Theoretical Design and Process Control of Neonicotinoids Insecticides Suitable for Synergistic Degradation of Rhizobia and Carbon-fixing Bacteria in Soil

This study studied and developed the modification schemes of environmentally friendly substitutes of NNIs along with the regulatory measures that effectively enhanced the synergistic degradation of NNIs by soil rhizobia and carbon-fixing bacteria. Firstly, the binding ability of NNIs to the two key proteins was characterized by molecular docking; Secondly, the mean square deviation decision method, which is a comprehensive evaluation method was used to investigate the binding ability of NNI molecules with the two Rubisco rate-limiting enzymes. The 3D-QSAR model was established for the synergistic degradation and single effect of rhizobia and carbon fixing bacteria, subsequently. Finally, after combining the 3D-QSAR model with a contour maps analysis of the synergistic degradation effect of soil rhizobia and carbon-fixing bacteria, 102 NNI derivatives were designed. 4 NNI derivatives passed the functional and environmentally friendly evaluation. Taguchi orthogonal experiment and factorial experiment assisted molecular dynamics method were used to simulate the effects of 32 regulation schemes on the synergistic degradation of NNIS and its derivatives by rhizobia and carbon fixing bacteria. The synergistic degradation capacity of soil rhizobia and carbon-fixing bacteria was increased to 33.32% after right nitrogen supplementation. This indicated that supplementing the correct amount of nitrogen was beneficial to the microbial degradation of NNIs and their derivatives.