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TLDR (tldr.docking.org) is a web-based interface to molecular docking and related tools.
TLDR (TLDR is a Ligand Discovery Resource, tldr.docking.org) is a web-based interface to molecular docking, cheminformatics and related tools. The system currently consists of a dozen or so apps.  We plan to support dozens, perhaps a hundred.
The system currently consists of a dozen apps.  We plan to support dozens, perhaps a hundred all told.
 
== Advantages ==
* you don't need to install
 
== Disadvantages ==
* limited control
* limited by access to our servers
* competition with other users
 
Here we list the apps you can currently use, with usage notes.  
Here we list the apps you can currently use, with usage notes.  


Line 8: Line 16:


== Current available modules ==
== Current available modules ==
=== [[TLDR:Arthorbatch|Arthorbatch]] ===
* [[TLDR:arthorbatch|Arthorbatch]]
 
* [[TLDR:bioisostere|Bioisostere]]
=== [[TLDR:Bioisostere|Bioisostere]] ===
* [[TLDR:bootstrap1|Bootstrap1]]
 
* [[TLDR:bootstrap2|Bootstrap2]]
=== [[TLDR:Bootstrap1|Bootstrap1]] ===
* [[TLDR:dudez|DUDE-Z]]
 
* [[TLDR:extrema|Extrema]]
=== Bootstrap2 ===
* [[TLDR:build3d38|Build3d38]]
Get 95% confidence interval from bootstrapping.
* [[TLDR:strain|Strain]]
=== [[TLDR:DUDE-Z|DUDE-Z]] ===
* [[TLDR:swbatch|Swbatch]]
 
=== Extrema ===
Generate an equivalent number of charged (-2, -1, 0, +1, +2) molecules in the molecular weight and cLogP property space of your input SMILES molecules. These charged molecules can be used as a decoy background for docking to identify the charge preference of your docking setup.
=== Newbuild3D ===
Prepare a 3D library for docking in several formats used by popular docking programs: sdf, db2, mol2, pdbqt, solv
 
=== [[TLDR:Strain|Strain]] ===
 
=== SWbatch ===
Running long query against ZINC20 and ZINC22 databases.


== In Development ==
== In Development ==
Line 159: Line 157:


= Technical info =  
= Technical info =  
== Ben's info section ==
python environment is @ /nfs/soft/www/home/apps/tools18/envs/tldr-prod/bin/python3.9
tldr distribution packages are @ /nfs/soft/www/home/apps/tools18/dist
=== How to open source code & make a change ===
1. unpack most recent distribution in dist folder to your preferred directory
2. make changes to source code. this is left as an exercise for the reader
3. once done, re-pack source code into tarball. if you want to change the version name, change the name of the source code's root directory & dist package- for organizational purposes
4. copy the package back to the tldr dist directory- not strictly necessary, but again, for organizational purposes
5. with the tldr python environment, pip install the package you just created
* /nfs/soft/www/home/apps/tools18/envs/tldr-prod/bin/python3.9 -m pip install /nfs/soft/www/home/apps/tools18/dist/$YOUR_PACKAGE
* this will uninstall the previous version- I haven't tried doing this while the server is live, but it should probably(?) be fine
6. restart the tldr webserver on gimel2
* supervisorctl restart tldr
=== Making changes to modules & scripts ===
modules are located @ /nfs/ex7/tldr-modules
input files & parameters are defined by parameters.json within the module directory
modules are fairly straightforward bash scripts that operate in a designated working directory created by tldr when a job is submitted
job files are stored in /nfs/ex7/blaster/jobs/[0-9]
the specific 0-9 directory the job directory is located in is based on the last digit of the tldr-provided job_id- these directories are striped across multiple disks
within the job's working directory "results" is a special directory that will be shown to the user containing results
=== TLDR database ===
psql -h mem2 -p 5432 -d blaster -U blasteruser
can add new modules by adding to the job_types table
set module private/public by modifying job_type_status_fk in this table


== starting the server in single-threaded mode ==  
== starting the server in single-threaded mode ==  

Latest revision as of 06:21, 12 November 2024

TLDR (TLDR is a Ligand Discovery Resource, tldr.docking.org) is a web-based interface to molecular docking, cheminformatics and related tools. The system currently consists of a dozen or so apps. We plan to support dozens, perhaps a hundred.

Advantages

  • you don't need to install

Disadvantages

  • limited control
  • limited by access to our servers
  • competition with other users

Here we list the apps you can currently use, with usage notes.

This is also called "Add TLDR Module"

Current available modules

In Development

Blaster

The purpose of the blaster app is to prepare a receptor for docking, including some basic analysis.

