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机译:通过用于多铜氧化酶,MNXefg的氧化灌注机制增强了生物锰氧化物矿化。
Department of Chemistry and Department of Earth and Planetary Sciences University of California One Shields Avenue Davis California 95616 (USA);
School of Chemistry Monash University Victoria 3800 (Australia);
Division of Environmental and Biomolecular Systems Institute of Environmental Health Oregon Health &
Science University Portland Oregon 97239 (USA);
Division of Environmental and Biomolecular Systems Institute of Environmental Health Oregon Health &
Science University Portland Oregon 97239 (USA);
School of Chemistry Monash University Victoria 3800 (Australia);
Division of Environmental and Biomolecular Systems Institute of Environmental Health Oregon Health &
Science University Portland Oregon 97239 (USA);
School of Chemistry Monash University Victoria 3800 (Australia);
School of Chemistry Monash University Victoria 3800 (Australia);
School of Chemistry Monash University Victoria 3800 (Australia);
Department of Chemistry and Department of Earth and Planetary Sciences University of California One Shields Avenue Davis California 95616 (USA);
direct protein electrochemistry; Fourier transformed AC voltammetry; manganese oxide mineralization; multi-copper oxidase activity; quartz crystal microbalance;
机译:通过用于多铜氧化酶,MNXefg的氧化灌注机制增强了生物锰氧化物矿化。
机译:工程化芽孢杆菌漆胶囊样多铜氧化酶,用于增强木质素模型复合愈菌菌的氧化
机译:生物胺在胺氧化酶氧化石墨电极上的电氧化机理
机译:鉴定能够降解生物胺的实验室多铜氧化酶的鉴定
机译:铜氧化酶MnxG形成生物锰氧化物的机理
机译:己酮可可碱和CD14抗体可额外抑制多形核白细胞的引发以增强脂多糖超氧化物的释放:这些作用的可能机制。
机译:通过用于多铜氧化酶,Mnxefg的氧化灌注机制增强了生物锰氧化物矿化