Difference between revisions of "2023 Denovo tutorial 3 with PDBID 2P16"

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(Created page with "Introduction Denovo refinement Focused Denovo Rescoring Generic denovo =='''De Novo Design'''== As “de novo” means “from the beginning”, the de novo feature in DOCK...")
 
(Focused De Novo Rescored)
 
(15 intermediate revisions by the same user not shown)
Line 11: Line 11:
 
First the anchor has to be determined and prepared from the structure. This process can be done in Chimera. Open up the minimized structure (.mol2), and determine the anchor. Anchor can be determined in any way the user wants; in this tutorial we will keep the side of ligand closer to the active site and erase the rest.
 
First the anchor has to be determined and prepared from the structure. This process can be done in Chimera. Open up the minimized structure (.mol2), and determine the anchor. Anchor can be determined in any way the user wants; in this tutorial we will keep the side of ligand closer to the active site and erase the rest.
  
'''This tutorial is the second part of the [[2022 DOCK tutorial 2 with PDBID 4ZUD]] tutorial. You will need the files created in that tutorial to continue with this one!'''
+
 
 +
'''The crystal reference ligand is colored in pink'''
 +
[[File:2P16 minimized lig & rigid new(1).png|thumb|center|500px|Red in the anchor fragment and grey in the discarding fragment]]
 +
 
  
 
The anchor is colored in red, while the rest of the ligand which will be deleted is colored in gray. The benzene ring (in red) will be the anchor, so one atom next to it has to be replaced with a dummy atom. The dummy atom will be the starting point of de novo design.  
 
The anchor is colored in red, while the rest of the ligand which will be deleted is colored in gray. The benzene ring (in red) will be the anchor, so one atom next to it has to be replaced with a dummy atom. The dummy atom will be the starting point of de novo design.  
Line 46: Line 49:
 
