In silico and in vitro Studies on Begomovirus Induced Andrographolide Biosynthesis Pathway in Andrographis Paniculata for Combating Inflammation and Cancer

Andrographolide and neoandrographolide are major bioactive molecules of Andrographis paniculata , a well‐known medicinal plant. These molecules exhibited varying degrees of anti‐inflammatory and anticancer activities in‐vitro and in‐vivo . Role of begomovirus protein C2/TrAP in biosynthesis of andrographolide was identified through molecular modeling, docking and predicted results were substantiated by in vitro studies. Homology molecular modeling and molecular docking were performed to study the binding conformations and different bonding behaviors, in order to reveal the possible mechanism of action behind higher accumulation of andrographolide. It was concluded that C2/TrAP inhibit the activation of SNF1‐Related Protein Kinase‐1 (SnRK1) in terpenoid pathway and removes the negative regulation of 3‐hydroxy‐3‐methylglutaryl‐CoA reductase (HMGR) by SnRK1, leading to higher accumulation of andrographolide and neoandrographolide in begomovirus infected plants. The binding site residues of SnRK1 docked with C2/TrAP were found to be associated with ATP binding site, substrate binding site and activation loop. Predicted results were also validated by HPTLC. This study provides important insights into understanding the role of viral protein in altering the regulation of biosynthesis of andrographolide and could be used in future research to develop biomimetic methods for increasing the production of such phytometabolites having anti‐cancerous and anti‐inflammatory properties.