User:Remig/plico/remapNT
RemapNT allows you to change the chain ID, atom numbers and/or residue numbers of a polynucleotide chain by mouse actions. It also calculates group values [nucleotide names (DU, A, etc.)]. Finally it prints the resultant 1 char string to the console.
When you click on a polynucleotide chain, it gives the current chain ID, residue, residue number and atom number of the most 5'ward atom in that chain. You may then edit any value (except residue). Remap then remaps the entire chain based on those values by conventional increments and identifies each nucleotide residue.
Note that it will also remove all waters, ligands, hydrogens and %B alternates when any chain is updated.
RemapNT 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 Polynucleotide Script=script <path to your scripts folder>/remapNT.spt;plico_remap_nt
saved as plicoRemapNT.macro in your .jmol/macros directory as described in Macro.
Copy and paste the following to a text editor and save to your scripts directory as remapNT.spt:
# remapNT - Jmol script by Ron Mignery # v1.4 beta 5/16/2014 -lc all functions # # Calculate or change polynucleotide chain, atom number, residue names # and/or residue numbers and print the resultant 1 char string # function find_5_prime(pIdx) { while (pIdx >= 0) { # Find C3' var c3pIdx = -1 select {atomIndex=pIdx} var cSet = {selected} for (var i = 1; i <= cSet.size; i++) { var ocSet = connected(cSet[i]) for (var j = 1; j <= ocSet.size; j++) { var occSet = connected(ocSet[j]) and not {atomIndex=pIdx} for (var k = 1; k <= occSet.size; k++) { if (connected(occSet[k]).size > 2) { c3pIdx = occSet[k].atomIndex } } } } if (c3pIdx < 0) { return pIdx } # Find C4' var endIdx = -1 cSet = connected({atomIndex=c3pIdx}) and not {oxygen} for (var i = 1; i <= cSet.size; i++) { var ocSet = connected(cSet[i]) and {oxygen} for (var j = 1; j <= ocSet.size; j++) { if (connected(ocSet[j]).size > 1) { endIdx = cSet[i].atomIndex } } } # Find C5' var c5idx = -1 cSet = (connected({atomIndex=endIdx}) and not {atomIndex=c3pIdx} and not {oxygen}) if (cSet.size > 0) { c5idx = cSet[1].atomIndex } # Find O5' var o5idx = -1 cSet = connected({atomIndex=c5idx}) and {oxygen} if (cSet.size > 0) { o5idx = cSet[1].atomIndex } if (o5idx < 0) { return c5idx } # Find P pIdx = -1 cSet = connected({atomIndex=o5idx}) and {phosphorus} if (cSet.size > 0) { Pidx = cSet[1].atomIndex } if (Pidx < 0) { return o5idx } } return -1 } function find_p_idx(idx) { select {atomIndex=idx} var cSet = {selected} while (cSet.size > 0) { for (var i = 1; i <= cSet.size; i++) { if (cSet[i].element == "P") { return cSet[i].atomIndex } } cSet = connected({selected}) and not {selected} and not {hydrogen} select {selected} or cset } return -1 } # cSet, s, and newGreek are arrays and thus passed by reference function ring_common(cSet, nIdx, s, newGreek, nextGreek) { if (cSet.size > 2) { print format("Unrecognized structure with set %s", cSet) } var oldGreek = 0 + newGreek[1] newGreek[1] = nextGreek for (var i = 1; i <= cSet.size; i++) { var ccSet = connected(cSet[i]) if (ccSet.size == 1) { if (cSet[i].element == ccSet[1].element) { s[2] = i s[1] = ((i > 1) ? 1 : 2) newGreek[i] = 1 + nextGreek newGreek[s[1]] = nextGreek return cSet[s[1]].atomIndex } else { s[1] = i s[2] = ((i > 1) ? 1 : 2) newGreek[i] = oldGreek newGreek[s[2]] = nextGreek return cSet[s[2]].atomIndex } } } return cSet[1].atomIndex } # Bound to ALT-LEFT-CLICK by plico_remap_nt function remap_nt_cargo_mb() { var idx =_atomPicked if ({atomIndex=idx}.element == "H") { idx = connected({atomIndex=idx})[1].atomIndex } # If P can be found var pIdx = find_p_idx(idx) var isValid = FALSE var newResno = 1 var newChain = "A" var newAtomno = 1 var t5idx = -1 if (pIdx >= 0) { t5idx = find_5_prime(pIdx) if (t5idx >= 0) { c5resno = {atomIndex=t5idx}.resno c5chain = {atomIndex=t5idx}.chain c5atomno = {atomIndex=t5idx}.atomno