This app requires:

  • A structure for your receptor protein provided as a pdb file
  • A binding site provided in one of the following ways:
 1) Supply ligand in binding site
 2) Provide binding site residues
 3) Use a program to identify all potential binding sites.  Choose which of the binding sites to test or test them all.

The app returns:

  • dockfiles, which may be used for large library docking
  • workfiles, which may be used for grid and sphere optimization.

The output of this app can be used by:

  • asdf
  • sef
  • sdfafd

Status: works. (equivalent of blastermaster.py)


Covalent

Purpose:

This app requires:

  • asdf

This app returns:

  • asdf

The output of this app can be used by:

  • adsfasdf

Status: Works with special cases only. Nearly ready to use. If interested, ask jji for assistance.

Cluster

Purpose:

This app requires:

  • asdf

This app returns:

  • asdf

The output of this app can be used by:

  • adsfasdf

Status: Works.


Libanalysis

Purpose:

This app requires:

  • asdf

This app returns:

  • asdf

The output of this app can be used by:

  • adsfasdf

Status: Not working yet

Reaction

Purpose:

This app requires:

  • asdf

This app returns:

  • asdf

The output of this app can be used by:

  • adsfasdf

Status: Works at a basic level, with minor caveats.

  • need to handle mwt and logP cutoff parametrically.
  • needs work to handle millions of molecules
  • needs work to connect to reagents, reactions and schemes

Report2d

Purpose:

This app requires:

  • asdf

This app returns:

  • asdf

The output of this app can be used by:

  • adsfasdf

Status: Not working yet

Shape

Purpose:

Search for similar shape molecules for ligands

This app requires:

  • asdf

This app returns:

  • asdf

The output of this app can be used by:

  • adsfasdf

Status: Not working yet

ZINCbatch

Purpose:

This app requires:

  • asdf

This app returns:

  • asdf

The output of this app can be used by:

  • adsfasdf

Status: Not working yet

Technical info

Ben's info section

python environment is @ /nfs/soft/www/home/apps/tools18/envs/tldr-prod/bin/python3.9

tldr distribution packages are @ /nfs/soft/www/home/apps/tools18/dist

How to open source code & make a change

1. unpack most recent distribution in dist folder to your preferred directory

2. make changes to source code. this is left as an exercise for the reader

3. once done, re-pack source code into tarball. if you want to change the version name, change the name of the source code's root directory & dist package- for organizational purposes

4. copy the package back to the tldr dist directory- not strictly necessary, but again, for organizational purposes

5. with the tldr python environment, pip install the package you just created

* /nfs/soft/www/home/apps/tools18/envs/tldr-prod/bin/python3.9 -m pip install /nfs/soft/www/home/apps/tools18/dist/$YOUR_PACKAGE

* this will uninstall the previous version- I haven't tried doing this while the server is live, but it should probably(?) be fine

6. restart the tldr webserver on gimel2

* supervisorctl restart tldr

Making changes to modules & scripts

modules are located @ /nfs/ex7/tldr-modules

input files & parameters are defined by parameters.json within the module directory

modules are fairly straightforward bash scripts that operate in a designated working directory created by tldr when a job is submitted

job files are stored in /nfs/ex7/blaster/jobs/[0-9]

the specific 0-9 directory the job directory is located in is based on the last digit of the tldr-provided job_id- these directories are striped across multiple disks

within the job's working directory "results" is a special directory that will be shown to the user containing results

TLDR database

psql -h mem2 -p 5432 -d blaster -U blasteruser

can add new modules by adding to the job_types table set module private/public by modifying job_type_status_fk in this table

starting the server in single-threaded mode

source /mnt/nfs/work/chinzo/Projects/BlasterX_supritha/venv/bin/activate
python code/DOCKBlaster/autoapp.py

How to add new module

See Add Tools18 module

Supported field types

For now, the model accepts "text_box", "check_box", "drop_down" , "radio_button",  and so on

If "type" is "text_box", it can contain a text or number with a min and a max range. If there is a min and a max range, then they have to be mentioned as "value_type": "number", "value_range": {"min_value": 0.1,"max_value": 0.99} as in parameters.json for cluster. If "type" is "text_box" and "value_type" is "text", then it is a normal text box with no range or validations. 6. Every input mentioned under the key "inputs" has a field called "file_name", which the name by which the input file uploaded/filled by the user gets stored in the file system at /nfs/ex7/blaster/jobs/JobID%10/Jobname_jobID folder.

7. Every job type has a "job_output" field, which currently stores an empty results.txt file which can be modified to do another action later. For now, the inputs uploaded, and the output file name specified by the user gets stored in the file system under the path that I mentioned in point 6.