functionalNetwork: Creates and plots the functional gene network.
In FGNet: Functional Gene Networks derived from biological enrichment analyses
Description
Usage
Arguments
Value
See Also
Examples
View source: R/3_functionalNetwork.R
Description
Plots the functional networks.
The default network links genes to genes, or terms to terms. The bipartite network links genes or terms to their clusters.
Usage
1
2
3
4
5
6
7
8
functionalNetwork(incidMatrices, plotType = c("default", "bipartite")[1],
plotOutput = "static", plotTitle = "Functional Network",
plotTitleSub = NULL, legendPrefix = NULL, legendText = NULL,
geneExpr = NULL, plotExpression = c("border", "fill"),
vExprColors=c(neg="#008000", zero="white", pos="#FF2020"),
vSize = 12, vLabelCex = 2/3, vLayout = NULL, keepColors = TRUE,
bgTransparency = 0.4, eColor = "#323232", eWidth=NULL, weighted = FALSE,
keepAllNodes = FALSE, plotAllMg = FALSE)
Arguments
incidMatrices
list or matrix. Raw output (list) from fea2incidMat: a list with slots: "gtSetsMatrix", "filteredOut" and either "metagroupsMatrix" or "clustersMatrix". If only a matrix is provided, it will be asumed to be the clusters matrix, and all nodes will be connected to every other node in the metagroup.
plotType
"default" or "bipartite".
Default network: Nodes are either genes or terms. Edges join nodes in common gene-term sets. Background and node color represent cluster/metagroup. White nodes are in several clusters/metagroups.
Bipartite network: Nodes are genes or terms (circles) and their clusters (squares).
By default it keeps only the genes or terms in more than one cluster or metagroup, which represents a simplified version of the functional network.
Node shape is only available in the "static" output.
plotOutput
"static", "dynamic" or "none". "static" will generate a standard R plot. "dynamic" will produce an interactive tkplot (metagroups background cannot be drawn). "none" will not plot the network.
plotTitle
character. Title to show on the plot.
plotTitleSub
character. Text to show at the bottom of the plot (sub-title).
legendPrefix
character. Label to show next to the cluster/metagroup id in the legend. In the bipartite network the legens replaces the cluster node label.
legendText
character. Description of each cluster (shown as the legend). If FALSE, legend is not shown.
geneExpr
numeric. Named vector with the relative expression value of the gene (node). 0 is taken as reference, positive values will be plotted red, negative values green.
plotExpression
character. Determines the way to plot the expression: "border" adds a red or green border to the node, "fill" colors the whole with the expression color instead of the metagroup color.
vExprColors
character. Vector with the colors for expression: first color for negative values, second for zero, and third for positive.
vSize
numeric. Vertex size. If named, it allows to set a value for each gene. Name as "default" to set a default value, otherwise the default value is the mean.
vLabelCex
numeric. A numerical value giving the amount by which plotting text and symbols should be magnified relative to the default label size.
vLayout
2 x n matrix or character. Where n is the number of nodes in the graph, each column gives the (x, y)-coordinates for the corresponding node. The bipartite network accepts "kk" (Kamada Kawai), "circle", or "sugiyama" (hierarquical).
keepColors
logical. If TRUE, it will keep the same colors for all the plots, independently of the filtered groups. Only available if incidMatrices is the raw result from fea2incidMat().
bgTransparency
numeric. Value between 0 and 1 for the transparency of the metagroups background (only default network).
eColor
character. Color for the edges.
eWidth
numeric. Edge width. Not to plot edges, set eWidth=0 or eColor=NA.
weighted
logical. If TRUE, edges width will be based on the number of shared gene-term sets.
keepAllNodes
logical. Only used in bipartite network. If FALSE, nodes in only one cluster are not plotted. If TRUE, all nodes in the clusters are shown.
plotAllMg
logical. Only used in bipartite network. If FALSE, non-connected clusters are not plotted. If TRUE, all non-filtered clusters are shown.
Value
Plots the functional networks.
An invisible list with the igraph networks and incidence matrices, to collect it assign it to a variable.
