Title :
Homology modeling and docking study of GyrB
Author :
Zhang, Yanbo ; Hu, Meiying ; Zhong, Guohua ; Chen, Shaohua
Author_Institution :
Key Lab. of Natural Pesticide & Chem. Biol., South China Agric. Univ., Guangzhou, China
Abstract :
Gordonia sp. D2 is an actinomycete strain that can degrade cypermethrin, and GyrB is regarded as a character playing a key role in the process of pyrethroid degradation of Gordonia sp. D2. In order to understand the mechanisms of ligand binding and the interaction between the cypermethrin and the GyrB, a three-dimensional (3D) model of the GyrB is generated based on the crystal structure of the DNA gyrase B (PDB code 1EI1) by using MODELER module. Flexible docking approaches were then employed to dock two conformations of cypermethrin into the active site of GyrB in order to probe the ligand-binding modes. By analyzing the results, active site architecture and certain key residues responsible for substrate specificity including Ile88, Ile91, Leu109, Thr110 and Asp111 were identified on GyrB, which might be very helpful to further determine its biological roles, and provide insights for the metabolic pathways of cypermethrin by GyrB in the water environment.
Keywords :
DNA; biotechnology; chemical hazards; chemical products; toxicology; water pollution; DNA gyrase B; Gordonia sp. D2; MODELER module; actinomycete strain; biological roles; crystal structure; cypermethrin; flexible docking approaches; homology modeling; ligand binding; metabolic pathways; pyrethroid degradation; substrate specificity; three-dimensional model; water environment; Biodegradation; Degradation; Humans; Pollution; Solid modeling; Three dimensional displays; Toxicology; CDOCKER; GyrB; gordonia sp. D2; homology modeling; molecular dynamic;
Conference_Titel :
Water Resource and Environmental Protection (ISWREP), 2011 International Symposium on
Conference_Location :
Xi´an
Print_ISBN :
978-1-61284-339-1
DOI :
10.1109/ISWREP.2011.5893514
