plotClusters: Plots the structure of all path clusters
In NetPathMiner: NetPathMiner for Biological Network Construction, Path Mining and Visualization
Description
Usage
Arguments
Value
Author(s)
See Also
Examples
Description
Plots the structure of all path clusters
Usage
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plotClusterMatrix(ybinpaths, clusters, col = rainbow(clusters$params$M),
grid = TRUE)
plotClusterProbs(clusters, col = rainbow(clusters$params$M))
plotClusters(ybinpaths, clusters, col, ...)
Arguments
ybinpaths
The training paths computed by pathsToBinary.
clusters
The pathway cluster model trained by pathCluster or pathClassifier.
col
Colors for each path cluster.
grid
A logical, whether to add a grid to the plot
...
Extra paramaters passed to plotClusterMatrix
Value
plotClusterMatrix plots an image of all paths the training dataset. Rows are the paths and columns
are the genes (features) included within each path. Paths are colored according to cluster membership.
plotClusterProbs The training set posterior probabilities for each path belonging to a 3M component.
plotClusters: combines the two plots produced by plotClusterProbs and plotClusterMatrix.
Author(s)
Ahmed Mohamed
See Also
Other Path clustering & classification methods: pathClassifier,
pathCluster, pathsToBinary,
plotClassifierROC,
plotPathClassifier,
plotPathCluster,
predictPathClassifier,
predictPathCluster
Other Plotting methods: colorVertexByAttr,
layoutVertexByAttr,
plotAllNetworks,
plotClassifierROC,
plotCytoscapeGML,
plotNetwork,
plotPathClassifier, plotPaths
Examples
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## Prepare a weighted reaction network.
## Conver a metabolic network to a reaction network.
data(ex_sbml) # bipartite metabolic network of Carbohydrate metabolism.
rgraph <- makeReactionNetwork(ex_sbml, simplify=TRUE)
## Assign edge weights based on Affymetrix attributes and microarray dataset.
# Calculate Pearson's correlation.
data(ex_microarray) # Part of ALL dataset.
rgraph <- assignEdgeWeights(microarray = ex_microarray, graph = rgraph,
weight.method = "cor", use.attr="miriam.uniprot",
y=factor(colnames(ex_microarray)), bootstrap = FALSE)
## Get ranked paths using probabilistic shortest paths.
ranked.p <- pathRanker(rgraph, method="prob.shortest.path",
K=20, minPathSize=8)
## Convert paths to binary matrix.
ybinpaths <- pathsToBinary(ranked.p)
p.cluster <- pathCluster(ybinpaths, M=2)
plotClusters(ybinpaths, p.cluster, col=c("red", "blue") )
NetPathMiner documentation built on Nov. 8, 2020, 8:20 p.m.
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Description Usage Arguments Value Author(s) See Also Examples
Description
Plots the structure of all path clusters
Usage
1 2 3 4 5 6 | plotClusterMatrix(ybinpaths, clusters, col = rainbow(clusters$params$M),
grid = TRUE)
plotClusterProbs(clusters, col = rainbow(clusters$params$M))
plotClusters(ybinpaths, clusters, col, ...)
|
Arguments
ybinpaths |
The training paths computed by |
clusters |
The pathway cluster model trained by |
col |
Colors for each path cluster. |
grid |
A logical, whether to add a |
... |
Extra paramaters passed to |
Value
plotClusterMatrix plots an image of all paths the training dataset. Rows are the paths and columns
are the genes (features) included within each path. Paths are colored according to cluster membership.
plotClusterProbs The training set posterior probabilities for each path belonging to a 3M component.
plotClusters: combines the two plots produced by plotClusterProbs and plotClusterMatrix.
Author(s)
Ahmed Mohamed
See Also
Other Path clustering & classification methods: pathClassifier,
pathCluster, pathsToBinary,
plotClassifierROC,
plotPathClassifier,
plotPathCluster,
predictPathClassifier,
predictPathCluster
Other Plotting methods: colorVertexByAttr,
layoutVertexByAttr,
plotAllNetworks,
plotClassifierROC,
plotCytoscapeGML,
plotNetwork,
plotPathClassifier, plotPaths
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 | ## Prepare a weighted reaction network.
## Conver a metabolic network to a reaction network.
data(ex_sbml) # bipartite metabolic network of Carbohydrate metabolism.
rgraph <- makeReactionNetwork(ex_sbml, simplify=TRUE)
## Assign edge weights based on Affymetrix attributes and microarray dataset.
# Calculate Pearson's correlation.
data(ex_microarray) # Part of ALL dataset.
rgraph <- assignEdgeWeights(microarray = ex_microarray, graph = rgraph,
weight.method = "cor", use.attr="miriam.uniprot",
y=factor(colnames(ex_microarray)), bootstrap = FALSE)
## Get ranked paths using probabilistic shortest paths.
ranked.p <- pathRanker(rgraph, method="prob.shortest.path",
K=20, minPathSize=8)
## Convert paths to binary matrix.
ybinpaths <- pathsToBinary(ranked.p)
p.cluster <- pathCluster(ybinpaths, M=2)
plotClusters(ybinpaths, p.cluster, col=c("red", "blue") )
|
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