In CenterForStatistics-UGent/compIntegrate: Compositional omics model based visual integration
Manual for the use of the combi package
Install and load packages
This repo contains R-code to fit and plot the mode-based integration models for compositional omics data using the combi package (Compositional Omics Model-Based Integration). The basic usage is demonstrated here.
The package can be installed loaded using the following commands:
library(devtools)
install_github("CenterForStatistics-UGent/combi")
Alternatively, via BioConductor:
library(BiocManager)
BiocManager::install("combi")
suppressPackageStartupMessages(library(combi))
cat("combi package version", as.character(packageVersion("combi")), "\n")
Unconstrained integration
For an unconstrained ordination, a named list of data matrices with overlapping samples must be supplied. In addition, information on the required distribution ("quasi" for quasi-likelihood fitting, "gaussian" for normal data) and compositional nature should be supplied.
data(Zhang)
microMetaboInt = combi(
list("microbiome" = zhangMicrobio, "metabolomics" = zhangMetabo),
distributions = c("quasi", "gaussian"), compositional = c(TRUE, FALSE),
logTransformGaussian = FALSE)
A simple plot function is available for the result, for samples and shapes, a data frame should also be supplied
plot(microMetaboInt)
plot(microMetaboInt, samDf = zhangMetavars, samCol = "ABX")
Constrained integration
For a constrained ordination also a data frame of sample variables should be supplied
microMetaboIntConstr = combi(
list("microbiome" = zhangMicrobio, "metabolomics" = zhangMetabo),
distributions = c("quasi", "gaussian"), compositional = c(TRUE, FALSE),
logTransformGaussian = FALSE, covariates = zhangMetavars)
plot(microMetaboIntConstr, samDf = zhangMetavars, samCol = "ABX")
Diagnostics
Convergence of the iterative algorithm can be assessed as follows:
convPlot(microMetaboInt)
Influence of the different views can be investigated through
inflPlot(microMetaboInt, samples = 1:20, plotType = "boxplot")
CenterForStatistics-UGent/compIntegrate documentation built on Aug. 4, 2023, 1:08 p.m.
R Package Documentation
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Manual for the use of the combi package
Install and load packages
This repo contains R-code to fit and plot the mode-based integration models for compositional omics data using the combi package (Compositional Omics Model-Based Integration). The basic usage is demonstrated here.
The package can be installed loaded using the following commands:
library(devtools) install_github("CenterForStatistics-UGent/combi")
Alternatively, via BioConductor:
library(BiocManager) BiocManager::install("combi")
suppressPackageStartupMessages(library(combi)) cat("combi package version", as.character(packageVersion("combi")), "\n")
Unconstrained integration
For an unconstrained ordination, a named list of data matrices with overlapping samples must be supplied. In addition, information on the required distribution ("quasi" for quasi-likelihood fitting, "gaussian" for normal data) and compositional nature should be supplied.
data(Zhang) microMetaboInt = combi( list("microbiome" = zhangMicrobio, "metabolomics" = zhangMetabo), distributions = c("quasi", "gaussian"), compositional = c(TRUE, FALSE), logTransformGaussian = FALSE)
A simple plot function is available for the result, for samples and shapes, a data frame should also be supplied
plot(microMetaboInt)
plot(microMetaboInt, samDf = zhangMetavars, samCol = "ABX")
Constrained integration
For a constrained ordination also a data frame of sample variables should be supplied
microMetaboIntConstr = combi( list("microbiome" = zhangMicrobio, "metabolomics" = zhangMetabo), distributions = c("quasi", "gaussian"), compositional = c(TRUE, FALSE), logTransformGaussian = FALSE, covariates = zhangMetavars)
plot(microMetaboIntConstr, samDf = zhangMetavars, samCol = "ABX")
Diagnostics
Convergence of the iterative algorithm can be assessed as follows:
convPlot(microMetaboInt)
Influence of the different views can be investigated through
inflPlot(microMetaboInt, samples = 1:20, plotType = "boxplot")
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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