In this article, we review some recent (covering approximately the last four years) applications of QM-based methods in drug design, exclusively focusing on target-based studies carried out on pharmacologically relevant biological systems (enzymes, receptors, ion channels). In particular, we present some case studies laying down the perspectives about a wider usage of QM-based methods in computational medicinal chemistry, and about the exploitation of QM results in the rational drug design. The selected case studies are intended to show the suitability of QM methods to describe electronic and dynamic features of ligand/target interactions and enzymatic reactions, and allow us to discuss the relevance for drug-oriented studies of atomistic s...
The QM/MM method, short for quantum mechanical/molecular mechanical, is a highly versatile approach ...
One of the largest challenges of computational chemistry is calculation of accurate free energies fo...
Importance of the field. The development of quantum mechanics (QM) was perhaps the greatest intellec...
In this article, we review some recent (covering approximately the last four years) applications of ...
Molecular modeling techniques play a relevant role in drug design providing detailed information at ...
Computational approaches have become an established and valuable component of pharmaceutical researc...
Today computational chemistry is a consolidated tool in drug lead discovery endeavors. Due to method...
Quantum mechanics is especially useful in drug design when the mode of action of the drug involves a...
Understanding the inherent chemical and physical properties of chemotherapeutic drugs at the detaile...
The use of computational quantum chemical methods to aid drug discovery is surveyed. An overview of ...
Since its first appearance in 1976, the quantum mechanics/molecular mechanics (QM/MM) approach has m...
This manuscript focuses on the application of molecular modeling and structure-informed design (SID)...
The comparative use of classical, quantum chemical (QC) ligand-based (LB) and structure-based (SB) q...
A review. With the advances in genomics, proteomics and functional genomics new therapeutic targets ...
CONSPECTUS: Quantum mechanics (QM) has revolutionized our understanding of the structure and reactiv...
The QM/MM method, short for quantum mechanical/molecular mechanical, is a highly versatile approach ...
One of the largest challenges of computational chemistry is calculation of accurate free energies fo...
Importance of the field. The development of quantum mechanics (QM) was perhaps the greatest intellec...
In this article, we review some recent (covering approximately the last four years) applications of ...
Molecular modeling techniques play a relevant role in drug design providing detailed information at ...
Computational approaches have become an established and valuable component of pharmaceutical researc...
Today computational chemistry is a consolidated tool in drug lead discovery endeavors. Due to method...
Quantum mechanics is especially useful in drug design when the mode of action of the drug involves a...
Understanding the inherent chemical and physical properties of chemotherapeutic drugs at the detaile...
The use of computational quantum chemical methods to aid drug discovery is surveyed. An overview of ...
Since its first appearance in 1976, the quantum mechanics/molecular mechanics (QM/MM) approach has m...
This manuscript focuses on the application of molecular modeling and structure-informed design (SID)...
The comparative use of classical, quantum chemical (QC) ligand-based (LB) and structure-based (SB) q...
A review. With the advances in genomics, proteomics and functional genomics new therapeutic targets ...
CONSPECTUS: Quantum mechanics (QM) has revolutionized our understanding of the structure and reactiv...
The QM/MM method, short for quantum mechanical/molecular mechanical, is a highly versatile approach ...
One of the largest challenges of computational chemistry is calculation of accurate free energies fo...
Importance of the field. The development of quantum mechanics (QM) was perhaps the greatest intellec...