R/calc_PFP_score.R
In aib-group/PFP: Pathway Fingerprint Framework in R
Defines functions
calc_PFP_score
Documented in
calc_PFP_score
#' @title Get the pathway fingerprint of a gene_list
#' @description It can evaluate the performance of a gene list in the pathway
#' networks.
#' @param genes, a vector of characters
#' @param PFPRefnet, A PFPRefnet class
#' @param lambda, a numeric, the coefficient for keeping balance between the
#' node_score and edge_score in PFP model
#' @param coeff1, a numeric, the weight coefficient for directly connected score
#' in PFP model
#' @param coeff2, a numeric, the weight coefficient for indirectly connected
#' score in PFP model
#' @param statistic, a logical,whether to do the statistical test
#' @param bg_genelist, a vector of characters, background gene set for the
#' statistical test
#' @param adjust_method, statistic test method for adjust the p_value.
#' It could be "holm", "hochberg", "hommel", "bonferroni", "BH", "BY","fdr",
#' "none".
#' @details The main part of pathway fingerprint. PFP is used to evaluate the
#' performance of a gene_list in some pathway networks by considering the
#' genes' topological location in a pathway. Then we can get every gene's score
#' and the pathway score is caculated by sum all genes' score. All pathways'
#' scores combine the pathway fingerprint.
#' @return The score of PFP
#' @examples
#' data(gene_list_hsa)
#' data(PFPRefnet_hsa)
#' PFP <- calc_PFP_score(gene_list_hsa,PFPRefnet_hsa)
#' @export
calc_PFP_score <- function(genes,PFPRefnet,lambda=0.5,coeff1=1,coeff2=0.1,
statistic = TRUE,
bg_genelist=NULL,
adjust_method="BH"){
# get graph score
get_graph_score <- function(graph0,genes,lambda,coeff1,coeff2){
kegg_edges0 <- strsplit(x = names(edgeData(graph0)),split = "\\|")
kegg_edges1 <- data.frame(t(data.frame(kegg_edges0)))
kegg_nodes0 <- nodes(graph0)
con_rate <- length(kegg_edges0)/length(kegg_nodes0)
genes_inter <- as.vector(intersect(genes,kegg_nodes0))
graph_score <- data.frame(ENTREZID=genes_inter,
score0=rep(1,length(genes_inter)))
if (nrow(kegg_edges1)!=0){
# score1
score1_tmp <- vapply(X = kegg_edges0,
FUN = function(x)sum(match(x = x,
table = genes_inter,
nomatch = 0) == 0)==0,
FUN.VALUE = TRUE)
if (sum(score1_tmp) == 0){
score1 <- data.frame(matrix(nrow = 0,ncol=2))
colnames(score1) <- c("ENTREZID","score1")
}else{
score1 <- data.frame(table(unlist(kegg_edges0[score1_tmp])))
colnames(score1) <- c("ENTREZID","score1")
score1[["score1"]] <- score1[,"score1"]*coeff1
}
# score2
left_con <- lapply(genes_inter,
function(x)kegg_edges1[kegg_edges1[,1]==x,2])
names(left_con) <- genes_inter
right_con <- lapply(genes_inter,
function(x)kegg_edges1[kegg_edges1[,2]==x,1])
names(right_con) <- genes_inter
fun_intersect <- function(set,set_list){
vapply(X = set_list, FUN = function(x)(length(intersect(x,set))),0)
}
score2_tmp <- data.frame(lapply(X = left_con,
FUN = fun_intersect,right_con))
score2 <- vapply(X = seq_len(length(genes_inter)),
function(x)sum(score2_tmp[,x])+sum(score2_tmp[x,])-
score2_tmp[x,x],0)
score2 <- data.frame(ENTREZID=genes_inter,score2=score2)
score2[["score2"]] <- score2[,"score2"]*coeff2
graph_score <- merge(x = graph_score, y = score1, by = "ENTREZID",
all.x = TRUE)
graph_score <- merge(x = graph_score, y = score2, by = "ENTREZID",
all.x = TRUE)
graph_score[["score"]] <- rowSums(graph_score[,c("score1","score2")],
na.rm = TRUE)/con_rate*(1-lambda)+
graph_score[,c("score0")]*lambda
graph_score[is.na(graph_score)] <- 0
}else{
graph_score[["score1"]] <- rep(0,nrow(graph_score))
graph_score[["score2"]] <- rep(0,nrow(graph_score))
graph_score[["score"]] <- graph_score[,c("score0")]*lambda
}
return(graph_score)
}
test_pavlue <- function(genes,bg_genelist,PFPRefnet,adjust_method){
genes <- intersect(genes,bg_genelist)
sep_nodes <- lapply(X = names(network(PFPRefnet)),
FUN = function(x)intersect(
nodes(network(PFPRefnet)[[x]]),bg_genelist))
names(sep_nodes) <- names(network(PFPRefnet))
sep_nodes_hit <- lapply(X = names(sep_nodes),
FUN = function(x)intersect(sep_nodes[[x]],genes))
names(sep_nodes_hit) <- names(network(PFPRefnet))
p_values <- vapply(X = names(sep_nodes),
FUN = function(x)phyper(q = length(sep_nodes_hit[[x]])-1,
m = length(sep_nodes[[x]]),
n = length(bg_genelist)-
length(sep_nodes[[x]]),
k = length(genes),
lower.tail = FALSE),FUN.VALUE = 1)
p_adjust <- p.adjust(p = p_values, method = adjust_method)
return(list(p_value = p_values,p_adj_value = p_adjust))
}
if (sum(is.na(as.numeric(genes))) > 0)
stop("You should translate all your gene ids into ENTREZID!")
