AUTHOR=Santos Lucas de Azevedo , Prandi Ingrid G. , Ramalho Teodorico C. 

TITLE=Could Quantum Mechanical Properties Be Reflected on Classical Molecular Dynamics? The Case of Halogenated Organic Compounds of Biological Interest

JOURNAL=Frontiers in Chemistry

VOLUME=Volume 7 - 2019

YEAR=2019

URL=https://www.frontiersin.org/journals/chemistry/articles/10.3389/fchem.2019.00848

DOI=10.3389/fchem.2019.00848

ISSN=2296-2646

ABSTRACT=Essential to understand life, the biomolecular phenomena have been an important subject in science, therefore a necessary path to be covered to make progress in human knowledge. To fully comprehend these processes, the noncovalent interactions are the key. In this review, we discuss how specific protein-ligand interactions can be efficiently described by low computational cost methods, such as Molecular Mechanics (MM). We have taken as example the case of the halogen-bonds (XB). Albeit weaker than the hydrogen-bonds (HB), the XBs play a key role to drug design, enhancing the affinity and selectivity towards the biological target. Along the attraction between two electronegative atoms in XBs, important orbital interactions as well as relief of Pauli repulsion take place, despite the unique σ-hole model. Nonetheless, such electronic effects can be only well described by accurate quantum chemical methods that have strong limitations dealing with supramolecular systems due to their high computational cost. To go beyond the poor description of XBs by MM methods, reparametrizing the force-fields equations can be a way to keep the balance between accuracy and computational cost. Thus, we have shown the steps to be considered when parametrizing force-fields in order to achieve reliable results of complex noncovalent interactions at MM level for In Silico drug design methods.