Difference between revisions of "ExploreGolub.R"
m |
m (p.value vector was incorrect for pi0 estimation in convest etc) |
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− | # {{R}} {{#security:*|Sven}} | + | # {{R}} {{#security:*|Sven,Mik}} |
library(multtest) | library(multtest) | ||
library(locfdr) | library(locfdr) | ||
library(NutriTools) | library(NutriTools) | ||
+ | library(limma) | ||
+ | library(siggenes) | ||
data(golub) | data(golub) | ||
Line 47: | Line 49: | ||
p.adjusted <- p.adjust(fit$p.value[,"AMLvsALL"], method="BH") | p.adjusted <- p.adjust(fit$p.value[,"AMLvsALL"], method="BH") | ||
pGenes <- sum(p.adjusted < 0.05, na.rm=TRUE) | pGenes <- sum(p.adjusted < 0.05, na.rm=TRUE) | ||
+ | |||
+ | convest(fit$p.value[, "AMLvsALL"]) | ||
+ | pi0.est(fit$p.value[, "AMLvsALL"]) | ||
# Check t is moderated t-statistic | # Check t is moderated t-statistic | ||
Line 93: | Line 98: | ||
# Need to randomise the way the keys are drawn | # Need to randomise the way the keys are drawn | ||
+ | ALLdraw <- sample(m,m, replace=FALSE) | ||
+ | AMLdraw <- sample(m,m, replace=FALSE) | ||
+ | |||
+ | golub.ALL <- golub[,golub.cl==0] | ||
+ | golub.AML <- golub[,golub.cl==1] | ||
+ | |||
+ | golub.clSample <- rep(0:1, each=6) | ||
+ | |||
+ | design.Sample <- cbind("ALL"=1, "AMLvsALL"=golub.clSample) | ||
+ | for(i in 1:10) { | ||
+ | x <- cbind(golub.ALL[,ALL.samples[[ALLdraw[i]]]], | ||
+ | golub.AML[,AML.samples[[AMLdraw[i]]]] | ||
+ | ) | ||
+ | |||
+ | fit <- lmFit(x, design.Sample) | ||
+ | fit <- eBayes(fit) | ||
+ | p.adjusted <- p.adjust(fit$p.value[,"AMLvsALL"], method="BH") | ||
+ | pGenes <- sum(p.adjusted < 0.05, na.rm=TRUE) | ||
+ | |||
+ | pi0.est(fit$p.value[,"AMLvsALL"])$p0 | ||
+ | convest(fit$p.value[,"AMLvsALL"]) | ||
+ | |||
+ | # 3) Efrons Bayesian H0 estimation | ||
+ | locfdr(fit$t[,"AMLvsALL"]) | ||
+ | } |
Latest revision as of 03:08, 19 June 2007
Code snipits and programs written in R, S or S-PLUS {{#security:*|Sven,Mik}} library(multtest) library(locfdr) library(NutriTools) library(limma) library(siggenes)
data(golub)
- 1) Golub struture - Affymetrix dataset
dim(golub)
- golub.cl 0= ALL (27 slides) 1=AML (11 slides)
table(golub.cl)
- 2) Exploratory analysis
- Clustering
- Slide 21 different from others in ALL
clusterPlot(t(golub[,golub.cl==0]))
- Slide 2 different from others in ALL
clusterPlot(t(golub[,golub.cl==1]))
library(affy) mva.pairs(golub[,golub.cl==1][,1:5], log.it=FALSE)
nbreaks <- 100
x <- rowMeans(golub[,golub.cl==0])
y <- rowMeans(golub[,golub.cl==1])
mdplot(cbind(x,y))
hist(y-x, breaks=nbreaks)
- Abundance apears to be a slight mixture (hump more prevelant with background subtraction)
- Mixture could be of exponential and low expressing distribution on raw scale
hist((y+x)/2, breaks=nbreaks)
hist(2^(y-x), breaks=nbreaks)
- Abundance, observed exponential like decay on raw scale
hist(2^((y+x)/2), breaks=nbreaks) qqplot(rexp(10000,1), 2^((y+x)/2)) abline(0,1)
- 2) Analysis
design <- cbind("ALL"=1, "AMLvsALL"=golub.cl) fit <- lmFit(golub, design) fit <- eBayes(fit) p.adjusted <- p.adjust(fit$p.value[,"AMLvsALL"], method="BH") pGenes <- sum(p.adjusted < 0.05, na.rm=TRUE)
convest(fit$p.value[, "AMLvsALL"]) pi0.est(fit$p.value[, "AMLvsALL"])
- Check t is moderated t-statistic
topTable(fit, coef="AMLvsALL", number=1) fit$t[829,"AMLvsALL"]
- 3) Efrons Bayesian H0 estimation
locfdr(fit$t[,"AMLvsALL"])
- z-transformed locfdr
z <- qnorm(pt(fit$t[,"AMLvsALL"], fit$df.residual + fit$df.prior)) locfdr(z)
- Sampling of golub.cl
n <- 11 r <- 6
m <- nCr(n,r) AML.samples <- list() i <- 1 while(i <= m) {
value <- sort(sample(n, r, replace=FALSE)) key <- paste(value, collapse=" ") if(is.null(AML.sampleskey)) { AML.sampleskey <- value i <-i+1 print(i) }
}
n <- 27 r <- 6
ALL.samples <- list() i <- 1 while(i <= m) {
value <- sort(sample(n, r, replace=FALSE)) key <- paste(value, collapse=" ") if(is.null(ALL.sampleskey)) { ALL.sampleskey <- value i <-i+1 print(i) }
}
- Need to randomise the way the keys are drawn
ALLdraw <- sample(m,m, replace=FALSE) AMLdraw <- sample(m,m, replace=FALSE)
golub.ALL <- golub[,golub.cl==0] golub.AML <- golub[,golub.cl==1]
golub.clSample <- rep(0:1, each=6)
design.Sample <- cbind("ALL"=1, "AMLvsALL"=golub.clSample) for(i in 1:10) {
x <- cbind(golub.ALL[,ALL.samples[[ALLdraw[i]]]], golub.AML[,AML.samples[[AMLdraw[i]]]] )
fit <- lmFit(x, design.Sample) fit <- eBayes(fit) p.adjusted <- p.adjust(fit$p.value[,"AMLvsALL"], method="BH") pGenes <- sum(p.adjusted < 0.05, na.rm=TRUE)
pi0.est(fit$p.value[,"AMLvsALL"])$p0 convest(fit$p.value[,"AMLvsALL"])
- 3) Efrons Bayesian H0 estimation
locfdr(fit$t[,"AMLvsALL"])
}