Unknown

Dataset Information

0

3D proteochemometrics: using three-dimensional information of proteins and ligands to address aspects of the selectivity of serine proteases.

ABSTRACT: The high similarity between certain sub-pockets of serine proteases may lead to low selectivity of protease inhibitors. Therefore the application of proteochemometrics (PCM), which quantifies the relationship between protein/ligand descriptors and affinity for multiple ligands and targets simultaneously, is useful to understand and improve the selectivity profiles of potential inhibitors. In this study, protein field-based PCM that uses knowledge-based and WaterMap derived fields to describe proteins in combination with 2D (RDKit and MOE fingerprints) and 3D (4 point pharmacophoric fingerprints and GRIND) ligand descriptors was used to model the bioactivities of 24 homologous serine proteases and 5863 inhibitors in an integrated fashion. Of the multiple field-based PCM models generated based on different ligand descriptors, RDKit fingerprints showed the best performance in terms of external prediction with Rtest2 of 0.72 and RMSEP of 0.81. Further, visual interpretation of the models highlights sub-pocket specific regions that influence affinity and selectivity of serine protease inhibitors.

SUBMITTER: Subramanian V 

PROVIDER: S-EPMC6072133 | biostudies-literature | 2017 May

REPOSITORIES: biostudies-literature

Json Xml
altmetric image

Publications

3D proteochemometrics: using three-dimensional information of proteins and ligands to address aspects of the selectivity of serine proteases.

Subramanian Vigneshwari V   Ain Qurrat Ul QU   Henno Helena H   Pietilä Lars-Olof LO   Fuchs Julian E JE   Prusis Peteris P   Bender Andreas A   Wohlfahrt Gerd G  

MedChemComm 20170315 5

The high similarity between certain sub-pockets of serine proteases may lead to low selectivity of protease inhibitors. Therefore the application of proteochemometrics (PCM), which quantifies the relationship between protein/ligand descriptors and affinity for multiple ligands and targets simultaneously, is useful to understand and improve the selectivity profiles of potential inhibitors. In this study, protein field-based PCM that uses knowledge-based and WaterMap derived fields to describe pro  ...[more]

Similar Datasets

Unknown Predicting Subtype Selectivity for Adenosine Receptor Ligands with Three-Dimensional Biologically Relevant Spectrum (BRS-3D).
| S-EPMC5095671 | biostudies-literature
Unknown Three-Dimensional Molecular Modeling of a Diverse Range of SC Clan Serine Proteases.
| S-EPMC3507156 | biostudies-literature
Unknown Serine proteases.
| S-EPMC2675663 | biostudies-literature
Unknown Three-dimensional structural aspects of protein-polysaccharide interactions.
| S-EPMC3975366 | biostudies-literature
Unknown Three-Dimensional Biologically Relevant Spectrum (BRS-3D): Shape Similarity Profile Based on PDB Ligands as Molecular Descriptors.
| S-EPMC6273508 | biostudies-literature
Unknown Three-dimensional volume containing multiple two-dimensional information patterns.
| S-EPMC3671501 | biostudies-other
Unknown NBCZone: Universal three-dimensional construction of eleven amino acids near the catalytic nucleophile and base in the superfamily of (chymo)trypsin-like serine fold proteases.
| S-EPMC7124590 | biostudies-literature
Unknown Three dimensional (3D) imaging techniques in orthodontics-An update.
| S-EPMC7491840 | biostudies-literature
Unknown Three-Dimensional (3D) Printed Microneedles for Microencapsulated Cell Extrusion.
| S-EPMC6164407 | biostudies-literature
Transcriptomics A three-dimensional organoid model recapitulates tumorigenic aspects and drug responses of advanced human retinoblastoma
2018-10-23 | GSE120710 | GEO