Enabling DOCK Developer Scripts incl Database Preparation Intel/Linux inactives we got past inactivesDB.ism actives we got past actives.ism node-5-37.c.bkslab.org du2 starts 1 molecule processed, 0 errors first try already in then inzinc count is 0 bzcat: Can't open input file 12: No such file or directory. bzcat: Can't open input file 78: No such file or directory. convert.py (Tripos MOL2 -> MDL SDF): mols in: 1 mols out: 1 Total: 1 mols processed. count is 0 nothing to compress bzcat: Can't open input file 12: No such file or directory. bzcat: Can't open input file 78: No such file or directory. nothing to compress du2.csh script updated ligand processing MakeDOCK 2.0, modified by J.Irwin and M.Mysinger. Previous versions by D.M.Lorber, B.Q.Wei, A.N.Kirschner, and N.Huang Using scripts in /raid5/people/mysinger/xyz/dockenv. Creating binding-site residue list Creating molecular surface real 0m1.655s user 0m0.260s sys 0m0.150s Creating sphgen spheres Enter name of sphere cluster file: Enter cluster number to process (<0 = all): Generate surfaces as well as pdb files (/Y)? Enter name for output PDB file name: Cluster 0: 575 spheres. 1. 1. 1. 1. 1. 1. 1. 1. 4. 4. 4. 4. 4. 7. 7. 14. 14. 14. 170. 170. 170. 170. 170. 170. 170. 170. 170. 170. 170. 170. 171. 172. 172. 172. 173. 173. 173. 173. 176. 176. 176. 176. 176. 176. 185. 185. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 187. 286. 286. 288. 288. 290. 290. 290. 290. 290. 290. 290. 290. 290. 290. 290. 290. 290. 291. 291. 600. 600. 600. 600. 600. 600. 600. 600. 600. 600. 600. 600. 600. 600. 600. 600. 600. 603. 603. 603. 603. 603. 603. 603. 621. 621. 625. 625. 840. 840. 846. 846. 846. 846. 846. 846. 846. 846. 846. 846. 846. 846. 846. 846. 846. 846. 846. 846. 846. 846. 868. 868. 868. 868. 868. 868. 868. 868. 868. 868. 868. 868. 868. 868. 868. 868. 868. 868. 876. 876. 876. 876. 885. 890. 890. 890. 890. 890. 892. 892. 892. 892. 892. 895. 895. 895. 895. 895. 895. 896. 896. 896. 896. 896. 896. 896. 896. 897. 897. 897. 897. 898. 898. 898. 898. 898. 898. 898. 898. 898. 898. 898. 898. 898. 898. 898. 924. 924. 924. 924. 924. 924. 924. 924. 924. 924. 924. 924. 924. 924. 924. 924. 927. 929. 929. 929. 929. 931. 931. 931. 931. 931. 931. 932. 932. 932. 932. 933. 933. 933. 933. 986.1082.1082.1156.1156.1156.1156.1156.1168.1168.1168.1168.1168.1168.1205.1205.1205.1205.1205.1205.1205.1218.1218.1222.1222.1227.1227.1227.1228.1228.1228.1228.1230.1230.1230.1232.1232.1232.1232.1232.1232.1232.1233.1233.1233.1233.1233.1233.1233.1233.1233.1233.1233.1233.1233.1234.1234.1236.1238.1238.1238.1238.1238.1238.1238.1241.1241.1241.1241.1242.1242.1242.1242.1242.1242.1242.1242.1242.1242.1242.1242.1242.1242.1242.1242.1242.1242.1242.1243.1244.1244.1244.1244.1244.1245.1245.1245.1245.1245.1245.1245.1245.1246.1246.1247.1247.1247.1247.1247.1247.1247.1247.1247.1247.1249.1249.1249.1249.1249.1249.1249.1249.1249.1249.1251.1262.1263.1263.1263.1263.1263.1263.1263.1263.1263.1263.1263.1263.1263.1263.1263.1263.1263.1263.1263.1263.1267.1267.1267.1267.1267.1267.1267.1267.1267.1267.1267.1270.1270.1270.1270.1344.1344.1344.1344.1344.1344.1344.1344.1344.1344.1344.1344.1344.1344.1344.1344.1344.1344.1344.1344.1344.1344.1344.1344.1352.1352.1352.1352.1352.1352.1352.1352.1352.1352.1357.1357.1357.1358.1359.1359.1359.1361.1361.1361.1361.1361.1361.1361.1361.1361.1361.1362.1362.1362.1362.1362.1362.1362.1362.1362.1362.1362.1362.1362.1364.1364.1364.1369.1369.1369.1370.1370.1372.1372.1372.1372.1372.1372.1372.1373.1374.1374.1374.1374.1375.1375.1376.1376.1376.1376.1377.1377.1377.1382.1382.1382.1383.1383.1383.1383.1383.1383.1383.1384.1385.1385.1385.1385.1385.1385.1385.1385.1385.1386.1387.1393.1393.1395.1395.1395.1395.1395.1395.1397.1427.1428.1428.1430.1430.1432.1432.1432.1432.1432.1432.1432.1432.1433.1433.1433.1435.1435.1435.1435.1435.1435.1435.1435.1435.1435.1435.1435.1435.1435.1435.1442.1442.1448.1463.1465.1465.1465.1465.1469.1470.1470.1470.1470.1470.1470.FORTRAN STOP Converting ligand atoms to spheres Enter name of sphere cluster file: Enter cluster number to process (<0 = all): Generate surfaces as well as pdb files (/Y)? Enter name for output PDB file name: Cluster 1: 14 spheres. 