README.md
In MartinFXP/B-NEM: Training of logical models from indirect measurements of perturbation experiments
B-NEM
Boolean Nested Effects Models (B-NEM) are used to infer signalling
pathways. In different experiments (conditions) members of a pathway
(S-genes) are stimulated or inhibited, alone and in combination. In
each experiment transcriptional targets (E-genes) of the pathway react
differently and are higher or lower expressed depending on the
condition. From these differential expression profiles B-NEM infers Boolean
functions presented as hyper-edges of a hyper-graph connecting parents
and children in the pathway. For example if the signal is transducted
by two parents A and B to a child C and the signal can be blocked with
a knock-down of either one, they are connected by a typical
AND-gate. If the signal is still transduced during a single
knock-down, but blocked by the double knock-down of A and B, they
activate C by an OR-gate. In general the state of child C is defined
by a Boolean function
f: {0,1}^n -> {0,1}, C = f(A_1, ... , A_n)
with its parents A_i, i ∈ {1,...,n}.
Install:
if (!requireNamespace("BiocManager", quietly = TRUE))
install.packages("BiocManager")
BiocManager::install("bnem")
Most recent (devel) version:
install.packages("devtools")
library(devtools)
install_github("MartinFXP/bnem")
library(bnem)
Then check out the vignette for working examples.
vignette("bnem")
Publication result:
Use the function ?processDataBCR to reproduce the data analysed in
the publication (Pirkl et. al., 2016).
References:
Pirkl, Martin, Hand, Elisabeth, Kube, Dieter, & Spang,
Rainer. 2016. Analyzing synergistic and non-synergistic interactions
in signalling pathways using Boolean Nested Effect
Models. \textit{Bioinformatics}, 32(6), 893–900.
Pirkl, Martin. 2016. Indirect inference of synergistic and
alternative signalling of intracellular pathways. University of
Regensburg.
MartinFXP/B-NEM documentation built on Oct. 27, 2023, 8:24 p.m.
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B-NEM
Boolean Nested Effects Models (B-NEM) are used to infer signalling pathways. In different experiments (conditions) members of a pathway (S-genes) are stimulated or inhibited, alone and in combination. In each experiment transcriptional targets (E-genes) of the pathway react differently and are higher or lower expressed depending on the condition. From these differential expression profiles B-NEM infers Boolean functions presented as hyper-edges of a hyper-graph connecting parents and children in the pathway. For example if the signal is transducted by two parents A and B to a child C and the signal can be blocked with a knock-down of either one, they are connected by a typical AND-gate. If the signal is still transduced during a single knock-down, but blocked by the double knock-down of A and B, they activate C by an OR-gate. In general the state of child C is defined by a Boolean function
f: {0,1}^n -> {0,1}, C = f(A_1, ... , A_n)
with its parents A_i, i ∈ {1,...,n}.
Install:
if (!requireNamespace("BiocManager", quietly = TRUE))
install.packages("BiocManager")
BiocManager::install("bnem")
Most recent (devel) version:
install.packages("devtools")
library(devtools)
install_github("MartinFXP/bnem")
library(bnem)
Then check out the vignette for working examples.
vignette("bnem")
Publication result:
Use the function ?processDataBCR to reproduce the data analysed in
the publication (Pirkl et. al., 2016).
References:
Pirkl, Martin, Hand, Elisabeth, Kube, Dieter, & Spang, Rainer. 2016. Analyzing synergistic and non-synergistic interactions in signalling pathways using Boolean Nested Effect Models. \textit{Bioinformatics}, 32(6), 893–900.
Pirkl, Martin. 2016. Indirect inference of synergistic and alternative signalling of intracellular pathways. University of Regensburg.
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.
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