Mercurial > repos > bitlab > plidflow
diff PLIDflow/scripts/pdbcenter_npts_finder.R @ 6:795e11fac81b draft default tip
Included new tools for standardization
author | bitlab |
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date | Wed, 22 Apr 2020 06:12:00 -0400 |
parents | 6fcfa4756040 |
children |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/PLIDflow/scripts/pdbcenter_npts_finder.R Wed Apr 22 06:12:00 2020 -0400 @@ -0,0 +1,84 @@ +#pdbcenter_npts_finder.R calculates the geometric center of a PDB file + +#!/usr/bin/env Rscript +args = commandArgs(trailingOnly=TRUE) + +if(length(args) < 1){ + stop("USE: Rscript pdbcenter_npts_finder.R <receptor_name> <session_dir>") +} + +#Arguments definition +receptor_name <- args[1] +session_dir <- args[2] + +#Read PDB file +archivo <- scan(args[1], what = character(), quiet = TRUE) + +#Make a table where positions of carbon (C) atoms and their x, y, z coordenates will be placed +salto <- 0 +for(i in 1:(length(archivo)-2)){ + if(archivo[i] == "ATOM" && archivo[i+2] == "C"){ + salto <- salto + 1 + } +} +tablaC <- matrix(1, nrow = salto, ncol = 4) + +#Header. Note: first column: C atom position (will be filled in when the number of C will be known) +#Row labels +colnames(tablaC) <- c("C Position","X", "Y", "z") +rownames(tablaC) <- 1:salto + +#Fill in tablaC with x, y,z coordenates of the C atoms as numeric +salto <- 0 +posicionC <- c() +for(i in 1:(length(archivo)-2)){ + if(archivo[i] == "ATOM" && archivo[i+2] == "C"){ + salto <- salto + 1 + posicionC <- c(posicionC, archivo[i+1]) + + tablaC[salto,2] <- as.numeric(archivo[i+6]) + tablaC[salto,3] <- as.numeric(archivo[i+7]) + tablaC[salto,4] <- as.numeric(archivo[i+8]) + } +} + +#Add C atom positions in the column 1 +for(i in 1:salto){ + tablaC[i,1] <- as.numeric(posicionC[i]) +} + +#Geometric center calculation as grid center x, y, z to be introduced in the GPF file +pto_x_medio <- (max(tablaC[,2]) + min(tablaC[,2]))/2 +pto_y_medio <- (max(tablaC[,3]) + min(tablaC[,3]))/2 +pto_z_medio <- (max(tablaC[,4]) + min(tablaC[,4]))/2 + +pto_x_medio_r <- round(pto_x_medio,digits=3) +pto_y_medio_r <- round(pto_y_medio,digits=3) +pto_z_medio_r <- round(pto_z_medio,digits=3) + +#print(paste(pto_x_medio_r, pto_y_medio_r, pto_z_medio_r, sep = ";")) + +#Calculate distances in each coordenate to have de number of points (npts) x, y, z to be introduced in the GPF file +eu_x <- max(tablaC[,2])-min(tablaC[,2]) +eu_y <- max(tablaC[,3])-min(tablaC[,3]) +eu_z <- max(tablaC[,4])-min(tablaC[,4]) + +eu_x_r <- round(eu_x,digits=0) +eu_y_r <- round(eu_y,digits=0) +eu_z_r <- round(eu_z,digits=0) + +#print(paste(eu_x, eu_y, eu_z, sep = ";")) +#print(paste(eu_x_r, eu_y_r, eu_z_r, sep = ";")) + +if(eu_x > 126 || eu_y > 126 || eu_x > 126){ + print("At least one dimension in number of points is out of range (>126) according AutoDock software") + break +} + +#Write PDB geometric center and eu_x_r, eu_y_r, eu_z_r in a file +#write(paste(pto_x_medio_r, pto_y_medio_r, pto_z_medio_r, eu_x_r, eu_y_r, eu_z_r,sep= "\n"), file = "/home/galaxy/galaxy/tools/proteindocking/scripts/pdbcenter_npts.txt") +write(paste(pto_x_medio_r, pto_y_medio_r, pto_z_medio_r, eu_x_r, eu_y_r, eu_z_r,sep= "\n"), file = "pdbcenter_npts.txt") + + + +