genes_score <- lapply(network(PFPRefnet),
get_graph_score,genes=genes,
lambda=lambda,
coeff1=coeff1,coeff2=coeff2)
PFP_score <- vapply(genes_score,function(x)sum(x$score),0)
if (statistic==TRUE){
if(is.null(bg_genelist)){
bg_genelist <- unique(unlist(lapply(X = network(PFPRefnet),nodes)))
}else{
if (sum(is.na(as.numeric(bg_genelist))) > 0){
stop("You should translate all your background genes ids into ENTREZID!")
}
}
random_tests <- test_pavlue(genes,
bg_genelist,
PFPRefnet,
adjust_method = adjust_method)
p_value <- random_tests[["p_value"]]
p_adj_value <- random_tests[["p_adj_value"]]
}else{
p_value <- numeric()
p_adj_value <- numeric()
}
PFP_res <- new(Class = "PFP",
pathways_score = list(PFP_score=PFP_score,
stats_test=data.frame(p_value=p_value,
p_adj_value=
p_adj_value),
genes_score=genes_score),
refnet_info = net_info(PFPRefnet))
return(PFP_res)
}
aib-group/PFP documentation built on Dec. 27, 2020, 1:13 a.m.
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Defines functions calc_PFP_score
Documented in calc_PFP_score
#' @title Get the pathway fingerprint of a gene_list
#' @description It can evaluate the performance of a gene list in the pathway
#' networks.
#' @param genes, a vector of characters
#' @param PFPRefnet, A PFPRefnet class
#' @param lambda, a numeric, the coefficient for keeping balance between the
#' node_score and edge_score in PFP model
#' @param coeff1, a numeric, the weight coefficient for directly connected score
#' in PFP model
#' @param coeff2, a numeric, the weight coefficient for indirectly connected
#' score in PFP model
#' @param statistic, a logical,whether to do the statistical test
#' @param bg_genelist, a vector of characters, background gene set for the
#' statistical test
#' @param adjust_method, statistic test method for adjust the p_value.
#' It could be "holm", "hochberg", "hommel", "bonferroni", "BH", "BY","fdr",
#' "none".
#' @details The main part of pathway fingerprint. PFP is used to evaluate the
#' performance of a gene_list in some pathway networks by considering the
#' genes' topological location in a pathway. Then we can get every gene's score
#' and the pathway score is caculated by sum all genes' score. All pathways'
#' scores combine the pathway fingerprint.
