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Abstract
Small molecules play crucial role in the modulation of biological functions by interacting with specific macromolecules. Hence small molecule interactions are captured by a variety of experimental methods to estimate and propose correlations between molecular structures to their biological activities. The tremendous expanse in publicly available small molecules is also driving new efforts to better understand interactions involving small molecules particularly in area of drug docking and pharmacogenomics. We have studied and designed a functional group identification system with the associated ontology for it. The functional group identification system can detect the functional group components from given ligand structure with specific coordinate information. Functional group ontology (FGO) proposed by us is a structured classification of chemical functional group which acts as an important source of prior knowledge that may be automatically integrated to support identification, categorization and predictive data analysis tasks. We have used a new annotation method which can be used to construct the original structure from given ontological expression using exact coordinate information. Here, we also discuss about ontology-driven similarity measure of functional groups and uses of such novel ontology for pharmacophore searching and de-novo ligand designing.
Highlights
The concept of ontology as an abstraction from the actual data entities and instances is not a new concept
We have studied and designed a functional group identification system with the associated ontology for it
Functional group ontology (FGO) proposed by us is a structured classification of chemical functional group which acts as an important source of prior knowledge that may be automatically integrated to support identification, categorization and predictive data analysis tasks
Summary
The concept of ontology as an abstraction from the actual data entities and instances is not a new concept. Each class is having fixed architecture carrying all information about the atom in consideration and cumulatively each ligand functional group is a specific topology of branches with set of connected nodes. The detailed information of each atom and its connection information with parent atoms were stored in a single class Such classes were hierarchically arranged with specific annotation to denote a specific set of instances, a functional group. Molecules have been compared using a semantic similarity score based on functional group which succeeds in identifying small molecules known to bind a common binding site (table 1 in supplementary material) This ontology will serve as a powerful tool for searching chemical databases and identifying key functional groups responsible for biological activities. Suggestion we have with Dr Sudip Sanyal, IIIT, Allahabad, India
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