  vi refinement.in
 
  vi refinement.in
  
conformer_search_type                                        denovo
+
conformer_search_type                                        denovo
dn_fraglib_scaffold_file                                    /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/fraglib_scaffold.mol2
+
dn_fraglib_scaffold_file                                    /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/fraglib_scaffold.mol2
dn_fraglib_linker_file                                      /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/fraglib_linker.mol2
+
dn_fraglib_linker_file                                      /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/fraglib_linker.mol2
dn_fraglib_sidechain_file                                    /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/fraglib_sidechain.mol2
+
dn_fraglib_sidechain_file                                    /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/fraglib_sidechain.mol2
dn_user_specified_anchor                                    yes
+
dn_user_specified_anchor                                    yes
dn_fraglib_anchor_file                                      2p16_anchor.mol2
+
dn_fraglib_anchor_file                                      2p16_anchor.mol2
dn_torenv_table                                              /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/fraglib_torenv.dat
+
dn_torenv_table                                              /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/fraglib_torenv.dat
dn_name_identifier                                          refine
+
dn_name_identifier                                          refine
dn_sampling_method                                          graph
+
dn_sampling_method                                          graph
dn_graph_max_picks                                          30
+
dn_graph_max_picks                                          30
dn_graph_breadth                                            3
+
dn_graph_breadth                                            3
dn_graph_depth                                              2
+
dn_graph_depth                                              2
dn_graph_temperature                                        100
+
dn_graph_temperature                                        100
dn_pruning_conformer_score_cutoff                            100
+
dn_pruning_conformer_score_cutoff                            100
dn_pruning_conformer_score_scaling_factor                    2
+
dn_pruning_conformer_score_scaling_factor                    2
dn_pruning_clustering_cutoff                                100
+
dn_pruning_clustering_cutoff                                100
dn_mol_wt_cutoff_type                                        soft
+
dn_mol_wt_cutoff_type                                        soft
dn_upper_constraint_mol_wt                                  1000
+
dn_upper_constraint_mol_wt                                  1000
dn_lower_constraint_mol_wt                                  0.0
+
dn_lower_constraint_mol_wt                                  0.0
dn_mol_wt_std_dev                                            35.0
+
dn_mol_wt_std_dev                                            35.0
dn_constraint_rot_bon                                        15
+
dn_constraint_rot_bon                                        15
dn_constraint_formal_charge                                  5
+
dn_constraint_formal_charge                                  5
dn_heur_unmatched_num                                        1
+
dn_heur_unmatched_num                                        1
dn_heur_matched_rmsd                                        2.0
+
dn_heur_matched_rmsd                                        2.0
dn_unique_anchors                                            1
+
dn_unique_anchors                                            1
dn_max_grow_layers                                          1
+
dn_max_grow_layers                                          1
dn_max_root_size                                            25
+
dn_max_root_size                                            25
dn_max_layer_size                                            25
+
dn_max_layer_size                                            25
dn_max_current_aps                                          5
+
dn_max_current_aps                                          5
dn_max_scaffolds_per_layer                                  1
+
dn_max_scaffolds_per_layer                                  1
dn_write_checkpoints                                        yes
+
dn_write_checkpoints                                        yes
dn_write_prune_dump                                          no
+
dn_write_prune_dump                                          no
dn_write_orients                                            no
+
dn_write_orients                                            no
dn_write_growth_trees                                        no
+
dn_write_growth_trees                                        no
dn_output_prefix                                            output
+
dn_output_prefix                                            output
use_internal_energy                                          yes
+
use_internal_energy                                          yes
internal_energy_rep_exp                                      12
+
internal_energy_rep_exp                                      12
internal_energy_cutoff                                      100.0
+
internal_energy_cutoff                                      100.0
use_database_filter                                          no
+
use_database_filter                                          no
orient_ligand                                                no
+
orient_ligand                                                no
bump_filter                                                  no
+
bump_filter                                                  no
score_molecules                                              yes
+
score_molecules                                              yes
contact_score_primary                                        no
+
contact_score_primary                                        no
grid_score_primary                                          yes
+
grid_score_primary                                          yes
grid_score_rep_rad_scale                                    1
+
grid_score_rep_rad_scale                                    1
grid_score_vdw_scale                                        1
+
grid_score_vdw_scale                                        1
grid_score_es_scale                                          1
+
grid_score_es_scale                                          1
grid_score_grid_prefix                                      /gpfs/projects/AMS536/2023/students/group_3_jack-abhik-jiyun/JIYCHONG/Tutorial_DOCK_VS/Rigid_dock/grid
+
grid_score_grid_prefix                                      /gpfs/projects/AMS536/2023/students/group_3_jack-abhik-jiyun/JIYCHONG/Tutorial_DOCK_VS/Rigid_dock/grid
minimize_ligand                                              yes
+
minimize_ligand                                              yes
minimize_anchor                                              no
+
minimize_anchor                                              no
minimize_flexible_growth                                    yes
+
minimize_flexible_growth                                    yes
use_advanced_simplex_parameters                              no
+
use_advanced_simplex_parameters                              no
simplex_max_cycles                                          1
+
simplex_max_cycles                                          1
simplex_score_converge                                      0.1
+
simplex_score_converge                                      0.1
simplex_cycle_converge                                      1.0
+
simplex_cycle_converge                                      1.0
simplex_trans_step                                          1.0
+
simplex_trans_step                                          1.0
simplex_rot_step                                            0.1
+
simplex_rot_step                                            0.1
simplex_tors_step                                            10.0
+
simplex_tors_step                                            10.0
simplex_grow_max_iterations                                  250
+
simplex_grow_max_iterations                                  250
simplex_grow_tors_premin_iterations                          0
+
simplex_grow_tors_premin_iterations                          0
simplex_random_seed                                          0
+
simplex_random_seed                                          0
simplex_restraint_min                                        yes
+
simplex_restraint_min                                        yes
simplex_coefficient_restraint                                10.0
+
simplex_coefficient_restraint                                10.0
atom_model                                                  all
+
atom_model                                                  all
vdw_defn_file                                                /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/vdw_de_novo.defn
+
vdw_defn_file                                                /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/vdw_de_novo.defn
flex_defn_file                                              /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/flex.defn
+
flex_defn_file                                              /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/flex.defn
flex_drive_file                                              /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/flex_drive.tbl
+
flex_drive_file                                              /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/flex_drive.tbl
  
 
Notice that this input file is pretty different from rigid.in or flex.in; different parameters have to be set for de novo. Additionally, a directory pathway to the DOCK fragment library has to be specified on top of vdw and flex parameter library; there are scaffold, linker, sidechain, and torsion environment library.  
 
