Extracellular electron transfer explained

Open Access Government Pub Date : 2024-07-10 DOI:10.56367/oag-043-11034
Arpita Bose, Aiden Wang
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Abstract

Arpita Bose, PhD from Washington University in St. Louis, guides us through host-associated impacts and biotechnological applications of extracellular electron transfer in electrochemically active bacteria. Electron flow and oxidative and reductive reactions, referred to as “redox reactions,” collectively impact the outcomes of biochemical pathways essential for cell growth, energy conservation, and stress response throughout various organisms. An example of these organisms is electrochemically active bacteria (EAB), which can link internal redox reactions with external electron acceptors or donors via a process known as extracellular electron transfer (EET).
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解释细胞外电子传递
来自圣路易斯华盛顿大学的阿皮塔-博斯(Arpita Bose)博士向我们介绍了电化学活性细菌中细胞外电子传递对宿主的影响和生物技术应用。电子流以及氧化和还原反应(简称 "氧化还原反应")共同影响着各种生物体内对细胞生长、能量守恒和应激反应至关重要的生化途径的结果。电化学活性细菌(EAB)就是其中的一个例子,它可以通过一种称为胞外电子转移(EET)的过程,将内部氧化还原反应与外部电子受体或供体联系起来。
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Open Access Government
Open Access Government
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