writeNetwork: Write a previous knowledge network model to a sif file (with...
In saezlab/CellNOptR: Training of boolean logic models of signalling networks using prior knowledge networks and perturbation data
writeNetwork R Documentation
Write a previous knowledge network model to a sif file (with attribute files), as well as a dot file
Description
This function writes the original previous knowledge network (the model that you loaded in the beginning of your analysis) in a sif file, with a nodes attribute file that specifies if each node was stimulated/inhibited/signal/compressed/non-controllable-non-observable and an edge attribute file that specifies if the edge was absent in the optimal model (0) present in the optimal model at t1 (1) or present in the optimal model at t2 (2).
This function also writes a Graphviz dot file that contains the same information (see writeDot for more information about the dot file conventions).
Usage
writeNetwork(modelOriginal, modelComprExpanded, optimResT1, optimResT2, CNOlist,
tag = NULL,verbose=FALSE)
Arguments
modelOriginal
The PKN model
modelComprExpanded
The scaffold model (i.e. compressed and expanded)
optimResT1
The results of the optimisation process at t1
optimResT2
The results of the optimisation process at t2 (set this to NA if you have performed a one time point optimisation).
CNOlist
The CNOlist on which the optimisation is based
tag
NULL or string; tells whether you want to prefix filenames with a tag (replaces
the default behaviour).
verbose
If verbose=TRUE, the function prints a message every time an edge in the scaffold network couldn't be mapped back to the PKN
Details
The weights of the edges are computed as the mean across models within the relative tolerance limits, as output in the results from the optimisation $stringsTol. Strings that are in $stringsTol are the ones that are within the relative tolerance limits around the best solution in the population across all generations of the optimisation.
!If there is no time 2, then the argument optimResT2 should be = NA
This function maps back the edges weights from the optimised (expanded and compressed) model to the original model. The mapping back only works if the path has length 2 at most (i.e. you have node1-comp1-comp2-node2, where comp refer to nodes that have been compressed).
Value
This function does not have any output, it just writes a sif file, an edge attribute file, and a node attribute file
Note
The mapback of this function is still an open question, even in the Matlab version. Future developments will include more robust versions of the mapping back algorithm, probably as a separate mapback function.
Author(s)
C. Terfve
See Also
writeScaffold, writeDot
Examples
#load data
data(CNOlistToy,package="CellNOptR")
data(ToyModel,package="CellNOptR")
#pre-process model
indicesToy<-indexFinder(CNOlistToy,ToyModel,verbose=TRUE)
ToyNCNOindices<-findNONC(ToyModel,indicesToy,verbose=TRUE)
ToyNCNOcut<-cutNONC(ToyModel,ToyNCNOindices)
indicesToyNCNOcut<-indexFinder(CNOlistToy,ToyNCNOcut)
ToyNCNOcutComp<-compressModel(ToyNCNOcut,indicesToyNCNOcut)
indicesToyNCNOcutComp<-indexFinder(CNOlistToy,ToyNCNOcutComp)
ToyNCNOcutCompExp<-expandGates(ToyNCNOcutComp)
#optimise
ToyFields4Sim<-prep4sim(ToyNCNOcutCompExp)
initBstring<-rep(1,length(ToyNCNOcutCompExp$reacID))
ToyT1opt<-gaBinaryT1(
CNOlist=CNOlistToy,
model=ToyNCNOcutCompExp,
initBstring=initBstring,
verbose=TRUE,
maxGens=2,
popSize=5)
#write network
writeNetwork(
modelOriginal=ToyModel,
modelComprExpanded=ToyNCNOcutCompExp,
optimResT1=ToyT1opt,
optimResT2=NA,
CNOlist=CNOlistToy)
saezlab/CellNOptR documentation built on April 16, 2024, 5:21 a.m.
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| writeNetwork | R Documentation |
Write a previous knowledge network model to a sif file (with attribute files), as well as a dot file
Description
This function writes the original previous knowledge network (the model that you loaded in the beginning of your analysis) in a sif file, with a nodes attribute file that specifies if each node was stimulated/inhibited/signal/compressed/non-controllable-non-observable and an edge attribute file that specifies if the edge was absent in the optimal model (0) present in the optimal model at t1 (1) or present in the optimal model at t2 (2).
This function also writes a Graphviz dot file that contains the same information (see writeDot for more information about the dot file conventions).
Usage
writeNetwork(modelOriginal, modelComprExpanded, optimResT1, optimResT2, CNOlist,
tag = NULL,verbose=FALSE)
Arguments
modelOriginal |
The PKN model |
modelComprExpanded |
The scaffold model (i.e. compressed and expanded) |
optimResT1 |
The results of the optimisation process at t1 |
optimResT2 |
The results of the optimisation process at t2 (set this to NA if you have performed a one time point optimisation). |
CNOlist |
The CNOlist on which the optimisation is based |
tag |
NULL or string; tells whether you want to prefix filenames with a tag (replaces the default behaviour). |
verbose |
If verbose=TRUE, the function prints a message every time an edge in the scaffold network couldn't be mapped back to the PKN |
Details
The weights of the edges are computed as the mean across models within the relative tolerance limits, as output in the results from the optimisation $stringsTol. Strings that are in $stringsTol are the ones that are within the relative tolerance limits around the best solution in the population across all generations of the optimisation.
!If there is no time 2, then the argument optimResT2 should be = NA
This function maps back the edges weights from the optimised (expanded and compressed) model to the original model. The mapping back only works if the path has length 2 at most (i.e. you have node1-comp1-comp2-node2, where comp refer to nodes that have been compressed).
Value
This function does not have any output, it just writes a sif file, an edge attribute file, and a node attribute file
Note
The mapback of this function is still an open question, even in the Matlab version. Future developments will include more robust versions of the mapping back algorithm, probably as a separate mapback function.
Author(s)
C. Terfve
See Also
writeScaffold, writeDot
Examples
#load data
data(CNOlistToy,package="CellNOptR")
data(ToyModel,package="CellNOptR")
#pre-process model
indicesToy<-indexFinder(CNOlistToy,ToyModel,verbose=TRUE)
ToyNCNOindices<-findNONC(ToyModel,indicesToy,verbose=TRUE)
ToyNCNOcut<-cutNONC(ToyModel,ToyNCNOindices)
indicesToyNCNOcut<-indexFinder(CNOlistToy,ToyNCNOcut)
ToyNCNOcutComp<-compressModel(ToyNCNOcut,indicesToyNCNOcut)
indicesToyNCNOcutComp<-indexFinder(CNOlistToy,ToyNCNOcutComp)
ToyNCNOcutCompExp<-expandGates(ToyNCNOcutComp)
#optimise
ToyFields4Sim<-prep4sim(ToyNCNOcutCompExp)
initBstring<-rep(1,length(ToyNCNOcutCompExp$reacID))
ToyT1opt<-gaBinaryT1(
CNOlist=CNOlistToy,
model=ToyNCNOcutCompExp,
initBstring=initBstring,
verbose=TRUE,
maxGens=2,
popSize=5)
#write network
writeNetwork(
modelOriginal=ToyModel,
modelComprExpanded=ToyNCNOcutCompExp,
optimResT1=ToyT1opt,
optimResT2=NA,
CNOlist=CNOlistToy)
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