Difference between revisions of "DOCK DN Development Goals"

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(Current Coding Progress:)
(Current Coding Progress:)
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Not working on these right now:
 
Not working on these right now:
# Lauren: Check MGS+(-50)TAN before and after fingerprinting fix for 663 systems Lauren: Adjacency matrix vs tors env focused
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# Lauren: Check MGS+(-50)TAN before and after fingerprinting fix for 663 systems  
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# Lauren: Adjacency matrix vs tors env focused
 
# Lauren: Addition of "3mer" combination fragment check (post tors check)
 
# Lauren: Addition of "3mer" combination fragment check (post tors check)
 
# Lauren: Implement Adjacency Matrix into fraglib/dn (initialize matrix and utilize matrix for graph and random fragment picking)
 
# Lauren: Implement Adjacency Matrix into fraglib/dn (initialize matrix and utilize matrix for graph and random fragment picking)

Revision as of 09:29, 13 May 2019

This is the Rizzo lab wiki page for coordinating bugs and progress on the de novo project.

Valgrind clean version of the code on cluster that Rizzo lab should be using:

Lauren:

/gpfs/projects/rizzo/zzz.programs/dock6.9_release
This version includes all changes of the merge.

Path to Generic Fragment Library:

/gpfs/projects/rizzo/leprentis/gen-frags-12

Path to Frequency Anchors:

/gpfs/projects/rizzo/leprentis/zinc1_ancs_freq


Current Coding Progress:

Working on these currently:

  1. John: acceptance based on freq of torsenv
  2. John: Implement Roulette fragment picking into graph and random as an option
  3. Lauren: add dn name with date and counter function


Need to be fixed:

  1. score_molecules and internal_energy problem (for simple_build)
  2. HMS needs to fixed when no heavy atoms matching


Not working on these right now:

  1. Lauren: Check MGS+(-50)TAN before and after fingerprinting fix for 663 systems
  2. Lauren: Adjacency matrix vs tors env focused
  3. Lauren: Addition of "3mer" combination fragment check (post tors check)
  4. Lauren: Implement Adjacency Matrix into fraglib/dn (initialize matrix and utilize matrix for graph and random fragment picking)
  5. Lauren: Min and Max formal charge to replace absolute value of charge.(Broke everything) Step down as layers of growth proceed (layers 1-3 FC = 4, Layers 4-5 FC = 3, Layers 6-8 FC = 2)
  6. Lauren: Capping groups for post growth process (halogens and methyls)
  7. Lauren: Fix Frag_String output into chimera for Refinement situations (current space can remove the spaces in the mol2 file - temp fix)
  8. Stephen: Change scaling factor to a function of decay (currently a straight line to lowest score cutoff)
  9. Lauren&John: SMILEs and ZINC script (for dn and ga)
  10. Lauren: incorporate tan pruning as final step (post growth) as user option (replace make_unique script) as database filter not dn


Completed:

  1. Lauren: determine if random seed is reset for each aps
  2. Lauren: Create testset for each dn function
  3. Lauren: Test simple build function with merged de novo
  4. Lauren&Stephen: clean make_unique script for release
  5. Lauren: merge GA into dock/dn
  6. Dwight & Lauren: MPI wrapper for 192 processors (8 nodes) for testsets on rizzo cluster
  7. Lauren: Create short testsets for denovo frag gen, focused fragment generic for DOCK6.9 release
  8. Dwight+Lauren: merge parameter files of de novo with DOCK
  9. Lauren: add dn_defn file for separate defn with Hydrogens
  10. Lauren: Implement csingleton fix for orienting fragments with less than 3 heavy atoms
  11. Lauren: Test bfochtman fix for rotatable bonds within an user defined anchor
  12. Lauren: Test csingleton fix for orienting fragments with Du
  13. Lauren: Test MGS focused fragment library results with dn paper
  14. Stephen: editting script to calculate SMILE string of de novo molecules in OpenBabel
  15. Steve: smooth function cutoff for mw
  16. Lauren&John: Rework VS protocol to integrate de novo protocol more smoothly


List of features that we definitely want for the 6.9 release:

Task Owner Complete?
When minimizing with descriptor score, make sure fingerprint is turned off xxx
Speed up fingerprint calculations by saving reference ligand as a permanent object WJA yep
Add pre-min conformations to growth trees WJA yep
Add verbose flag options WJA yep
Put molecular properties (RB, MW, etc) in mol2 header WJA yep
Put ensemble properties (RB, MW, etc) output stream at the end of each layer WJA yep
Check formal charge prune BCF yep
Combination of horizontal pruning metrics (let's consider dropping tanimoto prune and just using hungarian prune) WJA yep
Finish implementing growth trees WJA yep
Revisit orienting to make sure it is working as intended WJA yep
Fixed a bug where we were marking scaffold_this_layer as true for any fragment WJA yep
Update random sampling function to use last layer changes in graph function WJA yep
Do that same thing for the exhaustive function WJA yep
I don't think we ever clear the scaf_link_sid vector, we definitely should do that somewhere WJA yep
Update exhaustive to combine all frags into one library, just like graph / random. WJA yep


List of features/ideas for future releases:

  • Using different references for different layers of dn growth (GFPS protocol) Guided footprint similarity - divide the reference into smaller pieces (layers) to help guide the growth paths more efficiently (i.e. directed growth)
  • Smooth cutoff for molecular weight maximum
  • Stereo centers / volume overlap pruning
  • Capping group functions (H, CH3, Halogen)
  • Incorporate GA at the end of each layer (not easy)
  • Overhaul the simple-build function
  • Monte carlo algorithm that checks bond frequency
  • Scaling max root / layer size with layer
  • Select torenv before selecting fragment. Will need to overhaul fraggraph, will keep us from needing to assemble mols that will not pass torenv.
  • Add fragname string to restart and dump files, already done for final and fraglib files.
  • Add ZINC name to torenv table
  • Unusual behavior during library generation when frequency cutoff == 0
  • Print out how many molecules cannot be capped. (Difference between ensemble size and dump.)
  • building from anchor 0 -> building from scf.98
  • Possible torenv check for dump molecules after capping before printing.
  • keep tables of what fragments (and torsion types) are already included in a growing molecule (i.e.e the name string has this info) and only accept a new fragment (or torsion type) within certain ranges and probabilities. In other words use knowledge of chemical makeup probabilities to keep from over including or under including certain fragment and bond types (essentially use datamining to help us only build molecules within certain boundaries)


List of SB2012 systems that we will use for tests:

For now, let's use 5-15 rotatable bonds inclusive; total = 709 systems ("drug-like" size molecules). De novo paper only used 663 systems that removed 46 systems where the cognate ligand did not fall with a +/-2 formal charge. (5through15 = 709, 5through15_ch2 = 663)

{5RB = 107; 6RB = 96; 7RB = 103; 8RB = 75; 9RB = 66; 10RB = 75; 11RB = 57; 12RB = 41; 13RB = 38; 14RB = 26; 15RB = 25}