Difference between revisions of "User:Remig/plico/remap"
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Copy and paste the following to a text editor and save to your scripts folder as remap.spt: | Copy and paste the following to a text editor and save to your scripts folder as remap.spt: | ||
<pre># remap - Jmol script by Ron Mignery | <pre># remap - Jmol script by Ron Mignery | ||
− | # v1. | + | # v1.3 beta 4/3/2014 for Jmol 14 -do not var globals for Jmol 14.0.13+ |
# | # | ||
# Calculate or change polypeptide chain, atom number, residue names and/or residue | # Calculate or change polypeptide chain, atom number, residue names and/or residue | ||
# numbers and print the resultant 1 char string | # numbers and print the resultant 1 char string | ||
# | # | ||
− | + | gAppendNew = TRUE | |
# Search for N-C-C-0 | # Search for N-C-C-0 |
Revision as of 15:41, 3 April 2014
Remap allows you to change the chain ID, atom numbers and/or residue numbers of a polypeptide chain by mouse actions. It also calculates group values [amino acid names (GLY, THR, etc.)]. Finally it prints the 1 char resultant string to the console.
Note that it will also remove all waters, hydrogens and %B alternates when any chain is updated.
Remap is a member of the Plico suite of protein folding tools described here. It may be installed and accessed as a macro with the file:
Title=PLICO Remap Script=script <path to your scripts folder>/remap.spt;plicoRemap
saved as plicoRemap.macro in your .jmol/macros folder as described in Macro.
Copy and paste the following to a text editor and save to your scripts folder as remap.spt:
# remap - Jmol script by Ron Mignery # v1.3 beta 4/3/2014 for Jmol 14 -do not var globals for Jmol 14.0.13+ # # Calculate or change polypeptide chain, atom number, residue names and/or residue # numbers and print the resultant 1 char string # gAppendNew = TRUE # Search for N-C-C-0 function getBBnCAidx(idx) { if ({atomIndex=idx}.element == "N") { var c1 = (connected({atomIndex=idx}) and not {hydrogen}) for (var i1 = 1; i1 <= c1.size; i1++) { if (c1[i1].element == "C") { var c2 = (connected({atomIndex=@{c1[i1].atomIndex}}) and not {hydrogen}) for (var i2 = 1; i2 <= c2.size; i2++) { if (c2[i2].element == "C") { var c3 = (connected({atomIndex=@{c2[i2].atomIndex}}) and not {hydrogen}) for (var i3 = 1; i3 <= c3.size; i3++) { if (c3[i3].element == "O") { return c1[i1].atomIndex } } } } } } } return -1 } # Find N-terminal N function findN0idx(aIdx) { select {atomIndex=aIdx} var cSet = {selected} while (cSet.size > 0) { for (var i = 1; i <= cSet.size; i++) { var idx = cSet[i].atomIndex var caIdx = getBBnCAidx(idx) if (caIdx >= 0) { if ({connected({atomIndex=idx}) and not {hydrogen}}.size < 2) { return idx } } } cSet = connected({selected}) and not {selected} and not {hydrogen} select {selected} or cset } return -1 } # Bound to ALT-LEFT-CLICK by plicoRemap function remapCargoMB() { var idx =_atomPicked if ({atomIndex=idx}.element == "H") { idx = connected({atomIndex=idx})[1].atomIndex } # If n-terminal N can be found var n0idx = findN0idx(idx) var isValid = FALSE var newResno = 1 var newChain = "A" var newAtomno = 1 if (n0idx >= 0) { # Prompt for new designators var p = prompt("Enter n-terminal atom designator as\n" + " <resno>:<chain>.N#<atomno>", "1:A.N#1")%0 # If valid var iColon = p.find(":") if (iColon > 0) { var iDot = p.find(".") if (iDot > 0) { var iHash = p.find("#") if (iHash > 0) { newResno = 0 + (p[1][iColon-1]) newChain = p[iColon+1][iDot-1] newAtomno = 0 + (p[iHash+1][0]) if ((newResno > 0) and (newChain.size == 1) and (newAtomno > 0)) { isValid = TRUE } } } } } if (isValid) { delete {hydrogen} delete {hoh} delete %B ssbonds off # Build inline pdb file var ls = "data \"append remap\"\n" var rs = "" var ls1 = format("%s:", newChain) select {atomIndex=n0idx} var cSet = {selected} var newAtomName = "N" var newGroup = "UNK" var s1 = "X" var newGreek = "" var newCount = "" var isCB = FALSE var nIdx = n0idx var proDidx = -1 var oxtIdx = -1 while ((nIdx >= n0idx) or (cSet.size > 0)) { var s = array(1, 2, 3) var pTrp = 0 if (cSet.size == 0) { ls += rs.replace("UNK", newGroup).replace(" SeG" , " SeG ") ls1 += s1 rs = "" newResno++ nIdx = -1 proIdx = -1 newGroup = "UNK" s1 = "X" newAtomName = "N" isCB = FALSE } else if (cSet.size == 1) { if (newAtomName == "N") { newGreek = "" newAtomName = "CA" } else if (newAtomName == "CA") { newGreek = "A" newAtomName = "C" } else if (newAtomName == "C") { newGroup = "GLY" s1 = "G" newGreek = "" newAtomName = "O" } else if (newAtomName == "CB") { if (cSet[1].element == "C") { newGroup = "ALA" # for now s1 = "A" newGreek = "B" } newAtomName = "XG" } else if (newAtomName == "XG") { if (proDidx >= 0) { newGroup = "PRO" s1 = "P" proDidx = -1 } if (cSet[1].element == "O") { # SER CYS SEC newGroup = "SER" s1 = "S" } else if (cSet[1].element == "S") { newGroup = "CYS" s1 = "C" } else if (cSet[1].element == "Se") { newGroup = "SEC" s1 = "U" } newGreek = "G" newAtomName = "XD" } else if (newAtomName == "XD") { if (newGroup == "VAL") { newGroup = "ILE" s1 = "I" newCount = "1" } newGreek = "D" newAtomName = "XE" } else if (newAtomName == "XE") { newGroup = "MET" s1 = "M" newGreek = "E" newAtomName = "XZ" } else if (newAtomName == "XZ") { if (cSet[1].element == "N") { newGroup = "LYS" s1 = "K" } else { newGroup = "PHE" # for now s1 = "F" } newGreek = "Z" newAtomName = "XH" } else if (newAtomName == "XH") { if (cSet[1].element == "O") { newGroup = "TYR" s1 = "Y" } else { newGroup = "TRP" # for now s1 = "W" newCount = "2" } newGreek = "H" newAtomName = "N" } } else if (cSet.size == 2) { var hasN = ((cSet[1].element == "N") or (cSet[2].element == "N")) var hasO = ((cSet[1].element == "O") or (cSet[2].element == "O")) # If CA 2 if (newAtomName == "CA") { var iKeep = -1 for (var i = 1; i <= cSet.size; i++) { if (connected(cSet[i]) > 2) { iKeep = i } else { proDidx = cSet[i].atomIndex cSet[i].selected = FALSE } } cSet = cSet[iKeep] newGroup = "PRO" s1 = "P" newGreek = "A" newAtomName = "C" } # Else if C or CB 2 else if (newAtomName == "C") { for (var i = 1; i <= cSet.size; i++) { # If it connects O and (N or O) var tSet = (connected(cSet[i]) and not {selected}) var oCount = 0 var nCount = 0 for (var j = 1; j <= tSet.size; j++) { oCount += ((tSet[j].element == "O") ? 1 : 0) nCount += ((tSet[j].element == "N") ? 1 : 0) } if ((nCount > 0) or (oCount > 1)) { # C newGreek = "" newAtomName = "O" } else { # CB isCB = TRUE cSet[i].selected = FALSE cSet = (cSet and not cSet[i]) continue } } # endfor } # Else if O or N 2 else if (newAtomName == "O") { var iKeep = -1 for (var i = 1; i <= cSet.size; i++) { if (cSet[i].element != "O") { if (cSet[i].element == "N") { nIdx = cSet[i].atomIndex } cSet[i].selected = FALSE } else { iKeep = i } } cSet = cSet[iKeep] newGreek = "" newAtomName = (isCB ? "CB" : "N") } # Else if N or CB 2 else if (newAtomName == "CB") { for (var i = 1; i <= cSet.size; i++) { if (cSet[i].element != "C") { nIdx = cSet[i].atomIndex cSet[i].selected = FALSE continue } newGreek = "B" newAtomName = "XG" } # endfor } # Else if XG or XGn 2 else if (newAtomName == "XG") { # VAL THR ILE newGroup = (hasO ? "THR" : "VAL") s1 = (hasO ? "T" : "V") newGreek = "G" newAtomName = "XD" } # Else if XD or XDn 2 else if (newAtomName == "XD") { # LEU ASP ASN var cTrp = (connected(cSet[2]) and not {selected}) var sTrp = ((trp.size > 0) ? (trp[1].element=="N") : FALSE) if ((cSet[2].element != "C") or sTrp or ((connected(cSet[1]) and not {selected}).size == 0)) { bRev = TRUE } if ((cSet[2].element == "O") or (cSet[1].element == "N") or ((cSet[1].element == "C") and (cSet[2].element != "C"))) { bRev = TRUE } if (hasN) { if (hasO) { newGroup = "ASN" s1 = "N" } else { newGroup = "HIS" s1 = "H" } } else if (hasO) { newGroup = "ASP" s1 = "D" } else { newGroup = "LEU" # for now s1 = "L" } newGreek = "D" newAtomName = "XE" } # Else if XE or XEn 2 else if (newAtomName == "XE") { # GLU GLN HIS if ((cSet[2].element == "O") or (cSet[1].element == "N") or ((cSet[1].element == "C") and (cSet[2].element != "C"))) { bRev = TRUE } if (hasO) { if (hasN) { newGroup = "GLN" s1 = "Q" } else { newGroup = "GLU" s1 = "E" } } newGreek = "E" newAtomName = "XZ" } # Else if XZ 2 else if (newAtomName == "XZ") { # ARG if (newGroup == "TRP") { pTrp = 1 } newGreek = "Z" newAtomName = "XH" } # Else if XH 2 else if (newAtomName == "XH") { # ARG newGroup = "ARG" s1 = "R" newGreek = "H" newAtomName = "N" } } # Else cSet.size = 3 else { # If O if (newAtomName == "O") { var oCount = 0 var iKeep = -1 for (var i = 1; i <= cSet.size; i++) { if (cSet[i].element != "O") { if (cSet[i].element == "N") { nIdx = cSet[i].atomIndex } cSet[i].selected = FALSE } else { oCount++ if (iKeep < 0) { iKeep = i } else { oxtIdx = cSet[i].atomIndex } } } cset = cSet[iKeep[1]] newGreek = "" newAtomName = (isCB ? "CB" : "N") } else if (newAtomName == "CA") { # PRO var iKeep = -1 for (var i = 1; i <= cSet.size; i++) { if (connected(cSet[i]) > 2) { iKeep = i } } cSet = cSet[iKeep] newGreek = "A" newAtomName = "C" } else if (newAtomName == "XE") { # TRP for (var i = 1; i <= cSet.size; i++) { if (cSet[i].element == "N") { s[1] = i } else if (connected(cSet[i]) > 2) { s[2] = i } else { s[3] = i } } newGroup = "TRP" s1 = "W" newGreek = "E" newAtomName = "XZ" } else { } } for (var i = 1; i <= cSet.size; i++) { rs += format("ATOM %5d %-4sUNK ", newAtomNo, (cSet[s[i]].element + newGreek + ((cSet.size > 1) ? (i+pTrp) : newCount))) rs += format("%s%4d %8.3f", newChain, newResno, cSet[s[i]].x) rs += format("%8.3f%8.3f\n", cSet[s[i]].y, cSet[s[i]].z) if (newGreek == "XT") { newGreek == "" } newAtomno++ } newCount = "" cSet = (connected({selected}) and not {selected} and not {atomIndex=@nIdx} and not {atomIndex=proDidx}) select ({selected} or cSet and not {atomIndex=nIdx} and not {atomIndex=proDidx}) } # endwhile # Replace chain with new chain if (oxtIdx >= 0) { rs += format("ATOM %5d OXT UNK %s", newAtomNo, newChain) rs += format("%4d %8.3f", newResno, {atomIndex=oxtIdx}.x) rs += format("%8.3f%8.3f\n", {atomIndex=oxtIdx}.y, {atomIndex=oxtIdx}.z) } ls += rs.replace("UNK", newGroup).replace(" SeG" , " SeG ") ls1 += s1 delete {selected} ls += "end \"append remap\"" script inline @{ls} var xx = {element="Xx"} for (var i = 1; i <= xx.size; i++) { connect 1.8 {atomindex=@{xx[i].atomIndex}} } ssbonds on gEcho += format("|Chain %s has been rebuilt", newChain) set echo TOP LEFT echo @gEcho print ls1 } } # Top level of Remap function plicoRemap() { # Push selected gSelSaves = {selected} gAppendNew = appendNew set appendNew FALSE gScheme = defaultColorScheme gAltScheme = ((gScheme == "Jmol") ? "Rasmol" : "Jmol") set echo TOP LEFT background ECHO yellow gEcho = "_______REMAP_______|ALT-CLICK=select chain|DOUBLE-CLICK=exit" echo @gEcho gChain = "" unbind set picking ON bind "ALT-LEFT-CLICK" "_pickAtom"; bind "ALT-LEFT-CLICK" "+:remapCargoMB"; bind "DOUBLE" "remapExit"; } # Bound to DOUBLE by plicoRemap function remapExit() { unbind halo off echo select all color {selected} @gScheme gBusy = FALSE set appendNew gAppendNew # Pop selected select gSelSaves } # End of REMAP.SPT