Notice that this input file is pretty different from rigid.in or flex.in; different parameters have to be set for de novo. Additionally, a directory pathway to the DOCK fragment library has to be specified on top of vdw and flex parameter library; there are scaffold, linker, sidechain, and torsion environment library.  
Line 170: Line 173:
  
 
  dock6 -i fragment.in -o fragment.out
 
  dock6 -i fragment.in -o fragment.out
 
  
DOCK should generate '''six''' files; three of those files should be mol2's of linker, scaffold, and side chain fragments. You can extract the number of fragments present in each file by running:
+
At this point, you should be able to see:
 +
2p16_fragLib_linker.mol2
  
grep -wc MOLECULE *.mol2
+
2p16_fragLib_rigid.mol2
  
 +
2p16_fragLib_sidechain.mol2
  
[[File:4ZUD_minimized_lig_outline_&_linkers.png|thumb|center|300px|'''Fragment Linker(s)''']]
+
2p16_fragLib_torenv.dat
[[File:4ZUD_minimized_lig_outline_&_scaffold(1).png|thumb|center|300px|'''Fragment Scaffold(s)''']] 
 
[[File:4ZUD_minimized_lig_outline_&_sidechains.png|thumb|center|300px|'''Fragment Side Chain(s)''']]
 
  
 
==='''Focused De Novo Growth'''===
 
==='''Focused De Novo Growth'''===
 +
With the fragment library we generated, now we can run a focused de novo docking. This enables de novo designs with the desired molecular weight, charges, and chemical groups.
 +
 +
In an input file:
 +
 +
vi focus_denovo.in
 +
 +
Insert the following:
 +
 +
conformer_search_type                                        denovo
 +
dn_fraglib_scaffold_file                                    2p16_fragLib_scaffold.mol2
 +
dn_fraglib_linker_file                                      2p16_fragLib_linker.mol2
 +
dn_fraglib_sidechain_file                                    2p16_fragLib_sidechain.mol2
 +
dn_user_specified_anchor                                    no
 +
dn_torenv_table                                              2p16_fragLib_torenv.dat
 +
dn_name_identifier                                          denovo
 +
dn_sampling_method                                          graph
 +
dn_graph_max_picks                                          30
 +
dn_graph_breadth                                            3
 +
dn_graph_depth                                              2
 +
dn_graph_temperature                                        100.0
 +
dn_pruning_conformer_score_cutoff                            100.0
 +
dn_pruning_conformer_score_scaling_factor                    1.0
 +
dn_pruning_clustering_cutoff                                100.0
 +
dn_mol_wt_cutoff_type                                        soft
 +
dn_upper_constraint_mol_wt                                  550.0
 +
dn_lower_constraint_mol_wt                                  0.0
 +
dn_mol_wt_std_dev                                            35.0
 +
dn_constraint_rot_bon                                        15
 +
dn_constraint_formal_charge                                  2.0
 +
dn_heur_unmatched_num                                        1
 +
dn_heur_matched_rmsd                                        2.0
 +
dn_unique_anchors                                            2
 +
dn_max_grow_layers                                          9
 +
dn_max_root_size                                            25
 +
dn_max_layer_size                                            25
 +
dn_max_current_aps                                          5
 +
dn_max_scaffolds_per_layer                                  1
 +
dn_write_checkpoints                                        yes
 +
dn_write_prune_dump                                          no
 +
dn_write_orients                                            no
 +
dn_write_growth_trees                                        yes
 +
dn_output_prefix                                            2p16_focused
 +
use_internal_energy                                          yes
 +
internal_energy_rep_exp                                      12
 +
internal_energy_cutoff                                      100.0
 +
use_database_filter                                          no
 +
orient_ligand                                                yes
 +
automated_matching                                          yes
 +
receptor_site_file                                          selected_spheres.sph
 +
max_orientations                                            1000
 +
critical_points                                              no
 +
chemical_matching                                            no
 +
use_ligand_spheres                                          no
 +
bump_filter                                                  no
 +
score_molecules                                              yes
 +
contact_score_primary                                        no
 +
grid_score_primary                                          yes
 +
grid_score_rep_rad_scale                                    1
 +
grid_score_vdw_scale                                        1
 +
grid_score_es_scale                                          1
 +
grid_score_grid_prefix                                      grid
 +
minimize_ligand                                              yes
 +
minimize_anchor                                              yes
 +
minimize_flexible_growth                                    yes
 +
use_advanced_simplex_parameters                              no
 +
simplex_max_cycles                                          1
 +
simplex_score_converge                                      0.1
 +
simplex_cycle_converge                                      1.0
 +
simplex_trans_step                                          1.0
 +
simplex_rot_step                                            0.1
 +
simplex_tors_step                                            10.0
 +
simplex_anchor_max_iterations                                500
 +
simplex_grow_max_iterations                                  500
 +
simplex_grow_tors_premin_iterations                          0
 +
simplex_random_seed                                          0
 +
simplex_restraint_min                                        no
 +
atom_model                                                  all
 +
vdw_defn_file                                                /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/vdw_de_novo.defn
 +
flex_defn_file                                              /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/flex.defn
 +
flex_drive_file                                              /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/flex_drive.tbl
 +
 +
Run this calculation with the following command:
 +
 +
dock6 -i focus_denovo.in -o focus_denovo.out
  
 +
Now you should be able to see 2p16_focused_build.mol2.
 +
 +
This file contains the molecules that were built from the generated fragment library.
  
