PSearch is a tool to generate 3D ligand-based pharmacophore models and perform virtual screening with them.
pip install psearch
pmapper >= 0.3.1
It is recommended to create an empty dir which would be your $PROJECT_DIR
and copy an input file to that location.
There are two steps of pharmacophore model generation.
- Dataset preparation.
prepare_datatset -i $PROJECT_DIR/input.smi -c 4
-i
- path to the input file
-c
- number of CPUs to use
There are some other arguments which one can use. Invoke script with -h
key to get full information.
The script takes as input a tab-separated SMILES file containing SMILES
, compound id
, activity
columns without a header.
The third column should contain a word active
or inactive
.
The script splits input compounds on active and inactive subsets, generates stereoisomers and conformers, creates databases of active and inactive compounds with labeled pharmacophore features.
- Model building.
psearch -p $PROJECT_DIR -c 4
-p
- path to the project dir
-c
- number of CPUs to use
There are two other arguments which are worth to mention:
-t
- threshold for compound clustering to create training sets. Default: 0.4.
-ts
- strategies to create training sets. 1
- a single training set will be created from centroids of individual clusters (capturing a common binding mode for all compounds). 2
- multiple training sets will be created, one per cluster (capturing individual binding modes for compound clusters).
By default both strategies are used.
- Database creation.
The script takes as input a tab-separated SMILES file containing SMILES
and compound id
columns.
prepare_db -i compounds.smi -o compounds.db -c 4 -v
-i
- path to the input file
-c
- number of CPUs to use
-v
- print progress
There are other arguments available to tweak database generation. To get the full list of arguments invoke -h
key.
- Virtual screening.
screen_db -d compounds.db -q $PROJECT_DIR/models/ -o screen_results/ -c 4
-d
- input generated SQLite database
-q
- pharmacophore model or models or a directory with models
If a directory would be specified all pma- and xyz-files will be recognized as pharmacophores and will be used for screening
-o
- path to an output directory if multiple models were supplied for screening or a path to a text file
-c
- number of CPUs to use
All scripts have -h
argument to retrieve descriptions of all available options and arguments.
Alina Kutlushina, Pavel Polishchuk
Ligand-Based Pharmacophore Modeling Using Novel 3D Pharmacophore Signatures
Alina Kutlushina, Aigul Khakimova, Timur Madzhidov, Pavel Polishchuk
Molecules 2018, 23(12), 3094
https://doi.org/10.3390/molecules23123094
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