netGOTFPlot: Plot a network for Ontologies, genes and TFs
In cbiagii/ceTF: Coexpression for Transcription Factors using Regulatory Impact Factors and Partial Correlation and Information Theory analysis
netGOTFPlot R Documentation
Plot a network for Ontologies, genes and TFs
Description
Generate the plot of groupGO network result of
getGroupGO function, and the integrated network of genes, GOs
and TFs.
Usage
netGOTFPlot(
netCond,
resultsGO,
netGO,
anno,
groupBy = "pathways",
TFs = NULL,
genes = NULL,
keyTFs = NULL,
size = 0.5,
type = NULL
)
Arguments
netCond
Network of a specific condition. Can be found in
result of runAnalysis (see NetworkData and
NetworkData).
resultsGO
Dataframe with the results of getGroupGO
(first element of list). This result can be filtered by applying filters
for pathways selection.
netGO
Dataframe with the results of getGroupGO
(second element of list).
anno
Annotation of gene or TFs. Can be found in result of
runAnalysis function (see NetworkData).
groupBy
Which variables do you want to group in GO type? The options
are: 'pathways', 'TFs' and 'genes' (default: 'pathways').
TFs
A character with selected TFs.
genes
A character with selected genes.
keyTFs
TFs identified as importants by runAnalysis
(see NetworkData). This argument is used only if the type argument
equals Integrated.
size
Size of nodes labels (default: 0.5).
type
Type of plot selected (GO or Integrated). If GO will plot the
associated GO grouped by some variable, and if Integrated will plot a
integrated network with genes, GO and TFs.
Value
Returns a list with the plot of the network for GO or integrated
output under a condition and the table used to plot the network.
Examples
## Not run:
# load the annotation package
library(org.Hs.eg.db)
# load the CeTF class object resulted from runAnalysis function
data(CeTFdemo)
# getting the genes in network of condition 1
genes <- unique(c(as.character(NetworkData(CeTFdemo, 'network1')[, 'gene1']),
as.character(NetworkData(CeTFdemo, 'network1')[, 'gene2'])))
# performing getGroupGO analysis
cond1 <- getGroupGO(genes = genes,
ont = 'BP',
keyType = 'ENSEMBL',
annoPkg = org.Hs.eg.db,
level = 3)
# selecting only first 12 pathways
t1 <- head(cond1$results, 12)
# subsetting the network to have only the first 12 pathways
t2 <- subset(cond1$netGO, cond1$netGO$gene1 %in% as.character(t1[, 'ID']))
# generate the GO plot grouping by pathways
pt <- netGOTFPlot(netCond = NetworkData(CeTFdemo, 'network1'),
resultsGO = t1,
netGO = t2,
anno = NetworkData(CeTFdemo, 'annotation'),
groupBy = 'pathways',
keyTFs = NetworkData(CeTFdemo, 'keytfs'),
type = 'GO')
pt$plot
head(pt$tab$`GO:0006807`)
# generate the Integrated plot
pt <- netGOTFPlot(netCond = NetworkData(CeTFdemo, 'network1'),
resultsGO = t1,
netGO = t2,
anno = NetworkData(CeTFdemo, 'annotation'),
groupBy = 'pathways',
keyTFs = NetworkData(CeTFdemo, 'keytfs'),
type = 'Integrated')
pt$plot
head(pt$tab)
## End(Not run)
cbiagii/ceTF documentation built on Feb. 6, 2023, 9:05 p.m.
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| netGOTFPlot | R Documentation |
Plot a network for Ontologies, genes and TFs
Description
Generate the plot of groupGO network result of
getGroupGO function, and the integrated network of genes, GOs
and TFs.
Usage
netGOTFPlot( netCond, resultsGO, netGO, anno, groupBy = "pathways", TFs = NULL, genes = NULL, keyTFs = NULL, size = 0.5, type = NULL )
Arguments
netCond |
Network of a specific condition. Can be found in
result of |
resultsGO |
Dataframe with the results of |
netGO |
Dataframe with the results of |
anno |
Annotation of gene or TFs. Can be found in result of
|
groupBy |
Which variables do you want to group in GO type? The options are: 'pathways', 'TFs' and 'genes' (default: 'pathways'). |
TFs |
A character with selected TFs. |
genes |
A character with selected genes. |
keyTFs |
TFs identified as importants by |
size |
Size of nodes labels (default: 0.5). |
type |
Type of plot selected (GO or Integrated). If GO will plot the associated GO grouped by some variable, and if Integrated will plot a integrated network with genes, GO and TFs. |
Value
Returns a list with the plot of the network for GO or integrated output under a condition and the table used to plot the network.
Examples
## Not run:
# load the annotation package
library(org.Hs.eg.db)
# load the CeTF class object resulted from runAnalysis function
data(CeTFdemo)
# getting the genes in network of condition 1
genes <- unique(c(as.character(NetworkData(CeTFdemo, 'network1')[, 'gene1']),
as.character(NetworkData(CeTFdemo, 'network1')[, 'gene2'])))
# performing getGroupGO analysis
cond1 <- getGroupGO(genes = genes,
ont = 'BP',
keyType = 'ENSEMBL',
annoPkg = org.Hs.eg.db,
level = 3)
# selecting only first 12 pathways
t1 <- head(cond1$results, 12)
# subsetting the network to have only the first 12 pathways
t2 <- subset(cond1$netGO, cond1$netGO$gene1 %in% as.character(t1[, 'ID']))
# generate the GO plot grouping by pathways
pt <- netGOTFPlot(netCond = NetworkData(CeTFdemo, 'network1'),
resultsGO = t1,
netGO = t2,
anno = NetworkData(CeTFdemo, 'annotation'),
groupBy = 'pathways',
keyTFs = NetworkData(CeTFdemo, 'keytfs'),
type = 'GO')
pt$plot
head(pt$tab$`GO:0006807`)
# generate the Integrated plot
pt <- netGOTFPlot(netCond = NetworkData(CeTFdemo, 'network1'),
resultsGO = t1,
netGO = t2,
anno = NetworkData(CeTFdemo, 'annotation'),
groupBy = 'pathways',
keyTFs = NetworkData(CeTFdemo, 'keytfs'),
type = 'Integrated')
pt$plot
head(pt$tab)
## End(Not run)
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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