 
==='''Focused De Novo Rescored'''===
 
==='''Focused De Novo Rescored'''===
 +
Now that we have many compounds generated from the focused de novo docking, we can further narrow down the list of compounds by extracting compounds with even higher similarity with the protein interactions and general composition of the structure.
 +
 +
In a new input file:
 +
 +
vi rescore.in
 +
 +
Insert the following:
 +
 +
conformer_search_type                                        rigid
 +
use_internal_energy                                          yes
 +
internal_energy_rep_exp                                      12
 +
internal_energy_cutoff                                      100.0
 +
ligand_atom_file                                            2p16_focused.denovo_build.mol2
 +
limit_max_ligands                                            no
 +
skip_molecule                                                no
 +
read_mol_solvation                                          no
 +
calculate_rmsd                                              no
 +
use_database_filter                                          no
 +
orient_ligand                                                no
 +
bump_filter                                                  no
 +
score_molecules                                              yes
 +
contact_score_primary                                        no
 +
grid_score_primary                                          no
 +
multigrid_score_primary                                      no
 +
dock3.5_score_primary                                        no
 +
continuous_score_primary                                    no
 +
footprint_similarity_score_primary                          no
 +
pharmacophore_score_primary                                  no
 +
hbond_score_primary                                          no
 +
internal_energy_score_primary                                no
 +
descriptor_score_primary                                    yes
 +
descriptor_use_grid_score                                    no
 +
descriptor_use_multigrid_score                              no
 +
descriptor_use_continuous_score                              no
 +
descriptor_use_footprint_similarity                          yes
 +
descriptor_use_pharmacophore_score                          yes
 +
descriptor_use_tanimoto                                      yes
 +
descriptor_use_hungarian                                    yes
 +
descriptor_use_volume_overlap                                yes
 +
descriptor_fps_score_use_footprint_reference_mol2            yes
 +
descriptor_fps_score_footprint_reference_mol2_filename      2p16.ligand.min_scored.mol2
 +
descriptor_fps_score_foot_compare_type                      Euclidean
 +
descriptor_fps_score_normalize_foot                          no
 +
descriptor_fps_score_foot_comp_all_residue                  yes
 +
descriptor_fps_score_receptor_filename                      2p16_H_charge.mol2
 +
descriptor_fps_score_vdw_att_exp                            6
 +
descriptor_fps_score_vdw_rep_exp                            12
 +
descriptor_fps_score_vdw_rep_rad_scale                      1
 +
descriptor_fps_score_use_distance_dependent_dielectric      yes
 +
descriptor_fps_score_dielectric                              4.0
 +
descriptor_fps_score_vdw_fp_scale                            1
 +
descriptor_fps_score_es_fp_scale                            1
 +
descriptor_fps_score_hb_fp_scale                            0
 +
descriptor_fms_score_use_ref_mol2                            yes
 +
descriptor_fms_score_ref_mol2_filename                      2p16.ligand.min_scored.mol2
 +
descriptor_fms_score_write_reference_pharmacophore_mol2      no
 +
descriptor_fms_score_write_reference_pharmacophore_txt      no
 +
descriptor_fms_score_write_candidate_pharmacophore          no
 +
descriptor_fms_score_write_matched_pharmacophore            no
 +
descriptor_fms_score_compare_type                            overlap
 +
descriptor_fms_score_full_match                              yes
 +
descriptor_fms_score_match_rate_weight                      5.0
 +
descriptor_fms_score_match_dist_cutoff                      1.0
 +
descriptor_fms_score_match_proj_cutoff                      0.7071
 +
descriptor_fms_score_max_score                              20
 +
descriptor_fingerprint_ref_filename                          2p16.ligand.min_scored.mol2
 +
descriptor_hms_score_ref_filename                            2p16.ligand.min_scored.mol2
 +
descriptor_hms_score_matching_coeff                          -5
 +
descriptor_hms_score_rmsd_coeff                              1
 +
descriptor_volume_score_reference_mol2_filename              2p16.ligand.min_scored.mol2
 +
descriptor_volume_score_overlap_compute_method              analytical
 +
descriptor_weight_fps_score                                  1
 +
descriptor_weight_pharmacophore_score                        1
 +
descriptor_weight_fingerprint_tanimoto                      -1
 +
descriptor_weight_hms_score                                  1
 +
descriptor_weight_volume_overlap_score                      -1
 +
minimize_ligand                                              no
 +
atom_model                                                  all
 +
vdw_defn_file                                                /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/vdw_de_novo.defn
 +
flex_defn_file                                              /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/flex.defn
 +
flex_drive_file                                              /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/flex_drive.tbl
 +
chem_defn_file                                              /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/chem.defn
 +
pharmacophore_defn_file                                      /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/ph4.defn
 +
ligand_outfile_prefix                                        2p16_focusrescore
 +
write_footprints                                            yes
 +
write_hbonds                                                yes
 +
write_orientations                                          no
 +
num_scored_conformers                                        1
 +
rank_ligands                                                no
 +
 +
Run the command using:
 +
 +
dock6 -i rescore.in -o rescore.out
 +
 +
Now, let’s check 2p16_focusrescore_scored.mol2 file. This file contains the compounds that satisfies the filters that were set in the input file.
 +
 +
'''Focused_rescoring molecules'''
 +
[[File:2p16resocre.png|thumb|center|500px|]]
 +
You can visualize those molecules on Chimera.

