doTTests: T-test for bead (detector) level data.
In blima: Tools for the preprocessing and analysis of the Illumina microarrays on the detector (bead) level
Description
Usage
Arguments
Author(s)
Examples
Description
This function does t-tests on the data provided by the object beadLevelData from package beadarray.
Usage
1
2
Arguments
b
List of beadLevelData objects (or single object).
c1
List of logical vectors of data to assign to the first group (or single vector).
c2
List of logical vectors of data to assign to the second group (or single vector).
quality
Quality to analyze, default is "qua".
channelInclude
This field allows user to set channel with weights which have to be 0,1.
All zero weighted items are excluded from t-test.
You can turn this off by setting this NULL. This option may be used together with bacgroundCorrect method or/and with beadarray QC (defaults to "bgf").
correction
Multiple testing adjustment method as defined by p.adjust function, default is "BY".
transformation
Function of input data trasformation, default is NULL. Any function which for input value returns transformed value may be supplied. T-test then will be evaluated on transformed data, consider use log2TransformPositive.
Author(s)
Vojt<c4><9b>ch Kulvait
Examples
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if(require("blimaTestingData") && require("illuminaHumanv4.db") && interactive())
{
#To perform background correction, variance stabilization and quantile normalization then test on probe level, bead level and print top 10 results.
data(blimatesting)
#Prepare logical vectors corresponding to conditions A(groups1Mod), E(groups2Mod) and both(processingMod).
groups1 = "A";
groups2 = "E";
sampleNames = list()
groups1Mod = list()
groups2Mod = list()
processingMod = list()
for(i in 1:length(blimatesting))
{
p = pData(blimatesting[[i]]@experimentData$phenoData)
groups1Mod[[i]] = p$Group %in% groups1;
groups2Mod[[i]] = p$Group %in% groups2;
processingMod[[i]] = p$Group %in% c(groups1, groups2);
sampleNames[[i]] = p$Name
}
#Background correction and quantile normalization followed by testing including log2TransformPositive transformation.
blimatesting = bacgroundCorrect(blimatesting, normalizationMod =processingMod, channelBackgroundFilter="bgf")
blimatesting = nonPositiveCorrect(blimatesting, normalizationMod=processingMod, channelCorrect="GrnF", channelBackgroundFilter="bgf", channelAndVector="bgf")
blimatesting = varianceBeadStabilise(blimatesting, normalizationMod = processingMod,
quality="GrnF", channelInclude="bgf", channelOutput="vst")
blimatesting = quantileNormalize(blimatesting, normalizationMod = processingMod,
channelNormalize="vst", channelOutput="qua", channelInclude="bgf")
beadTest = doTTests(blimatesting, groups1Mod, groups2Mod, "qua", "bgf")
probeTest = doProbeTTests(blimatesting, groups1Mod, groups2Mod, "qua", "bgf")
adrToSymbol <- merge(toTable(illuminaHumanv4ARRAYADDRESS), toTable(illuminaHumanv4SYMBOLREANNOTATED))
adrToSymbol <- adrToSymbol[,c("ArrayAddress", "SymbolReannotated") ]
colnames(adrToSymbol) <- c("Array_Address_Id", "Symbol")
probeTestID = probeTest[,"ProbeID"]
beadTestID = beadTest[,"ProbeID"]
probeTestFC = abs(probeTest[,"mean1"]-probeTest[,"mean2"])
beadTestFC = abs(beadTest[,"mean1"]-beadTest[,"mean2"])
probeTestP = probeTest[,"adjustedp"]
beadTestP = beadTest[,"adjustedp"]
probeTestMeasure = (1-probeTestP)*probeTestFC
beadTestMeasure = (1-beadTestP)*beadTestFC
probeTest = cbind(probeTestID, probeTestMeasure)
beadTest = cbind(beadTestID, beadTestMeasure)
colnames(probeTest) <- c("ArrayAddressID", "difexPL")
colnames(beadTest) <- c("ArrayAddressID", "difexBL")
tocmp <- merge(probeTest, beadTest)
tocmp = merge(tocmp, adrToSymbol, by.x="ArrayAddressID", by.y="Array_Address_Id")
tocmp = tocmp[, c("ArrayAddressID", "Symbol", "difexPL", "difexBL")]
sortPL = sort(-tocmp[,"difexPL"], index.return=TRUE)$ix
sortBL = sort(-tocmp[,"difexBL"], index.return=TRUE)$ix
beadTop10 = tocmp[sortBL[1:10],]
probeTop10 = tocmp[sortPL[1:10],]
print(beadTop10)
print(probeTop10)
}else
{
print("To run this example, please install blimaTestingData package from bioconductor by running BiocManager::install('blimaTestingData') and illuminaHumanv4.db by running BiocManager::install('illuminaHumanv4.db').");
}
blima documentation built on Nov. 8, 2020, 8:15 p.m.