select {atomIndex=t5idx} halo on refresh # Prompt for new designators var p = prompt(("Enter 5\'-terminal atom designator as\n" + " <resno>:<chain>#<atomno>"), format("%d:%s#%d", c5resno, c5chain, c5atomno))%0 # If valid if (p != "null") { var iColon = p.find(":") if (iColon > 0) { var iHash = p.find("#") if (iHash > 0) { newResno = 0 + (p[1][iColon-1]) newChain = p[iColon+1][iHash-1] newAtomno = 0 + (p[iHash+1][0]) if ((newResno > 0) and (newChain.size == 1) and (newAtomno > 0)) { isValid = TRUE } } } if (not isValid) { prompt ("Entry not valid!") } } } } if (isValid) { background ECHO pink refresh delete {hydrogen} delete {hoh} delete %B delete ligands connect # Build inline pdb file ls = "data \"append remap\"\n" # global PDB atom record var rs = "" select {atomIndex=t5idx} var cSet = {selected} var nextAtomName = {atomIndex=t5idx}.element var newGroup = "UNK" var newGreek = array("", "", "", "") var nIdx = t5idx var c1pIdx = -1 var o3pIdx = -1 var stopIdx = -1 var endIdx = -1 var isRNA = FALSE var first = TRUE var psu = FALSE while (cSet.size > 0) { var s = array(1, 2, 3) var iKeep = -1 var iDrop = -1 switch( nextAtomName) { case "O" : newGreek[1] = (first ? "5\'" : "P3") nextAtomName = (first ? "C5\'" : "P") nIdx = cSet[1].atomIndex break case "P" : newGreek[1] = "" nextAtomName = "OP" nIdx = cSet[1].atomIndex break case "OP" : var oc5set = ({}) for (var i = 1; i <= cSet.size; i++) { if (connected(cSet[i]).size > 1) { s[3] = i newGreek[i] = "5\'" oc5set = connected(cSet[i]) and {carbon} nIdx = cSet[i].atomIndex } } for (var i = 1; i <= cSet.size; i++) { if (i != s[3]) { if (abs(angle(cSet[i], {atomIndex=pIdx}, cSet[s[3]], oc5set[1])) < 90.0) { s[1] = i newGreek[i] = "P1" } else { s[2] = i newGreek[i] = "P2" } } } #nIdx = pIdx nextAtomName = "C5\'" break case "C5\'" : nIdx = cSet[1].atomIndex newGreek[1] = "5\'" nextAtomName = "C4\'" break case "C4\'" : nIdx = cSet[1].atomIndex newGreek[1] = "4\'" nextAtomName = "C3\'" break case "C3\'" : for (var i = 1; i <= cSet.size; i++) { if (cSet[i].element == "O") { s[1] = i newGreek[1] = "4\'" cSet[i].selected = FALSE stopIdx = cSet[i].atomIndex } else { s[2] = i newGreek[2] = "3\'" nIdx = cSet[i].atomIndex } } nextAtomName = "O3\'" break case "O3\'" : for (var i = 1; i <= cSet.size; i++) { if (cSet[i].element == "O") { s[1] = i newGreek[1] = "3\'" o3pIdx = cSet[i].atomIndex } else { s[2] = i newGreek[2] = "2\'" nIdx = cSet[i].atomIndex } } nextAtomName = "C2\'" break case "C2\'" : pIdx = -1 for (var i = 1; i <= cSet.size; i++) { if (cSet[i].element == "P") { pIdx = cSet[i].atomIndex cSet = cSet and not cSet[i] break } } for (var i = 1; i <= cSet.size; i++) { if (cSet[i].element == "O") { s[2] = i newGreek[2] = "2\'" isRNA = TRUE } else { s[1] = i newGreek[1] = "1\'" c1pIdx = cSet[i].atomIndex nIdx = cSet[i].atomIndex } } nextAtomName = "C1\'" break case "C1\'" : for (var i = 1; i <= cSet.size; i++) { if (cSet[i].element == "N") { iKeep = i nIdx = cSet[i].atomIndex } else if ((cSet[i].element == "C") and ((connected(cSet[i]) and {oxygen}).size == 0)) { #PSU psu = TRUE iKeep = i nIdx = cSet[i].atomIndex } else { cSet[i].selected = FALSE } } cSet = cSet[iKeep] var ccSet = connected(cSet[1]) and not {atomIndex=c1pIdx} newGreek[1] = "9" nextAtomName = "N9u" newGroup = "PU" for (var j = 1; j <= ccSet.size; j++) { if ((connected(ccSet[j]) and {oxygen}) > 0) { newGreek[1] = "1" nextAtomName = "N1y" newGroup = "PY" } } break case "N1y" : for (var i = 1; i <= cSet.size; i++) { if (connected(cSet[i]) > 2) { iKeep = i nIdx = cSet[i].atomIndex } else { stopIdx = cSet[i].atomIndex } } cSet = cSet[iKeep] newGreek[1] = "2" nextAtomName = "C2" break case "N9u" : # Find N-C-N-C-N for (var i = 1; i <= cSet.size; i++) { n1atom = (connected(cSet[i]) and {nitrogen} and not {atomIndex=nIdx}) c2set = connected(n1atom) and {carbon} and not cSet[i] for (var j = 1; j <= c2set.size; j++) { if ((connected(c2set[j]) and {nitrogen}) > 1) { iDrop = i } } } stopIdx = cSet[iDrop].atomIndex cSet = cSet and not cSet[iDrop] nIdx = cSet[1].atomIndex newGreek[1] = "8" nextAtomName = "C8" break case "C8" : nIdx = ring_common( cSet, nIdx, s, newGreek, "7") nextAtomName = "N7" break case "N7" : nIdx = ring_common( cSet, nIdx, s, newGreek, "5") nextAtomName = "C5" break case "C5" : if (isRNA and (newGroup == "DU ")) { var c5set = {atomIndex=nIdx} or connected({atomIndex=nIdx}) if (angle(c5set[1], c5set[2], c5set[3]) < 114.0) { newGroup = "D " } } nIdx = ring_common( cSet, nIdx, s, newGreek, "6") if ((newGroup == "DU ") and (cSet.size > 1)) { newGroup = "DT " } nextAtomName = "C6" break case "C6" : if (newGroup == "PU") { nIdx = ring_common( cSet, nIdx, s, newGreek, "1") newGroup = ((cSet[1].element == "O") ? "DG " : "DA ") nextAtomName = "N1" } else { if (psu) { psu = FALSE newGroup = "DU " } cSet = ({}) } break case "N1" : if (connected({atomIndex=nIdx}).size > 2) { # YG newGroup = "X " } nIdx = ring_common( cSet, nIdx, s, newGreek, "2") nextAtomName = "C2" break case "C2" : nIdx = ring_common( cSet, nIdx, s, newGreek, "3") nextAtomName = "N3" stopIdx = -1 break case "N3" : nIdx = ring_common( cSet, nIdx, s, newGreek, "4") nextAtomName = "C4" break case "C4" : if (newGroup != "PY") { cSet = ({}) } else { nIdx = ring_common( cSet, nIdx, s, newGreek, "5") newGroup = ((cSet[1].element == "N") ? "DC " : "DU ") nextAtomName = "C5" } break } first = FALSE for (var i = 1; i <= cSet.size; i++) { rs += format("ATOM %5d %-4sUNK ", newAtomNo, (cSet[s[i]].element + newGreek[s[i]])) 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) newAtomno++ } cSet = (connected(cSet and not {atomIndex=stopIdx}) and not cSet and not {atomIndex=stopIdx} and not {atomIndex=endIdx}) endIdx = nIdx if (cSet.size == 0) { if (isRNA) { newGroup = (newGroup.replace("DA ","A ").replace("DG ","G ") .replace("DC ","C ").replace("DT ","T ").replace("DU ","U ")) } ls += rs.replace("UNK", newGroup) rs = "" newResno++ if (pIdx >= 0) { cSet = {atomIndex=pIdx} nextAtomName = "P" newGroup = "UNK" greek = "" newGreek[1] = greek c1pIdx = -1 stopIdx = o3pIdx endIdx = -1 isRNA = FALSE } else { break } } } # endwhile # Replace chain with new chain cset = {atomIndex=idx} select cSet while (cSet.size > 0) { cSet = connected({selected}) and not {selected} select {selected} or cSet } delete {selected} ls += "end \"append remap\"" script inline @{ls} gEcho += format("|Chain %s has been rebuilt", newChain) set echo TOP LEFT echo @gEcho background ECHO yellow refresh print_1c_chain( newChain) } } function print_1c_chain(iChain) { var resmin = {chain=iChain}.resno.min var resmax = {chain=iChain}.resno.max var rchar = (({(resno=resmin) and (chain=iChain)}.group[0].size > 1) ? "" : "R") var lcAtoms = (within(3.1, FALSE, {(resno=resmin) and (chain=iChain) and base}) and not {(resno=resmin) and (chain=iChain)}) var chain2 = "" var schar = "S" if (lcAtoms.size > 0) { chain2 = lcAtoms[1].chain if (((rchar == "R") and (lcAtoms[1].group.size > 1)) or ((rchar == "") and (lcAtoms[1].group.size == 1))) { schar = "M" } else { schar = "" } } var ls = format("%s%s:%s", iChain, chain2, format("%s%s", rchar, schar)) for (var i = {chain=iChain}.resno.min; i <= {chain=iChain}.resno.max; i++) { ls += ({(resno=i) and (chain=iChain)}.group[0])[0] } print ls } # Top level of Remap function plico_remap_nt() { # 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 NT_____|ALT-CLICK=select NT chain|DOUBLE-CLICK=exit" echo @gEcho gChain = "" unbind set picking ON bind "ALT-LEFT-CLICK" "_pickAtom"; bind "ALT-LEFT-CLICK" "+:remap_nt_cargo_mb"; bind "DOUBLE" "remap_nt_exit"; } # Bound to DOUBLE by plicoRemap function remap_nt_exit() { unbind halo off echo select all color {selected} @gScheme gBusy = FALSE set appendNew gAppendNew # Pop selected select gSelSaves } # End of REMAPNT.SPT