构建微生物群落以加强生物采矿和生物修复。
Engineering microbial consortia to enhance biomining and bioremediation.
作者信息
Brune Karl D, Bayer Travis S
机构信息
Centre for Synthetic Biology and Innovation, Division of Molecular Biosciences, Imperial College London, London, UK.
出版信息
Front Microbiol. 2012 Jun 5;3:203. doi: 10.3389/fmicb.2012.00203. eCollection 2012.
Abstract
In natural environments microorganisms commonly exist as communities of multiple species that are capable of performing more varied and complicated tasks than clonal populations. Synthetic biologists have engineered clonal populations with characteristics such as differentiation, memory, and pattern formation, which are usually associated with more complex multicellular organisms. The prospect of designing microbial communities has alluring possibilities for environmental, biomedical, and energy applications, and is likely to reveal insight into how natural microbial consortia function. Cell signaling and communication pathways between different species are likely to be key processes for designing novel functions in synthetic and natural consortia. Recent efforts to engineer synthetic microbial interactions will be reviewed here, with particular emphasis given to research with significance for industrial applications in the field of biomining and bioremediation of acid mine drainage.
摘要
在自然环境中,微生物通常以多种物种的群落形式存在,与克隆群体相比,它们能够执行更多样化和复杂的任务。合成生物学家已经设计出具有分化、记忆和模式形成等特征的克隆群体,这些特征通常与更复杂的多细胞生物相关联。设计微生物群落的前景在环境、生物医学和能源应用方面具有诱人的可能性,并且可能揭示自然微生物群落如何发挥功能的见解。不同物种之间的细胞信号传导和通信途径可能是在合成和自然群落中设计新功能的关键过程。本文将综述最近在工程化合成微生物相互作用方面所做的努力,特别强调对酸性矿山排水生物采矿和生物修复领域工业应用具有重要意义的研究。
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