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14.FORTRAN STOP Adding essential hydrogens to receptor Generating matching spheres for delphi Enter name of sphere cluster file: Enter cluster number to process (<0 = all): Generate surfaces as well as pdb files (/Y)? Enter name for output PDB file name: Cluster 1: 74 spheres. 9001.9002.9003.9004.9005.9006.9007.9008.9009.9010.9011.9012.9013.9014.9015.9016.9017.9018.9019.9020.9021.9022.9023.9024.9025.9026.9027.9028.9029.9030.9031.9032.9033.9034.9035.9036.9037.9038.9039.9040.9041.9042.9043.9044.9045.9046.9047.9048.9049.9050.9051.9052.9053.9054.9055.9056.9057.9058.9059.9060.9061.9062.9063.9064.9065.9066.9067.9068.9069.9070.9071.9072.9073.9074.FORTRAN STOP Generating faster matching2 spheres for docking Enter name of sphere cluster file: Enter cluster number to process (<0 = all): Generate surfaces as well as pdb files (/Y)? Enter name for output PDB file name: Cluster 1: 45 spheres. 9001.9002.9003.9004.9005.9006.9007.9008.9009.9010.9011.9012.9013.9014.9015.9016.9017.9018.9019.9020.9021.9022.9023.9024.9025.9026.9027.9028.9029.9030.9031.9032.9033.9034.9035.9036.9037.9038.9039.9040.9041.9042.9043.9044.9045.FORTRAN STOP Coloring matching spheres Generating slower matching3 spheres for docking Enter name of sphere cluster file: Enter cluster number to process (<0 = all): Generate surfaces as well as pdb files (/Y)? Enter name for output PDB file name: Cluster 1: 60 spheres. 9001.9002.9003.9004.9005.9006.9007.9008.9009.9010.9011.9012.9013.9014.9015.9016.9017.9018.9019.9020.9021.9022.9023.9024.9025.9026.9027.9028.9029.9030.9031.9032.9033.9034.9035.9036.9037.9038.9039.9040.9041.9042.9043.9044.9045.9046.9047.9048.9049.9050.9051.9052.9053.9054.9055.9056.9057.9058.9059.9060.FORTRAN STOP Coloring matching spheres Adding spheres to electrostatic grid Creating DelPhi electrostatic grid real 0m33.620s user 0m31.419s sys 0m1.033s Adding spheres to tarted electrostatic grid we had to cook * HOG* we had to cook * HN * we had to cook * NE2* we had to cook *HNE2* we had to cook *HNE1* Creating DelPhi electrostatic grid real 0m33.768s user 0m31.365s sys 0m1.037s Creating box around spheres Creating chemgrid maps real 0m22.864s user 0m21.818s sys 0m0.331s Atomic solvent excluded volume calculations underway FORTRAN STOP real 30m31.311s user 30m30.490s sys 0m0.312s Checking for WARNINGS in OUTPARM. Checking for WARNINGS in delphi.log. End of MakeDOCK sphere and grid generation. Grid preparation completed normally. going into second inactives test after second inactives finished ssh_askpass: exec(/usr/libexec/openssh/ssh-askpass): No such file or directory ssh_askpass: exec(/usr/libexec/openssh/ssh-askpass): No such file or directory Permission denied, please try again. ssh_askpass: exec(/usr/libexec/openssh/ssh-askpass): No such file or directory Permission denied, please try again. ssh_askpass: exec(/usr/libexec/openssh/ssh-askpass): No such file or directory Permission denied (publickey,gssapi-with-mic,password). FILTER PROGRAM THIS PROGRAM FILTERS ATOMIC COORDINATE FILES BASED ON DISTANCE AND SEQUENCE CRITERIA name of file to filter by - xtal-lig.pdb filter by atom names or numbers in receptor(na/nu)? residue/ligand orientation number increment filter? -100000 Filter for MS run?(Y/N) N Either names or numbers of the atoms to filter by, as they appear in the pdb, with boolean and/or operators if such apply between them. Maximum of one boolean per two filter atoms. name of ligand file- rec.pdb names of ligand atoms to match against receptor filters. Include boolean and/ors between EACH atom specified. LIGAND ATOM 1ISALL internal filtering? Y distance cutoffs for each of the receptor atoms specified- 25.00000 output filename- poc.txt number of allowed ligand contacts in an all-filter? LIGBUM IS- 0 IR IS 22 Number of atoms in ligand - 0 IL IS 1571 NR IS- 1 INTERNAL BEGUN INTERNAL COMPLETED 22 NUMLIG IS- 22 TOTAL NUMBER OF ORIENTATIONS WRITEN IS - 0 filtering complete mf7.csh - site preparation complete, preliminary docking queued