Abstract
Copper lighter tetrylenes are promising for inhibition towards Rhizoctonia solani-based protein PDB-4G9M and Magnaporthe oryzae-based PDB-6JBR in rice. Quantum properties of four hypothetic copper complexes of carbenes and silylenes (Cu-NHC1, Cu-NHC2, Cu-NHSi1, and Cu-NHSi2) were examined using the density functional theory. Their inhibitability towards the targeted proteins was evaluated using molecular docking simulation. Quantum analysis predicts the stability of the investigated complexes and thus their practical existability and practicable synthesisability. Their electronic configurations are justified as highly conducive to intermolecular interaction. Regarding ligand-protein as carbenes/silylenes-4G9M inhibitory structures, the stability is estimated in the order [Cu-NHC2]-4G9M (DS −12.9 kcal⋅mol−1) > [Cu-NHSi1]-4G9M (DS −11.8 kcal⋅mol−1) = [Cu-NHSi2]-4G9M (DS −11.7 kcal⋅mol−1) > [Cu-NHC1]-4G9M (DS –11.4 kcal⋅mol−1). In contrast, the corresponding order for the carbenes/silylenes-6JBR systems is [Cu-NHSi2]-6JBR (DS –13.4 kcal⋅mol−1) > [Cu-NHC2]-6JBR (DS −13.0 kcal⋅mol−1) = [Cu-NHSi1]-6JBR (DS −12.6 kcal⋅mol−1) > [Cu-NHC1]-6JBR (DS −12.3 kcal⋅mol−1). In theory, this study suggests a potentiality of copper lighter tetrylenes and their derivatives against the infection of fungi Rhizoctonia solani and Magnaporthe oryzae, thus encouraging attempts for experimental developments.
Highlights
Rice (Oryza sativa L.), rich in nutrients, vitamins, and minerals, is well-known to be the most important staple food source for more than seventy percent of the world’s population [1]
Common signs of sheath blight are the rapid and irregular appearance of light gray to dark brown lesions before they coalesce to cover across larger portions of the sheath and leaf lamina. is disease is known to result in ca. 10–25% of yield loss [3] and enable a rise up to 50% under favourable environmental conditions [4]. e cause is demonstrated to be the infection of a soilborne fungal specie, Rhizoctonia solani (R. solani)
Molecular docking simulation was implemented on MOE 2015.10 to investigate ligand-protein interactability. e results included intermolecular-complex configurations, docking score (DS) energy, root-mean-square deviation (RMSD), types of interactions, and respective distances between the potential drugs and proteins
Summary
Rice (Oryza sativa L.), rich in nutrients, vitamins, and minerals, is well-known to be the most important staple food source for more than seventy percent of the world’s population [1]. Molecular docking simulation has demonstrated its effectiveness in investigating ligand-protein interaction by estimating ligand-target binding energy and static stability of the inhibitory systems [29]. The antifungal activity of certain groups of copper lighter tetrylene compounds, that is, carbenes and silylenes, towards Rhizoctonia solani and Magnaporthe oryzae is predicted via computational investigations.
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