See Also
Previous step in the workflow: fea2incidMat()
To see the terms included in each cluster or metagroup: getTerms()
Overview of the package: FGNet
Package tutorial: vignette("FGNet-vignette")
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
###################################################
# Previous steps
# Set gene list:
genesYeast <- c("ADA2", "APC1", "APC11", "APC2", "APC4", "APC5", "APC9",
"CDC16", "CDC23", "CDC26", "CDC27", "CFT1", "CFT2", "DCP1", "DOC1", "FIP1",
"GCN5", "GLC7", "HFI1", "KEM1", "LSM1", "LSM2", "LSM3", "LSM4", "LSM5",
"LSM6", "LSM7", "LSM8", "MPE1", "NGG1", "PAP1", "PAT1", "PFS2", "PTA1",
"PTI1", "REF2", "RNA14", "RPN1", "RPN10", "RPN11", "RPN13", "RPN2", "RPN3",
"RPN5", "RPN6", "RPN8", "RPT1", "RPT3", "RPT6", "SGF11", "SGF29", "SGF73",
"SPT20", "SPT3", "SPT7", "SPT8", "TRA1", "YSH1", "YTH1")
# Optional gene expression
genesYeastExpr <- setNames(c(rep(1,29), rep(-1,30)), genesYeast) # 1=UP, -1=DW
## Not run:
# FEA:
# jobID <- query_gtLinker(genesYeast, organism = "Sc")
jobID <- 3907019
results <- fea_gtLinker_getResults(jobID)
###################################################
# Gene-based networks:
incidMat <- fea2incidMat(results, filterAttribute="Silhouette Width")
functionalNetwork(incidMat, geneExpr=genesYeastExpr)
functionalNetwork(incidMat, plotType="bipartite",
plotOutput="dynamic", vSize=c(default=10, GLC7=20, PTA1=20))
getTerms(results)
# To modify the layout and plot as static network (with metagroup background)...
library(igraph)
# saveLayout <- tkplot.getcoords(1) # tkp.id (ID of the tkplot window)
# functionalNetwork(incidMat, vLayout=saveLayout, plotType="bipartite")
# Only return the network, without plotting
fNw <- functionalNetwork(incidMat, plotOutput="none")
class(fNw)
names(fNw)
betweenness(fNw$iGraph$commonClusters)
###################################################
# Term-based network
incidMat_terms <- fea2incidMat(results, key="Terms")
functionalNetwork(incidMat_terms, weighted=TRUE, plotOutput="dynamic")
functionalNetwork(incidMat_terms, plotType="bipartite", plotOutput="dynamic",
plotAllMg=TRUE)
functionalNetwork(incidMat_terms, plotType="bipartite", plotOutput="dynamic",
keepAllNodes=TRUE)
# Including generic terms filterd by GtLinker from final metagroups:
incidMat_terms2 <- fea2incidMat(results, key="Terms", removeFiltered=FALSE)
functionalNetwork(incidMat_terms2, weighted=TRUE)
## End(Not run)
FGNet documentation built on Nov. 8, 2020, 5:43 p.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 Usage Arguments Value See Also Examples
View source: R/3_functionalNetwork.R
Description
Plots the functional networks.
The default network links genes to genes, or terms to terms. The bipartite network links genes or terms to their clusters.
Usage
1 2 3 4 5 6 7 8 | functionalNetwork(incidMatrices, plotType = c("default", "bipartite")[1],
plotOutput = "static", plotTitle = "Functional Network",
plotTitleSub = NULL, legendPrefix = NULL, legendText = NULL,
geneExpr = NULL, plotExpression = c("border", "fill"),
vExprColors=c(neg="#008000", zero="white", pos="#FF2020"),
vSize = 12, vLabelCex = 2/3, vLayout = NULL, keepColors = TRUE,
bgTransparency = 0.4, eColor = "#323232", eWidth=NULL, weighted = FALSE,
keepAllNodes = FALSE, plotAllMg = FALSE)
|
Arguments
incidMatrices |
list or matrix. Raw output (list) from |
plotType |
"default" or "bipartite". Default network: Nodes are either genes or terms. Edges join nodes in common gene-term sets. Background and node color represent cluster/metagroup. White nodes are in several clusters/metagroups. Bipartite network: Nodes are genes or terms (circles) and their clusters (squares). By default it keeps only the genes or terms in more than one cluster or metagroup, which represents a simplified version of the functional network. Node shape is only available in the "static" output. |
plotOutput |
"static", "dynamic" or "none". "static" will generate a standard R plot. "dynamic" will produce an interactive tkplot (metagroups background cannot be drawn). "none" will not plot the network. |
plotTitle |
character. Title to show on the plot. |
plotTitleSub |
character. Text to show at the bottom of the plot (sub-title). |
legendPrefix |
character. Label to show next to the cluster/metagroup id in the legend. In the bipartite network the legens replaces the cluster node label. |
legendText |
character. Description of each cluster (shown as the legend). If FALSE, legend is not shown. |
geneExpr |
