GSCA-class: An S4 class for Gene Set Collection Analyses on...
In HTSanalyzeR: Gene set over-representation, enrichment and network analyses for high-throughput screens
Description
Objects from the Class
Slots
Methods
Author(s)
See Also
Examples
Description
This S4 class includes a series of methods to do gene set enrichment
analysis and hypergeometric tests for high-throughput screens.
Objects from the Class
Objects of class GSCA can be created from
new("GSCA", listOfGeneSetCollections, geneList, hits) (see
the examples below)
Slots
listOfGeneSetCollections:-
a list of gene set collections (a 'gene set collection' is a list
of gene sets).
geneList:-
a numeric or integer vector of phenotypes named by gene identifiers.
hits:-
a character vector of the gene identifiers (used as hits in the hypergeometric tests).
para:-
a list of parameters for hypergeometric tests and GSEA. These
parameters are pValueCutoff, pAdjustMethod, nPermutations,
minGeneSetSize and exponent (see function
analyzeGeneSetCollections for detailed descriptions about
these parameters).
result:-
a list of results (see the returned values in the function
analyzeGeneSetCollections).
summary:-
a list of summary information for listOfGeneSetCollections,
geneList, hits, para, and result.
preprocessed:-
a single logical value specifying whether or not the input data has been
preprocessed.
Methods
An overview of methods with class-specific functionality:
More detailed introduction can be found in help for each specific function.
preprocess-
do preprocessing on input vectors of phenotypes and hits including:
a) removing NAs in the geneList and hits;
b) invoking function duplicateRemover to process
duplicated phenotypes (see duplicateRemover for more details);
c) invoking function annotationConvertor to convert annotations;
d) ranking phenotypes in a decreasing order.
analyze-
perform hypergeometric tests and Gene Set Enrichment Analysis based on
input parameter list para.
appendGSTerms-
append gene set terms to GSCA results
summarize-
print summary information about listOfGeneSetCollections,
geneList, hits, para, and result.
getTopGeneSets-
select top significant gene sets from object@results$`resultName`
by setting ntop or allSig.
writeHits-
write observed hits in gene sets for hypergeometric tests.
viewGSEA-
view a figure of GSEA results for a gene set in a gene set collection.
plotGSEA-
plot and save figures of GSEA results for top significant gene sets in a gene set collection.
viewEnrichMap-
plot an enrichment map for GSEA or hypergeometric test results
plotEnrichMap-
plot and save an enrichment map for GSEA or hypergeometric test results
report-
generate html reports.
Author(s)
Xin Wang xw264@cam.ac.uk
See Also
preprocess
analyze
appendGSTerms
summarize
getTopGeneSets
writeHits
viewGSEA
plotGSEA
viewEnrichMap
plotEnrichMap
report
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
## Not run:
library(org.Dm.eg.db)
library(KEGG.db)
library(AnnotationDbi)
##library(igraph)
##load data for enrichment analyses
data("KcViab_Data4Enrich")
##select hits
hits <- names(KcViab_Data4Enrich)[which(abs(KcViab_Data4Enrich) > 2)]
##set up a list of gene set collections
PW_KEGG <- KeggGeneSets(species = "Dm")
gscs <- list(PW_KEGG = PW_KEGG)
##create an object of class 'GSCA'
gsca <- new("GSCA", listOfGeneSetCollections=gscs, geneList =
KcViab_Data4Enrich, hits = hits)
##do preprocessing (KcViab_Data4Enrich has already been preprocessed)
gsca <- preprocess(gsca, species="Dm", initialIDs = "Entrez.gene",
keepMultipleMappings = TRUE, duplicateRemoverMethod = "max",
orderAbsValue = FALSE)
##do hypergeometric tests and GSEA
gsca <- analyze(gsca, para = list(pValueCutoff = 0.05, pAdjustMethod
= "BH", nPermutations = 1000, minGeneSetSize = 60, exponent = 1))
##print summary information
summarize(gsca)
##get all significant gene sets in "PW_KEGG"
sigGSs<-getTopGeneSets(gsca, "GSEA.results", "PW_KEGG", allSig=TRUE)
##view a GSEA figure
viewGSEA(gsca, gscName="PW_KEGG", gsName=sigGSs[["PW_KEGG"]][1])
dev.off()
##append gene set terms to results
gsca<-appendGSTerms(gsca, keggGSCs="PW_KEGG")
##view an enrichment map for GSEA results
eb<-viewEnrichMap(gsca, gscs="PW_KEGG", allSig=TRUE, gsNameType="term",
displayEdgeLabel=FALSE, layout="layout.fruchterman.reingold")
##write html reports
report(object = gsca, experimentName = "GSCATest", species = "Dm",
allSig = TRUE, keggGSCs = "PW_KEGG", reportDir="GSCATestReport")
##browse the index page
browseURL(file.path(getwd(), "GSCATestReport", "index.html"))
## End(Not run)
HTSanalyzeR documentation built on Oct. 31, 2019, 7:10 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Description Objects from the Class Slots Methods Author(s) See Also Examples
Description
This S4 class includes a series of methods to do gene set enrichment analysis and hypergeometric tests for high-throughput screens.