Latest revision as of 13:55, 27 March 2023

Introduction Denovo refinement Focused Denovo Rescoring Generic denovo

De Novo Design

As “de novo” means “from the beginning”, the de novo feature in DOCK enables designing of completely new ligands by adding new parts of a ligand for as many layers as the user wants. SAR (structure-activity relationship) study is one approach to find the relationship between the biological activity/binding affinity and the chemicals structure/characteristics of the ligand. De novo takes a similar approach; as DOCK grows different substituents and parts from the anchoring part of the ligand, it calculates the binding score, leading up to the best “combination” of the layers. This feature is especially useful when there is a known part of an existing ligand and a user wants to keep it, while wanting to explore new structures.

In this de novo tutorial we will be using the minimized ligand of 2P16, which was initially generated in the very first virtual screening tutorial. First the anchor has to be determined and prepared from the structure. This process can be done in Chimera. Open up the minimized structure (.mol2), and determine the anchor. Anchor can be determined in any way the user wants; in this tutorial we will keep the side of ligand closer to the active site and erase the rest.


The crystal reference ligand is colored in pink

Red in the anchor fragment and grey in the discarding fragment


The anchor is colored in red, while the rest of the ligand which will be deleted is colored in gray. The benzene ring (in red) will be the anchor, so one atom next to it has to be replaced with a dummy atom. The dummy atom will be the starting point of de novo design. Addition of a dummy atom can be done by editing the .mol2 file. Once you identify the atom number to replace with a dummy atom, replace the atom name with “Du”

      1 C1         11.0445   45.4865   65.6128 C.ar      1 GG2    0.1391
     2 C2         10.6303   46.5851   64.7323 C.ar      1 GG2   -0.1780
     3 C3          9.2337   46.6594   64.2794 C.ar      1 GG2   -0.0635
     4 O4         12.3967   45.4783   65.9732 O.3       1 GG2   -0.3229
     5 C15        13.0206   44.4346   66.7210 C.3       1 GG2    0.1117
     6 C4          8.2744   45.6305   64.7236 C.ar      1 GG2   -0.0422
     7 C5          8.6936   44.5414   65.6145 C.ar      1 GG2   -0.0635
     8 C6         10.0812   44.4663   66.0615 C.ar      1 GG2   -0.1780
     9 Du1         6.9282   45.6680   64.2934 Du        1 GG2    0.2373
    10 H2         11.3451   47.3321   64.4199 H         1 GG2    0.1515
    11 H3          8.9132   47.4592   63.6282 H         1 GG2    0.1560
    12 H5          7.9787   43.7993   65.9378 H         1 GG2    0.1560
    13 H6         10.3993   43.6686   66.7163 H         1 GG2    0.1515
    14 H151       14.0795   44.6602   66.8470 H         1 GG2    0.0480
    15 H152       12.5470   44.3560   67.6996 H         1 GG2    0.0480
    16 H153       12.9114   43.4902   66.1876 H         1 GG2    0.0480

In this tutorial, we will be replacing atom number 9. The xyz coordinate and charge of the atom does not need to be changed.

Once you make a change, save and visualize it on Chimera. The dummy atom should be colored in pink.

