Erqiang Hu
College of Bioinformatics Science and Technology, Harbin Medical University
Get the development version from github:
if(!requireNamespace("devtools", quietly = TRUE))
install.packages("devtools")
devtools::install_github("huerqiang/prioGene")Or the released version from CRAN:
install.packages("prioGene")library(prioGene)The function deal_net could get a disease-related
network by retaining disease-causing genes and their One-step
interaction neighbors in a human biological network. The parameter
net means a human biological network, a matrix of two
columns. The parameter dise_gene means a one-column-matrix
of gene symbols obtained from the OMIM database or other disease-related
databases. They need to be provided by the users. We provide examples
separately in the package: prioGene::net and
prioGene::dise_gene.
net_disease <- deal_net(net,dise_gene)These five functions form a pipeline to weight the nodes and edges of
the network based on functional information. GO function annotation
information comes from org.Hs.eg.db.
genes_mat <- get_gene_mat(net_disease)
terms_mat <- get_term_mat(net_disease)
net_disease_term <- get_net_disease_term(genes_mat,net_disease)
node_weight <- get_node_weight(genes_mat)
edge_weight <- get_edge_weight(net_disease_term,terms_mat)The prioritization of candidate genes was performed based on disease risk scores of each gene obtained from an iteration process considering disease risks transferred between genes.
R_0<- get_R_0(dise_gene,node_weight,f=1)
result <- get_R(node_weight, net_disease_term, bet = 0.5, R_0 = R_0, threshold = 10^(-9))