dataset.read_ftsv(open("../../data/uma/Yd.ftsv"))
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2007-08-21 12:25:23 +02:00
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Y = DY.asarray().astype('d')
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2007-11-07 13:34:13 +01:00
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Yg = DYg.asarray().astype('d')
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2007-08-21 12:25:23 +02:00
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gene_ids = DX.get_identifiers('gene_ids', sorted=True)
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2007-09-20 18:10:40 +02:00
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# use subset with defined GO-terms
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2007-11-07 13:34:13 +01:00
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ic_all = 2026006.0 # sum of all ic in BP
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max_ic = -log(1/ic_all)
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ic_cutoff = -log(min_genes/ic_all)/max_ic
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print "Information cutoff for min %d genes: %.2f" %(min_genes, ic_cutoff)
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gene2goterms = rpy_go.goterms_from_gene(gene_ids, ic_cutoff=ic_cutoff)
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2007-07-28 18:05:11 +02:00
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all_terms = set()
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for t in gene2goterms.values():
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all_terms.update(t)
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terms = list(all_terms)
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print "\nNumber of go-terms: %s" %len(terms)
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2007-09-20 18:10:40 +02:00
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2007-07-28 18:05:11 +02:00
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# update genelist
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gene_ids = gene2goterms.keys()
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print "\nNumber of genes: %s" %len(gene_ids)
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2007-08-21 12:25:23 +02:00
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2007-09-20 18:10:40 +02:00
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X = DX.asarray()
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index = DX.get_indices('gene_ids', gene_ids)
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X = X[:,index]
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# Use only subset defined on GO
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ontology = 'BP'
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print "\n\nFiltering genes by Go terms "
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2007-11-07 13:34:13 +01:00
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# use subset based on SAM,PLSR or (IQR)
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2007-08-21 12:25:23 +02:00
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if subset=='sam':
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# select subset genes by SAM
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rpy.r.library("siggenes")
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rpy.r.library("qvalue")
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2007-09-20 18:10:40 +02:00
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rpy.r.assign("data", X.T)
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2007-11-07 13:34:13 +01:00
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cl = dot(DYg.asarray(), diag(arange(Yg.shape[1])+1)).sum(1)
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2007-08-21 12:25:23 +02:00
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rpy.r.assign("cl", cl)
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rpy.r.assign("B", 20)
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# Perform a SAM analysis.
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print "Starting SAM"
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sam = rpy.r('sam.out<-sam(data=data,cl=cl,B=B,rand=123)')
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print "SAM done"
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# Compute the q-values of the genes.
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qq = rpy.r('qobj<-qvalue(sam.out@p.value)')
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qvals = asarray(qq['qvalues'])
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# cut off
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2007-11-07 13:34:13 +01:00
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cutoff = 0.001
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2007-08-21 12:25:23 +02:00
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index = where(qvals<cutoff)[0]
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2007-11-07 13:34:13 +01:00
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if small_test:
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index = index[:20]
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2007-08-21 12:25:23 +02:00
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# Subset data
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2007-09-20 18:10:40 +02:00
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X = X[:,index]
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gene_ids = [gid for i, gid in enumerate(gene_ids) if i in index]
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2007-11-07 13:34:13 +01:00
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print "\nNumber of genes: %s" %len(gene_ids)
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2007-08-21 12:25:23 +02:00
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print "\nWorking on subset with %s genes " %len(gene_ids)
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2007-09-20 18:10:40 +02:00
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# update valid go-terms
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2007-11-07 13:34:13 +01:00
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gene2goterms = rpy_go.goterms_from_gene(gene_ids, ic_cutoff=ic_cutoff)
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2007-09-20 18:10:40 +02:00
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all_terms = set()
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for t in gene2goterms.values():
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all_terms.update(t)
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terms = list(all_terms)
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print "\nNumber of go-terms: %s" %len(terms)
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2007-11-07 13:34:13 +01:00
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# update genelist
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gene_ids = gene2goterms.keys()
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print "\nNumber of genes: %s" %len(gene_ids)
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elif subset=='plsr':
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cx_stats.pls_qvals(X, Y)
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2007-08-21 12:25:23 +02:00
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else:
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# noimp (smoker data is prefiltered)
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pass
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2007-07-20 11:36:26 +02:00
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rpy.r.library("GOSim")
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# Go-term similarity matrix
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2007-07-28 18:05:11 +02:00
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2007-11-07 13:34:13 +01:00
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print "Term-term similarity matrix (method = %s)" %meth
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2007-08-21 12:25:23 +02:00
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print "\nCalculating term-term similarity matrix"
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2007-07-28 18:05:11 +02:00
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2007-11-07 13:34:13 +01:00
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if meth=="CoutoEnriched":
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aa = 0
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ba = 0
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rpy.r.setEnrichmentFactors(alpha = aa, beta =ba)
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2007-08-21 12:25:23 +02:00
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rpytmat = rpy.with_mode(rpy.NO_CONVERSION, rpy.r.getTermSim)(terms, method=meth,verbose=False)
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tmat = rpy.r.assign("haha", rpytmat)
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print "\n Calculating Z matrix"
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2007-11-07 13:34:13 +01:00
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Z = rpy_go.genego_sim(gene2goterms,gene_ids,terms,rpytmat,go_term_sim=go_term_sim,term_sim=meth)
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2007-07-28 18:05:11 +02:00
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# update data (X) matrix
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newind = DX.get_indices('gene_ids', gene_ids)
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2007-08-21 12:25:23 +02:00
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Xr = DX.asarray()[:,newind]
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2007-07-20 11:36:26 +02:00
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2007-11-07 13:34:13 +01:00
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######## LPLSR ########
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2007-07-20 11:36:26 +02:00
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print "LPLSR ..."