Anchor with a dummy atom”


Now you have the anchor, so transfer the mol2 file from your local computer to seawulf using scp.

First, just like other docking method, an input file needs to be created.

vi refinement.in
conformer_search_type                                        denovo
dn_fraglib_scaffold_file                                     /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/fraglib_scaffold.mol2
dn_fraglib_linker_file                                       /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/fraglib_linker.mol2
dn_fraglib_sidechain_file                                    /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/fraglib_sidechain.mol2
dn_user_specified_anchor                                     yes
dn_fraglib_anchor_file                                       2p16_anchor.mol2
dn_torenv_table                                              /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/fraglib_torenv.dat
dn_name_identifier                                           refine
dn_sampling_method                                           graph
dn_graph_max_picks                                           30
dn_graph_breadth                                             3
dn_graph_depth                                               2
dn_graph_temperature                                         100
dn_pruning_conformer_score_cutoff                            100
dn_pruning_conformer_score_scaling_factor                    2
dn_pruning_clustering_cutoff                                 100
dn_mol_wt_cutoff_type                                        soft
dn_upper_constraint_mol_wt                                   1000
dn_lower_constraint_mol_wt                                   0.0
dn_mol_wt_std_dev                                            35.0
dn_constraint_rot_bon                                        15
dn_constraint_formal_charge                                  5
dn_heur_unmatched_num                                        1
dn_heur_matched_rmsd                                         2.0
dn_unique_anchors                                            1
dn_max_grow_layers                                           1
dn_max_root_size                                             25
dn_max_layer_size                                            25
dn_max_current_aps                                           5
dn_max_scaffolds_per_layer                                   1
dn_write_checkpoints                                         yes
dn_write_prune_dump                                          no
dn_write_orients                                             no
dn_write_growth_trees                                        no
dn_output_prefix                                             output
use_internal_energy                                          yes
internal_energy_rep_exp                                      12
internal_energy_cutoff                                       100.0
use_database_filter                                          no
orient_ligand                                                no
bump_filter                                                  no
score_molecules                                              yes
contact_score_primary                                        no
grid_score_primary                                           yes
grid_score_rep_rad_scale                                     1
grid_score_vdw_scale                                         1
grid_score_es_scale                                          1
grid_score_grid_prefix                                       /gpfs/projects/AMS536/2023/students/group_3_jack-abhik-jiyun/JIYCHONG/Tutorial_DOCK_VS/Rigid_dock/grid
minimize_ligand                                              yes
minimize_anchor                                              no
minimize_flexible_growth                                     yes
use_advanced_simplex_parameters                              no
simplex_max_cycles                                           1
simplex_score_converge                                       0.1
simplex_cycle_converge                                       1.0
simplex_trans_step                                           1.0
simplex_rot_step                                             0.1
simplex_tors_step                                            10.0
simplex_grow_max_iterations                                  250
simplex_grow_tors_premin_iterations                          0
simplex_random_seed                                          0
simplex_restraint_min                                        yes
simplex_coefficient_restraint                                10.0
atom_model                                                   all
vdw_defn_file                                                /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/vdw_de_novo.defn
flex_defn_file                                               /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/flex.defn
flex_drive_file                                              /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/flex_drive.tbl

Notice that this input file is pretty different from rigid.in or flex.in; different parameters have to be set for de novo. Additionally, a directory pathway to the DOCK fragment library has to be specified on top of vdw and flex parameter library; there are scaffold, linker, sidechain, and torsion environment library.

Once you made refinement.in file, it can be processed in DOCK.

dock6 -i refinement.in -o refinement.out


Make a new directory to organize the files generated in this tutorial:

mkdir 005.denovo

Fragment Library Generation

In an input file:

vim fragment.in

Insert the following:

conformer_search_type                                        flex
write_fragment_libraries                                     yes
fragment_library_prefix                                      fraglib
fragment_library_freq_cutoff                                 1
fragment_library_sort_method                                 freq
fragment_library_trans_origin                                no
use_internal_energy                                          yes
internal_energy_rep_exp                                      12
internal_energy_cutoff                                       100.0
ligand_atom_file                                             ../001.structure/4ZUD_ligand_hydrogens.mol2
limit_max_ligands                                            no
skip_molecule                                                no
read_mol_solvation                                           no
calculate_rmsd                                               no
use_database_filter                                          no
orient_ligand                                                yes
automated_matching                                           yes
receptor_site_file                                           ../002.surface_spheres/selected_spheres.sph
max_orientations                                             1000
critical_points                                              no
chemical_matching                                            no
use_ligand_spheres                                           no
bump_filter                                                  no
score_molecules                                              no
atom_model                                                   all
vdw_defn_file                                                /gpfs/projects/AMS536/zzz.programs/dock6.9_release/parameters/vdw_AMBER_parm99.defn
flex_defn_file                                               /gpfs/projects/AMS536/zzz.programs/dock6.9_release/parameters/flex.defn
flex_drive_file                                              /gpfs/projects/AMS536/zzz.programs/dock6.9_release/parameters/flex_drive.tbl
ligand_outfile_prefix                                        fragment.out
write_orientations                                           no
num_scored_conformers                                        1
rank_ligands                                                 no