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Description Usage Arguments Author(s) Examples
Description
This function does t-tests on the data provided by the object beadLevelData from package beadarray.
Usage
1 2 |
Arguments
b |
List of beadLevelData objects (or single object). |
c1 |
List of logical vectors of data to assign to the first group (or single vector). |
c2 |
List of logical vectors of data to assign to the second group (or single vector). |
quality |
Quality to analyze, default is "qua". |
channelInclude |
This field allows user to set channel with weights which have to be 0,1. All zero weighted items are excluded from t-test. You can turn this off by setting this NULL. This option may be used together with bacgroundCorrect method or/and with beadarray QC (defaults to "bgf"). |
correction |
Multiple testing adjustment method as defined by p.adjust function, default is "BY". |
transformation |
Function of input data trasformation, default is NULL. Any function which for input value returns transformed value may be supplied. T-test then will be evaluated on transformed data, consider use log2TransformPositive. |
Author(s)
Vojt<c4><9b>ch Kulvait
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 | if(require("blimaTestingData") && require("illuminaHumanv4.db") && interactive())
{
#To perform background correction, variance stabilization and quantile normalization then test on probe level, bead level and print top 10 results.
data(blimatesting)
#Prepare logical vectors corresponding to conditions A(groups1Mod), E(groups2Mod) and both(processingMod).
groups1 = "A";
groups2 = "E";
sampleNames = list()
groups1Mod = list()
groups2Mod = list()
processingMod = list()
for(i in 1:length(blimatesting))
{
p = pData(blimatesting[[i]]@experimentData$phenoData)
groups1Mod[[i]] = p$Group %in% groups1;
groups2Mod[[i]] = p$Group %in% groups2;
processingMod[[i]] = p$Group %in% c(groups1, groups2);
sampleNames[[i]] = p$Name
}
#Background correction and quantile normalization followed by testing including log2TransformPositive transformation.
blimatesting = bacgroundCorrect(blimatesting, normalizationMod =processingMod, channelBackgroundFilter="bgf")
blimatesting = nonPositiveCorrect(blimatesting, normalizationMod=processingMod, channelCorrect="GrnF", channelBackgroundFilter="bgf", channelAndVector="bgf")
blimatesting = varianceBeadStabilise(blimatesting, normalizationMod = processingMod,
quality="GrnF", channelInclude="bgf", channelOutput="vst")
blimatesting = quantileNormalize(blimatesting, normalizationMod = processingMod,
channelNormalize="vst", channelOutput="qua", channelInclude="bgf")
beadTest = doTTests(blimatesting, groups1Mod, groups2Mod, "qua", "bgf")
probeTest = doProbeTTests(blimatesting, groups1Mod, groups2Mod, "qua", "bgf")
adrToSymbol <- merge(toTable(illuminaHumanv4ARRAYADDRESS), toTable(illuminaHumanv4SYMBOLREANNOTATED))
adrToSymbol <- adrToSymbol[,c("ArrayAddress", "SymbolReannotated") ]
colnames(adrToSymbol) <- c("Array_Address_Id", "Symbol")
probeTestID = probeTest[,"ProbeID"]
beadTestID = beadTest[,"ProbeID"]
probeTestFC = abs(probeTest[,"mean1"]-probeTest[,"mean2"])
beadTestFC = abs(beadTest[,"mean1"]-beadTest[,"mean2"])
probeTestP = probeTest[,"adjustedp"]
beadTestP = beadTest[,"adjustedp"]
probeTestMeasure = (1-probeTestP)*probeTestFC
beadTestMeasure = (1-beadTestP)*beadTestFC
probeTest = cbind(probeTestID, probeTestMeasure)
beadTest = cbind(beadTestID, beadTestMeasure)
colnames(probeTest) <- c("ArrayAddressID", "difexPL")
colnames(beadTest) <- c("ArrayAddressID", "difexBL")
tocmp <- merge(probeTest, beadTest)
tocmp = merge(tocmp, adrToSymbol, by.x="ArrayAddressID", by.y="Array_Address_Id")
tocmp = tocmp[, c("ArrayAddressID", "Symbol", "difexPL", "difexBL")]
sortPL = sort(-tocmp[,"difexPL"], index.return=TRUE)$ix
sortBL = sort(-tocmp[,"difexBL"], index.return=TRUE)$ix
beadTop10 = tocmp[sortBL[1:10],]
probeTop10 = tocmp[sortPL[1:10],]
print(beadTop10)
print(probeTop10)
}else
{
print("To run this example, please install blimaTestingData package from bioconductor by running BiocManager::install('blimaTestingData') and illuminaHumanv4.db by running BiocManager::install('illuminaHumanv4.db').");
}
|
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