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2007-11-07 13:34:13 +01:00
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Y = Yg
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if use_sbg_subset:
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Y_old = Y.copy()
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Xr_old = Xr.copy()
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keep_samples = ['CN', 'ME', 'LE', 'CO', 'RE']
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sample_ids = DY.get_identifiers('cline', sorted=True)
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keep_ind = [i for i,name in enumerate(sample_ids) if name[:2] in keep_samples]
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Xr = Xr[keep_ind,:]
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Y = Y[keep_ind,:]
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Y = Y[:, where(Y.sum(0)>1)[0]]
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2007-08-21 12:25:23 +02:00
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# standardize Z?
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sdtz = False
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if sdtz:
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Z = Z/Z.std(0)
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2007-11-07 13:34:13 +01:00
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sdty = True
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if sdty:
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Y = Y/Y.std(0)
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lpls_result = nipals_lpls(Xr,Y,Z, a_max,alpha=xz_alpha,mean_ctr=mean_ctr)
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globals().update(lpls_result)
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2007-07-20 11:36:26 +02:00
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# Correlation loadings
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2007-07-23 15:25:34 +02:00
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dx,Rx,rssx = correlation_loadings(Xr, T, P)
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dx,Ry,rssy = correlation_loadings(Y, T, Q)
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cadz,Rz,rssz = correlation_loadings(Z.T, W, L)
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2007-11-07 13:34:13 +01:00
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2007-07-20 11:36:26 +02:00
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# Prediction error
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2007-11-07 13:34:13 +01:00
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if calc_rmsep:
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rmsep , yhat, class_error = lpls_val(Xr, Y, Z, a_max, alpha=xz_alpha,mean_ctr=mean_ctr)
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if alpha_check:
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2007-07-24 16:34:47 +02:00
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Alpha = arange(0.01, 1, .1)
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Rmsep,Yhat, CE = [],[],[]
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for a in Alpha:
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2007-09-20 18:10:40 +02:00
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print "alpha %f" %a
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2007-11-07 13:34:13 +01:00
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rmsep , yhat, ce = lpls_val(Xr, Y, Z, a_max, alpha=a,mean_ctr=mean_ctr,nsets=nsets)
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Rmsep.append(rmsep.copy())
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#Yhat.append(yhat.copy())
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#CE.append(ce.copy())
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2007-07-24 16:34:47 +02:00
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Rmsep = asarray(Rmsep)
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2007-11-07 13:34:13 +01:00
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#Yhat = asarray(Yhat)
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#CE = asarray(CE)
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2007-07-20 11:36:26 +02:00
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2007-09-20 18:10:40 +02:00
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2007-07-20 11:36:26 +02:00
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# Significance Hotellings T
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2007-11-07 13:34:13 +01:00
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#Wx, Wz = lpls_jk(Xr, Y, Z, aopt, mean_ctr=mean_ctr, xz_alpha=xz_alpha, nsets=nsets)
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#Ws = W*apply_along_axis(norm, 0, T)
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#tsqx = cx_stats.hotelling(Wx, Ws[:,:aopt], alpha=w_alpha)
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#tsqz = cx_stats.hotelling(Wz, L[:,:aopt], alpha=0)
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# qvals
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cal_tsq_z, pert_tsq_z, cal_tsq_x, pert_tsq_x = cx_stats.lpls_qvals(Xr, Y, Z, aopt=aopt, zx_alpha=xz_alpha, n_iter=n_iter)
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qvalz = cx_stats.fdr(cal_tsq_z, pert_tsq_z, 'median')
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qvalx = cx_stats.fdr(cal_tsq_x, pert_tsq_x, 'median')
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# p-values, set-enrichment analysis
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active_genes_ids = where(qvalx < qval_cutoff)[0]
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active_genes = [name for i,name in enumerate(gene_ids) if i in active_genes_ids]
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active_universe = gene_ids
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gsea_result, gsea_params= rpy_go.gene_GO_hypergeo_test(genelist=active_genes,universe=active_universe,chip=chip,pval_cutoff=1.0,cond=False,test_direction="over")
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active_goterms_ids = where(qvalz < qval_cutoff)[0]
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active_goterms = [name for i,name in enumerate(terms) if i in active_goterms_ids]
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gsea_t2p = dict(zip(gsea_result['GOBPID'], gsea_result['Pvalue']))