#' @return The score of PFP
#' @examples
#' data(gene_list_hsa)
#' data(PFPRefnet_hsa)
#' PFP <- calc_PFP_score(gene_list_hsa,PFPRefnet_hsa)
#' @export
calc_PFP_score <- function(genes,PFPRefnet,lambda=0.5,coeff1=1,coeff2=0.1,
statistic = TRUE,
bg_genelist=NULL,
adjust_method="BH"){
# get graph score
get_graph_score <- function(graph0,genes,lambda,coeff1,coeff2){
kegg_edges0 <- strsplit(x = names(edgeData(graph0)),split = "\\|")
kegg_edges1 <- data.frame(t(data.frame(kegg_edges0)))
kegg_nodes0 <- nodes(graph0)
con_rate <- length(kegg_edges0)/length(kegg_nodes0)
genes_inter <- as.vector(intersect(genes,kegg_nodes0))
graph_score <- data.frame(ENTREZID=genes_inter,
score0=rep(1,length(genes_inter)))
if (nrow(kegg_edges1)!=0){
# score1
score1_tmp <- vapply(X = kegg_edges0,
FUN = function(x)sum(match(x = x,
table = genes_inter,
nomatch = 0) == 0)==0,
FUN.VALUE = TRUE)
if (sum(score1_tmp) == 0){
score1 <- data.frame(matrix(nrow = 0,ncol=2))
colnames(score1) <- c("ENTREZID","score1")
}else{
score1 <- data.frame(table(unlist(kegg_edges0[score1_tmp])))
colnames(score1) <- c("ENTREZID","score1")
score1[["score1"]] <- score1[,"score1"]*coeff1
}
# score2
left_con <- lapply(genes_inter,
function(x)kegg_edges1[kegg_edges1[,1]==x,2])
names(left_con) <- genes_inter
right_con <- lapply(genes_inter,
function(x)kegg_edges1[kegg_edges1[,2]==x,1])
names(right_con) <- genes_inter
fun_intersect <- function(set,set_list){
vapply(X = set_list, FUN = function(x)(length(intersect(x,set))),0)
}
score2_tmp <- data.frame(lapply(X = left_con,
FUN = fun_intersect,right_con))
score2 <- vapply(X = seq_len(length(genes_inter)),
function(x)sum(score2_tmp[,x])+sum(score2_tmp[x,])-
score2_tmp[x,x],0)
score2 <- data.frame(ENTREZID=genes_inter,score2=score2)
score2[["score2"]] <- score2[,"score2"]*coeff2
graph_score <- merge(x = graph_score, y = score1, by = "ENTREZID",
all.x = TRUE)
graph_score <- merge(x = graph_score, y = score2, by = "ENTREZID",
all.x = TRUE)
graph_score[["score"]] <- rowSums(graph_score[,c("score1","score2")],
na.rm = TRUE)/con_rate*(1-lambda)+
graph_score[,c("score0")]*lambda
graph_score[is.na(graph_score)] <- 0
}else{
graph_score[["score1"]] <- rep(0,nrow(graph_score))
graph_score[["score2"]] <- rep(0,nrow(graph_score))
graph_score[["score"]] <- graph_score[,c("score0")]*lambda
}
return(graph_score)
}
test_pavlue <- function(genes,bg_genelist,PFPRefnet,adjust_method){
genes <- intersect(genes,bg_genelist)
sep_nodes <- lapply(X = names(network(PFPRefnet)),
FUN = function(x)intersect(
nodes(network(PFPRefnet)[[x]]),bg_genelist))
names(sep_nodes) <- names(network(PFPRefnet))
sep_nodes_hit <- lapply(X = names(sep_nodes),
FUN = function(x)intersect(sep_nodes[[x]],genes))
names(sep_nodes_hit) <- names(network(PFPRefnet))
p_values <- vapply(X = names(sep_nodes),
FUN = function(x)phyper(q = length(sep_nodes_hit[[x]])-1,
m = length(sep_nodes[[x]]),
n = length(bg_genelist)-
length(sep_nodes[[x]]),
k = length(genes),
lower.tail = FALSE),FUN.VALUE = 1)
p_adjust <- p.adjust(p = p_values, method = adjust_method)
return(list(p_value = p_values,p_adj_value = p_adjust))
}
if (sum(is.na(as.numeric(genes))) > 0)
stop("You should translate all your gene ids into ENTREZID!")
genes_score <- lapply(network(PFPRefnet),
get_graph_score,genes=genes,
lambda=lambda,
coeff1=coeff1,coeff2=coeff2)
PFP_score <- vapply(genes_score,function(x)sum(x$score),0)
if (statistic==TRUE){
if(is.null(bg_genelist)){
bg_genelist <- unique(unlist(lapply(X = network(PFPRefnet),nodes)))
}else{
if (sum(is.na(as.numeric(bg_genelist))) > 0){
stop("You should translate all your background genes ids into ENTREZID!")
}
}
random_tests <- test_pavlue(genes,
bg_genelist,
PFPRefnet,
adjust_method = adjust_method)
p_value <- random_tests[["p_value"]]
p_adj_value <- random_tests[["p_adj_value"]]
}else{
p_value <- numeric()
p_adj_value <- numeric()
}
PFP_res <- new(Class = "PFP",
pathways_score = list(PFP_score=PFP_score,
stats_test=data.frame(p_value=p_value,
p_adj_value=
p_adj_value),
genes_score=genes_score),
refnet_info = net_info(PFPRefnet))
return(PFP_res)
}
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