微生物和含铁矿物之间的电子交换
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摘要
含铁矿物常见于土壤中和地表下.在那里,它们以多种形式支撑微生物的生长和代谢,如作为微生物厌氧呼吸的电子受体、微生物自养生长的电子供体和能量来源、微生物细胞之间的电子导体和电子储存介质.微生物细胞膜套的物理化学性质决定其既不具有矿物渗透性,也不具备导电性.因此,微生物需要进化出特定的机制同胞外矿物交换电子(即胞外电子传导).微生物胞外电子传导与常见的,用于有氧呼吸的微生物细胞电子传递链有着诸多本质区别.本文中,我们概述了微生物与胞外含铁矿物之间电子传导的分子机理,以及相关的微生物在生物修复污染物、生产新型纳米材料、生物采矿和生物能源中的应用.
Iron-bearing minerals are widespread in soil and subsurface environment where they support microbial growth and metabolisms by serving as the terminal electron acceptors for microbial anaerobic respiration; the electron donors and energy sources for microbial autotrophic growth; the conductors for mediating electron transfer between microbial cells and the electron storage materials. Because microbial cell envelope is neither permeable to iron-bearing minerals nor electrical conductive, microorganisms have evolved capabilities to exchange electrons between the microbial cytoplasmic membrane and the minerals external to the microbial cells(i.e., microbial extracellular electron transfer). Microbial extracellular electron transfer differs fundamentally from the microbial electron transport chain for aerobic respiration. In this review, we discussed the molecular underpinnings of microbial extracellular electron transfer with iron-bearing minerals and applications of the related microorganisms in remediation of environmental contaminants, production of novel nano-materials, biomining and bioenergy production.
Iron-bearing minerals are widespread in soil and subsurface environment where they support microbial growth and metabolisms by serving as the terminal electron acceptors for microbial anaerobic respiration; the electron donors and energy sources for microbial autotrophic growth; the conductors for mediating electron transfer between microbial cells and the electron storage materials. Because microbial cell envelope is neither permeable to iron-bearing minerals nor electrical conductive, microorganisms have evolved capabilities to exchange electrons between the microbial cytoplasmic membrane and the minerals external to the microbial cells(i.e., microbial extracellular electron transfer). Microbial extracellular electron transfer differs fundamentally from the microbial electron transport chain for aerobic respiration. In this review, we discussed the molecular underpinnings of microbial extracellular electron transfer with iron-bearing minerals and applications of the related microorganisms in remediation of environmental contaminants, production of novel nano-materials, biomining and bioenergy production.
引文
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