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#### PLOTS ####
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from pylab import *
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from scipy import where
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dg = plots_lpls.dag(terms, "bp")
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pos = None
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figure(300)
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subplot(2,1,1)
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pos = plots_lpls.plot_dag(dg, node_color=cal_tsq_z, pos=pos, nodelist=terms)
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subplot(2,1,2)
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pos = plot_dag(dg, node_color=qvalz, pos=pos, nodelist=terms)
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if calc_rmsep:
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figure(1) #rmsep
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bar_w = .2
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bar_col = 'rgb'*5
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m = Y.shape[1]
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for a in range(m):
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bar(arange(a_max)+a*bar_w+.1, rmsep[:,a], width=bar_w, color=bar_col[a])
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ylim([rmsep.min()-.05, rmsep.max()+.05])
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title('RMSEP: Y(%s)' %Y.get_name())
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#figure(2)
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#for a in range(m):
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# bar(arange(a_max)+a*bar_w+.1, class_error[:,a], width=bar_w, color=bar_col[a])
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#ylim([class_error.min()-.05, class_error.max()+.05])
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#title('Classification accuracy')
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figure(3) # Hyploid correlations
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tsqz = cal_tsq_z
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tsqx = cal_tsq_x
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2007-08-21 12:25:23 +02:00
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tsqz_s = 250*tsqz/tsqz.max()
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2007-11-07 13:34:13 +01:00
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td = rpy_go.goterm2desc(terms)
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tlabels = [td[i] for i in terms]
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keep = where(qvalz<0.01)[0]
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k_Rz = Rz[keep,:]
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k_tsqz_s = tsqz_s[keep]
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k_tsq = tsqz[keep]
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k_tlabels = [name for i,name in enumerate(tlabels) if i in keep]
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plot_corrloads(Rz, pc1=0, pc2=1, s=tsqz_s, c=tsqz, zorder=5, expvar=evz, ax=None,alpha=.5,labels=None)
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#plot_corrloads(k_Rz, pc1=0, pc2=1, s=k_tsqz_s, c=k_tsqz, zorder=5, expvar=evz, ax=None,alpha=.5,labels=None)
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2007-07-20 11:36:26 +02:00
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ax = gca()
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2007-11-07 13:34:13 +01:00
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yglabels = DYg.get_identifiers(DYg.get_dim_name()[1], sorted=True)
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2007-09-20 18:10:40 +02:00
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ylabels = DY.get_identifiers(DY.get_dim_name()[1], sorted=True)
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2007-11-07 13:34:13 +01:00
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blabels = yglabels[:]
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blabels.append(ylabels[0])
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plot_corrloads(Ry, pc1=0, pc2=1, s=150, c='g', marker='s', zorder=5, expvar=evy, ax=ax,labels=None,alpha=.9)
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plot_corrloads(Rx, pc1=0, pc2=1, s=5, c='k', zorder=1, expvar=evx, ax=ax)
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2007-07-20 11:36:26 +02:00
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2007-09-20 18:10:40 +02:00
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figure(4)
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2007-07-20 11:36:26 +02:00
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subplot(221)
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ax = gca()
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plot_corrloads(Rx, pc1=0, pc2=1, s=tsqx/2.0, c='b', zorder=5, expvar=evx, ax=ax)
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# title('X correlation')
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subplot(222)
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ax = gca()
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plot_corrloads(Ry, pc1=0, pc2=1, s=150, c='g', zorder=5, expvar=evy, ax=ax)
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#title('Y correlation')
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subplot(223)
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ax = gca()
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plot_corrloads(Rz, pc1=0, pc2=1, s=tsqz/10.0, c='r', zorder=5, expvar=evz, ax=ax)
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#title('Z correlation')
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subplot(224)
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plot(arange(len(evx)), evx, 'b', label='X', linewidth=2)
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plot(evy, 'g', label='Y', linewidth=2)
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plot(evz, 'r', label='Z', linewidth=2)
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legend(loc=2)
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ylabel('Explained variance')
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xlabel('Component')
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show()
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