{"title":"Shewanella oneidensis:金属还原菌的生物技术应用。","authors":"Lukas Kneuer, René Wurst, Johannes Gescher","doi":"10.1007/10_2024_272","DOIUrl":null,"url":null,"abstract":"<p><p>What is an unconventional organism in biotechnology? The γ-proteobacterium Shewanella oneidensis might fall into this category as it was initially established as a laboratory model organism for a process that was not seen as potentially interesting for biotechnology. The reduction of solid-state extracellular electron acceptors such as iron and manganese oxides is highly relevant for many biogeochemical cycles, although it turned out in recent years to be quite relevant for many potential biotechnological applications as well. Applications started with the production of nanoparticles and dramatically increased after understanding that electrodes in bioelectrochemical systems can also be used by these organisms. From the potential production of current and hydrogen in these systems and the development of biosensors, the field expanded to anode-assisted fermentations enabling fermentation reactions that were - so far - dependent on oxygen as an electron acceptor. Now the field expands further to cathode-dependent production routines. As a side product to all these application endeavors, S. oneidensis was understood more and more, and our understanding and genetic repertoire is at eye level to E. coli. Corresponding to this line of thought, this chapter will first summarize the available arsenal of tools in molecular biology that was established for working with the organism and thereafter describe so far established directions of application. 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引用次数: 0
摘要
什么是生物技术中的非常规生物?γ-蛋白菌 Shewanella oneidensis 可能就属于这一类,因为它最初是作为一种实验室模式生物被建立起来的,而这一过程并不被认为对生物技术具有潜在的意义。固态细胞外电子受体(如铁和锰氧化物)的还原与许多生物地球化学循环密切相关,但近年来发现它与许多潜在的生物技术应用也相当相关。其应用始于纳米颗粒的生产,在了解到生物电化学系统中的电极也可由这些生物体使用后,其应用急剧增加。从这些系统中可能产生的电流和氢气以及生物传感器的开发,该领域扩展到阳极辅助发酵,使迄今为止依赖氧气作为电子受体的发酵反应成为可能。现在,该领域进一步扩展到阴极辅助生产工艺。作为所有这些应用努力的附带产物,人们对 S. oneidensis 的了解越来越多,我们对它的了解和基因库已达到大肠杆菌的水平。根据这一思路,本章将首先总结分子生物学的现有工具库,这些工具库是为研究该生物而建立的,然后介绍迄今为止已确立的应用方向。最后,我们还将重点介绍非传统模式生物 S. oneidensis 的潜在未来工作方向。
Shewanella oneidensis: Biotechnological Application of Metal-Reducing Bacteria.
What is an unconventional organism in biotechnology? The γ-proteobacterium Shewanella oneidensis might fall into this category as it was initially established as a laboratory model organism for a process that was not seen as potentially interesting for biotechnology. The reduction of solid-state extracellular electron acceptors such as iron and manganese oxides is highly relevant for many biogeochemical cycles, although it turned out in recent years to be quite relevant for many potential biotechnological applications as well. Applications started with the production of nanoparticles and dramatically increased after understanding that electrodes in bioelectrochemical systems can also be used by these organisms. From the potential production of current and hydrogen in these systems and the development of biosensors, the field expanded to anode-assisted fermentations enabling fermentation reactions that were - so far - dependent on oxygen as an electron acceptor. Now the field expands further to cathode-dependent production routines. As a side product to all these application endeavors, S. oneidensis was understood more and more, and our understanding and genetic repertoire is at eye level to E. coli. Corresponding to this line of thought, this chapter will first summarize the available arsenal of tools in molecular biology that was established for working with the organism and thereafter describe so far established directions of application. Last but not least, we will highlight potential future directions of work with the unconventional model organism S. oneidensis.
期刊介绍:
Advances in Biochemical Engineering/Biotechnology reviews actual trends in modern biotechnology. Its aim is to cover all aspects of this interdisciplinary technology where knowledge, methods and expertise are required for chemistry, biochemistry, microbiology, genetics, chemical engineering and computer science. Special volumes are dedicated to selected topics which focus on new biotechnological products and new processes for their synthesis and purification. They give the state-of-the-art of a topic in a comprehensive way thus being a valuable source for the next 3 - 5 years. It also discusses new discoveries and applications.
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