Abstract
Lung cancer is a kind of cancer with high morbidity and mortality rate, making it one of the most dangerous tumors to humanity's health and existence. Wavefunction dependent reactivity analysis, atom in molecule (AIM) and molecular dynamics (MD) simulations of lorlatinib (LTB) are reported in the present work. Electrophilicity index predicts the biological activity. The bond ellipticity describes the anisotropy of the curvature of electron density and its maximum value is at C15-H32. Chemical environments, N8 = C26-N7, C18 = C30 equivalent to N9, and C15 = C14-C13 are found to be highest delocalization regions. The complexes were stable throughout the simulation and amino acids involved in bringing the overall structural deviation are explored.