numeric. Named vector with the relative expression value of the gene (node). 0 is taken as reference, positive values will be plotted red, negative values green. |
plotExpression |
character. Determines the way to plot the expression: "border" adds a red or green border to the node, "fill" colors the whole with the expression color instead of the metagroup color. |
vExprColors |
character. Vector with the colors for expression: first color for negative values, second for zero, and third for positive. |
vSize |
numeric. Vertex size. If named, it allows to set a value for each gene. Name as "default" to set a default value, otherwise the default value is the mean. |
vLabelCex |
numeric. A numerical value giving the amount by which plotting text and symbols should be magnified relative to the default label size. |
vLayout |
2 x n matrix or character. Where n is the number of nodes in the graph, each column gives the (x, y)-coordinates for the corresponding node. The bipartite network accepts "kk" (Kamada Kawai), "circle", or "sugiyama" (hierarquical). |
keepColors |
logical. If TRUE, it will keep the same colors for all the plots, independently of the filtered groups. Only available if incidMatrices is the raw result from |
bgTransparency |
numeric. Value between 0 and 1 for the transparency of the metagroups background (only default network). |
eColor |
character. Color for the edges. |
eWidth |
numeric. Edge width. Not to plot edges, set eWidth=0 or eColor=NA. |
weighted |
logical. If TRUE, edges width will be based on the number of shared gene-term sets. |
keepAllNodes |
logical. Only used in bipartite network. If FALSE, nodes in only one cluster are not plotted. If TRUE, all nodes in the clusters are shown. |
plotAllMg |
logical. Only used in bipartite network. If FALSE, non-connected clusters are not plotted. If TRUE, all non-filtered clusters are shown. |
Value
Plots the functional networks.
An invisible list with the igraph networks and incidence matrices, to collect it assign it to a variable.
See Also
Previous step in the workflow: fea2incidMat()
To see the terms included in each cluster or metagroup: getTerms()
Overview of the package: FGNet
Package tutorial: vignette("FGNet-vignette")
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 | ###################################################
# Previous steps
# Set gene list:
genesYeast <- c("ADA2", "APC1", "APC11", "APC2", "APC4", "APC5", "APC9",
"CDC16", "CDC23", "CDC26", "CDC27", "CFT1", "CFT2", "DCP1", "DOC1", "FIP1",
"GCN5", "GLC7", "HFI1", "KEM1", "LSM1", "LSM2", "LSM3", "LSM4", "LSM5",
"LSM6", "LSM7", "LSM8", "MPE1", "NGG1", "PAP1", "PAT1", "PFS2", "PTA1",
"PTI1", "REF2", "RNA14", "RPN1", "RPN10", "RPN11", "RPN13", "RPN2", "RPN3",
"RPN5", "RPN6", "RPN8", "RPT1", "RPT3", "RPT6", "SGF11", "SGF29", "SGF73",
"SPT20", "SPT3", "SPT7", "SPT8", "TRA1", "YSH1", "YTH1")
# Optional gene expression
genesYeastExpr <- setNames(c(rep(1,29), rep(-1,30)), genesYeast) # 1=UP, -1=DW
## Not run:
# FEA:
# jobID <- query_gtLinker(genesYeast, organism = "Sc")
jobID <- 3907019
results <- fea_gtLinker_getResults(jobID)
###################################################
# Gene-based networks:
incidMat <- fea2incidMat(results, filterAttribute="Silhouette Width")
functionalNetwork(incidMat, geneExpr=genesYeastExpr)
functionalNetwork(incidMat, plotType="bipartite",
plotOutput="dynamic", vSize=c(default=10, GLC7=20, PTA1=20))
getTerms(results)
# To modify the layout and plot as static network (with metagroup background)...
library(igraph)
# saveLayout <- tkplot.getcoords(1) # tkp.id (ID of the tkplot window)
# functionalNetwork(incidMat, vLayout=saveLayout, plotType="bipartite")
# Only return the network, without plotting
fNw <- functionalNetwork(incidMat, plotOutput="none")
class(fNw)
names(fNw)
betweenness(fNw$iGraph$commonClusters)
###################################################
# Term-based network
incidMat_terms <- fea2incidMat(results, key="Terms")
functionalNetwork(incidMat_terms, weighted=TRUE, plotOutput="dynamic")
functionalNetwork(incidMat_terms, plotType="bipartite", plotOutput="dynamic",
plotAllMg=TRUE)
functionalNetwork(incidMat_terms, plotType="bipartite", plotOutput="dynamic",
keepAllNodes=TRUE)
# Including generic terms filterd by GtLinker from final metagroups:
incidMat_terms2 <- fea2incidMat(results, key="Terms", removeFiltered=FALSE)
functionalNetwork(incidMat_terms2, weighted=TRUE)
## 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.