Gutierrez-Villagomez, Juan Manuel;Ramirez-Chavez, Enrique;Molina-Torres, Jorge;Vazquez-Martinez, Juan published 《From Natural to Synthetic Quorum Sensing Active Compounds: Insights to Develop Specific Quorum Sensing Modulators for Microbe-Plant Interaction》 in 2020. The article was appeared in 《ACS Symposium Series》. They have made some progress in their research.Computed Properties of C17H27NO3 The article mentions the following:
It is clear the importance of plant-microbe interactions to accomplish food safety and sustainable agriculture. Many plant-microbe interactions depend on bacterial quorum sensing (QS) systems, so the manipulation of these communication systems could be a powerful instrument to modulate plant development. The search of compounds with the capacity to modulate the microbial communication systems using docking mol. anal. methods along with chromatog. and miniaturized microbiol. techniques offers a robust tool-kit for designing and testing quorum quenching (QQ) active compounds Further, the synthesis of QQ compounds can be achieved by applying enzymic processes with the advantages of lowering costs and generating fewer byproducts. To exemplify these processes, herein, a group of natural compounds known as alkamides and piperamides were tested using mol. docking simulations to detect QQ active compounds against the CviR and LasR QS receptors of Gram-neg. bacteria. The docking results show that some alkamides and piperamides bind specifically to each of the studied QS receptors. The structural anal. of the resp. crystalized-receptor native ligand and the best-docked alkamide/piperamide was used to design acyl amide-like compounds These new acyl amide-like compounds bind more efficiently to the studied QS receptors than the native ligands, according to the docking results. The designed compounds could also potentially modulate plant-microbe interactions related to cellular processes dependent on bacterial QS. The data we describe contributes to the understanding of plant-microbe interactions and investigates methods to modulate plant-microbe interactions that can impact sustainable food production The experimental procedure involved many compounds, such as N-Vanillylnonanamide (cas: 2444-46-4) .
N-Vanillylnonanamide(cas:2444-46-4) has antifouling properties.Computed Properties of C17H27NO3 It acts as an nicotinamide adenine dinucleotide phosphate (NADPH) inhibitor.N-Vanillylnonanamide has been used for the preparation of spicules.
Reference:
Amide – Wikipedia,
Amide – an overview | ScienceDirect Topics