Run the fragment generation with the following command:

dock6 -i fragment.in -o fragment.out

At this point, you should be able to see: 2p16_fragLib_linker.mol2

2p16_fragLib_rigid.mol2

2p16_fragLib_sidechain.mol2

2p16_fragLib_torenv.dat

Focused De Novo Growth

With the fragment library we generated, now we can run a focused de novo docking. This enables de novo designs with the desired molecular weight, charges, and chemical groups.

In an input file:

vi focus_denovo.in

Insert the following:

conformer_search_type                                        denovo
dn_fraglib_scaffold_file                                     2p16_fragLib_scaffold.mol2
dn_fraglib_linker_file                                       2p16_fragLib_linker.mol2
dn_fraglib_sidechain_file                                    2p16_fragLib_sidechain.mol2
dn_user_specified_anchor                                     no
dn_torenv_table                                              2p16_fragLib_torenv.dat
dn_name_identifier                                           denovo
dn_sampling_method                                           graph
dn_graph_max_picks                                           30
dn_graph_breadth                                             3
dn_graph_depth                                               2
dn_graph_temperature                                         100.0
dn_pruning_conformer_score_cutoff                            100.0
dn_pruning_conformer_score_scaling_factor                    1.0
dn_pruning_clustering_cutoff                                 100.0
dn_mol_wt_cutoff_type                                        soft
dn_upper_constraint_mol_wt                                   550.0
dn_lower_constraint_mol_wt                                   0.0
dn_mol_wt_std_dev                                            35.0
dn_constraint_rot_bon                                        15
dn_constraint_formal_charge                                  2.0
dn_heur_unmatched_num                                        1
dn_heur_matched_rmsd                                         2.0
dn_unique_anchors                                            2
dn_max_grow_layers                                           9
dn_max_root_size                                             25
dn_max_layer_size                                            25
dn_max_current_aps                                           5
dn_max_scaffolds_per_layer                                   1
dn_write_checkpoints                                         yes
dn_write_prune_dump                                          no
dn_write_orients                                             no
dn_write_growth_trees                                        yes
dn_output_prefix                                             2p16_focused
use_internal_energy                                          yes
internal_energy_rep_exp                                      12
internal_energy_cutoff                                       100.0
use_database_filter                                          no
orient_ligand                                                yes
automated_matching                                           yes
receptor_site_file                                           selected_spheres.sph
max_orientations                                             1000
critical_points                                              no
chemical_matching                                            no
use_ligand_spheres                                           no
bump_filter                                                  no
score_molecules                                              yes
contact_score_primary                                        no
grid_score_primary                                           yes
grid_score_rep_rad_scale                                     1
grid_score_vdw_scale                                         1
grid_score_es_scale                                          1
grid_score_grid_prefix                                       grid
minimize_ligand                                              yes
minimize_anchor                                              yes
minimize_flexible_growth                                     yes
use_advanced_simplex_parameters                              no
simplex_max_cycles                                           1
simplex_score_converge                                       0.1
simplex_cycle_converge                                       1.0
simplex_trans_step                                           1.0
simplex_rot_step                                             0.1
simplex_tors_step                                            10.0
simplex_anchor_max_iterations                                500
simplex_grow_max_iterations                                  500
simplex_grow_tors_premin_iterations                          0
simplex_random_seed                                          0
simplex_restraint_min                                        no
atom_model                                                   all
vdw_defn_file                                                /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/vdw_de_novo.defn
flex_defn_file                                               /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/flex.defn
flex_drive_file                                              /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/flex_drive.tbl

Run this calculation with the following command:

dock6 -i focus_denovo.in -o focus_denovo.out

Now you should be able to see 2p16_focused_build.mol2.

This file contains the molecules that were built from the generated fragment library.

Focused De Novo Rescored

Now that we have many compounds generated from the focused de novo docking, we can further narrow down the list of compounds by extracting compounds with even higher similarity with the protein interactions and general composition of the structure.