Objects from the Class
Objects of class GSCA can be created from
new("GSCA", listOfGeneSetCollections, geneList, hits) (see
the examples below)
Slots
listOfGeneSetCollections:-
a list of gene set collections (a 'gene set collection' is a list of gene sets).
geneList:-
a numeric or integer vector of phenotypes named by gene identifiers.
hits:-
a character vector of the gene identifiers (used as hits in the hypergeometric tests).
para:-
a list of parameters for hypergeometric tests and GSEA. These parameters are
pValueCutoff,pAdjustMethod,nPermutations,minGeneSetSizeandexponent(see functionanalyzeGeneSetCollectionsfor detailed descriptions about these parameters). result:-
a list of results (see the returned values in the function
analyzeGeneSetCollections). summary:-
a list of summary information for
listOfGeneSetCollections,geneList,hits,para, andresult. preprocessed:-
a single logical value specifying whether or not the input data has been preprocessed.
Methods
An overview of methods with class-specific functionality: More detailed introduction can be found in help for each specific function.
preprocess-
do preprocessing on input vectors of phenotypes and hits including: a) removing NAs in the
geneListandhits; b) invoking functionduplicateRemoverto process duplicated phenotypes (seeduplicateRemoverfor more details); c) invoking functionannotationConvertorto convert annotations; d) ranking phenotypes in a decreasing order. analyze-
perform hypergeometric tests and Gene Set Enrichment Analysis based on input parameter list
para. appendGSTerms-
append gene set terms to GSCA results
summarize-
print summary information about
listOfGeneSetCollections,geneList,hits,para, andresult. getTopGeneSets-
select top significant gene sets from
object@results$`resultName`by settingntoporallSig. writeHits-
write observed hits in gene sets for hypergeometric tests.
viewGSEA-
view a figure of GSEA results for a gene set in a gene set collection.
plotGSEA-
plot and save figures of GSEA results for top significant gene sets in a gene set collection.
viewEnrichMap-
plot an enrichment map for GSEA or hypergeometric test results
plotEnrichMap-
plot and save an enrichment map for GSEA or hypergeometric test results
report-
generate html reports.
Author(s)
Xin Wang xw264@cam.ac.uk
See Also
preprocess
analyze
appendGSTerms
summarize
getTopGeneSets
writeHits
viewGSEA
plotGSEA
viewEnrichMap
plotEnrichMap
report
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 | ## Not run:
library(org.Dm.eg.db)
library(KEGG.db)
library(AnnotationDbi)
##library(igraph)
##load data for enrichment analyses
data("KcViab_Data4Enrich")
##select hits
hits <- names(KcViab_Data4Enrich)[which(abs(KcViab_Data4Enrich) > 2)]
##set up a list of gene set collections
PW_KEGG <- KeggGeneSets(species = "Dm")
gscs <- list(PW_KEGG = PW_KEGG)
##create an object of class 'GSCA'
gsca <- new("GSCA", listOfGeneSetCollections=gscs, geneList =
KcViab_Data4Enrich, hits = hits)
##do preprocessing (KcViab_Data4Enrich has already been preprocessed)
gsca <- preprocess(gsca, species="Dm", initialIDs = "Entrez.gene",
keepMultipleMappings = TRUE, duplicateRemoverMethod = "max",
orderAbsValue = FALSE)
##do hypergeometric tests and GSEA
gsca <- analyze(gsca, para = list(pValueCutoff = 0.05, pAdjustMethod
= "BH", nPermutations = 1000, minGeneSetSize = 60, exponent = 1))
##print summary information
summarize(gsca)
##get all significant gene sets in "PW_KEGG"
sigGSs<-getTopGeneSets(gsca, "GSEA.results", "PW_KEGG", allSig=TRUE)
##view a GSEA figure
viewGSEA(gsca, gscName="PW_KEGG", gsName=sigGSs[["PW_KEGG"]][1])
dev.off()
##append gene set terms to results
gsca<-appendGSTerms(gsca, keggGSCs="PW_KEGG")
##view an enrichment map for GSEA results
eb<-viewEnrichMap(gsca, gscs="PW_KEGG", allSig=TRUE, gsNameType="term",
displayEdgeLabel=FALSE, layout="layout.fruchterman.reingold")
##write html reports
report(object = gsca, experimentName = "GSCATest", species = "Dm",
allSig = TRUE, keggGSCs = "PW_KEGG", reportDir="GSCATestReport")
##browse the index page
browseURL(file.path(getwd(), "GSCATestReport", "index.html"))
## End(Not run)
|
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.