predict-micro_array-method: Prediction of the gene expressions after a knock-out...
In Cascade: Selection, Reverse-Engineering and Prediction in Cascade Networks
predict,micro_array-method R Documentation
Prediction of the gene expressions after a knock-out experience
predict
Description
Prediction of the gene expressions after a knock-out experience
Usage
## S4 method for signature 'micro_array'
predict(object, Omega, nv = 0, targets = NULL, adapt = TRUE)
Arguments
object
a micro_array object
Omega
a network object.
nv
[=0] numeric; the level of the cutoff
targets
[NULL] vector; which genes are knocked out?
adapt
[TRUE] boolean; do not raise an error if used with vectors
instead of one column matrices.
Author(s)
Nicolas Jung, Frédéric Bertrand , Myriam Maumy-Bertrand.
References
Jung, N., Bertrand, F., Bahram, S., Vallat, L., and
Maumy-Bertrand, M. (2014). Cascade: a R-package to study, predict and
simulate the diffusion of a signal through a temporal gene network.
Bioinformatics, btt705.
Vallat, L., Kemper, C. A., Jung, N., Maumy-Bertrand, M., Bertrand, F.,
Meyer, N., ... & Bahram, S. (2013). Reverse-engineering the genetic
circuitry of a cancer cell with predicted intervention in chronic
lymphocytic leukemia. Proceedings of the National Academy of
Sciences, 110(2), 459-464.
Examples
data(Selection)
data(network)
#A nv value can chosen using the cutoff function
nv=.11
EGR1<-which(match(Selection@name,"EGR1")==1)
P<-position(network,nv=nv)
#We predict gene expression modulations within the network if EGR1 is experimentaly knocked-out.
prediction_ko5<-predict(Selection,network,nv=nv,targets=EGR1)
#Then we plot the results. Here for example we see changes at time point t2:
plot(prediction_ko5,time=2,ini=P,label_v=Selection@name)
Cascade documentation built on Nov. 28, 2022, 5:10 p.m.
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| predict,micro_array-method | R Documentation |
Prediction of the gene expressions after a knock-out experience
predict
Description
Prediction of the gene expressions after a knock-out experience
Usage
## S4 method for signature 'micro_array' predict(object, Omega, nv = 0, targets = NULL, adapt = TRUE)
Arguments
object |
a micro_array object |
Omega |
a network object. |
nv |
[=0] numeric; the level of the cutoff |
targets |
[NULL] vector; which genes are knocked out? |
adapt |
[TRUE] boolean; do not raise an error if used with vectors instead of one column matrices. |
Author(s)
Nicolas Jung, Frédéric Bertrand , Myriam Maumy-Bertrand.
References
Jung, N., Bertrand, F., Bahram, S., Vallat, L., and Maumy-Bertrand, M. (2014). Cascade: a R-package to study, predict and simulate the diffusion of a signal through a temporal gene network. Bioinformatics, btt705.
Vallat, L., Kemper, C. A., Jung, N., Maumy-Bertrand, M., Bertrand, F., Meyer, N., ... & Bahram, S. (2013). Reverse-engineering the genetic circuitry of a cancer cell with predicted intervention in chronic lymphocytic leukemia. Proceedings of the National Academy of Sciences, 110(2), 459-464.
Examples
data(Selection) data(network) #A nv value can chosen using the cutoff function nv=.11 EGR1<-which(match(Selection@name,"EGR1")==1) P<-position(network,nv=nv) #We predict gene expression modulations within the network if EGR1 is experimentaly knocked-out. prediction_ko5<-predict(Selection,network,nv=nv,targets=EGR1) #Then we plot the results. Here for example we see changes at time point t2: plot(prediction_ko5,time=2,ini=P,label_v=Selection@name)
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