In a new input file:

vi rescore.in

Insert the following:

conformer_search_type                                        rigid
use_internal_energy                                          yes
internal_energy_rep_exp                                      12
internal_energy_cutoff                                       100.0
ligand_atom_file                                             2p16_focused.denovo_build.mol2
limit_max_ligands                                            no
skip_molecule                                                no
read_mol_solvation                                           no
calculate_rmsd                                               no
use_database_filter                                          no
orient_ligand                                                no
bump_filter                                                  no
score_molecules                                              yes
contact_score_primary                                        no
grid_score_primary                                           no
multigrid_score_primary                                      no
dock3.5_score_primary                                        no
continuous_score_primary                                     no
footprint_similarity_score_primary                           no
pharmacophore_score_primary                                  no
hbond_score_primary                                          no
internal_energy_score_primary                                no
descriptor_score_primary                                     yes
descriptor_use_grid_score                                    no
descriptor_use_multigrid_score                               no
descriptor_use_continuous_score                              no
descriptor_use_footprint_similarity                          yes
descriptor_use_pharmacophore_score                           yes
descriptor_use_tanimoto                                      yes
descriptor_use_hungarian                                     yes
descriptor_use_volume_overlap                                yes
descriptor_fps_score_use_footprint_reference_mol2            yes
descriptor_fps_score_footprint_reference_mol2_filename       2p16.ligand.min_scored.mol2
descriptor_fps_score_foot_compare_type                       Euclidean
descriptor_fps_score_normalize_foot                          no
descriptor_fps_score_foot_comp_all_residue                   yes
descriptor_fps_score_receptor_filename                       2p16_H_charge.mol2
descriptor_fps_score_vdw_att_exp                             6
descriptor_fps_score_vdw_rep_exp                             12
descriptor_fps_score_vdw_rep_rad_scale                       1
descriptor_fps_score_use_distance_dependent_dielectric       yes
descriptor_fps_score_dielectric                              4.0
descriptor_fps_score_vdw_fp_scale                            1
descriptor_fps_score_es_fp_scale                             1
descriptor_fps_score_hb_fp_scale                             0
descriptor_fms_score_use_ref_mol2                            yes
descriptor_fms_score_ref_mol2_filename                       2p16.ligand.min_scored.mol2
descriptor_fms_score_write_reference_pharmacophore_mol2      no
descriptor_fms_score_write_reference_pharmacophore_txt       no
descriptor_fms_score_write_candidate_pharmacophore           no
descriptor_fms_score_write_matched_pharmacophore             no
descriptor_fms_score_compare_type                            overlap
descriptor_fms_score_full_match                              yes
descriptor_fms_score_match_rate_weight                       5.0
descriptor_fms_score_match_dist_cutoff                       1.0
descriptor_fms_score_match_proj_cutoff                       0.7071
descriptor_fms_score_max_score                               20
descriptor_fingerprint_ref_filename                          2p16.ligand.min_scored.mol2
descriptor_hms_score_ref_filename                            2p16.ligand.min_scored.mol2
descriptor_hms_score_matching_coeff                          -5
descriptor_hms_score_rmsd_coeff                              1
descriptor_volume_score_reference_mol2_filename              2p16.ligand.min_scored.mol2
descriptor_volume_score_overlap_compute_method               analytical
descriptor_weight_fps_score                                  1
descriptor_weight_pharmacophore_score                        1
descriptor_weight_fingerprint_tanimoto                       -1
descriptor_weight_hms_score                                  1
descriptor_weight_volume_overlap_score                       -1
minimize_ligand                                              no
atom_model                                                   all
vdw_defn_file                                                /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/vdw_de_novo.defn
flex_defn_file                                               /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/flex.defn
flex_drive_file                                              /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/flex_drive.tbl
chem_defn_file                                               /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/chem.defn
pharmacophore_defn_file                                      /gpfs/projects/AMS536/zzz.programs/dock6.10/parameters/ph4.defn
ligand_outfile_prefix                                        2p16_focusrescore
write_footprints                                             yes
write_hbonds                                                 yes
write_orientations                                           no
num_scored_conformers                                        1
rank_ligands                                                 no

Run the command using:

dock6 -i rescore.in -o rescore.out

Now, let’s check 2p16_focusrescore_scored.mol2 file. This file contains the compounds that satisfies the filters that were set in the input file.

Focused_rescoring molecules

2p16resocre.png

You can visualize those molecules on Chimera.