Guided by the principles of microbiome engineering: Accomplishments and perspectives for environmental use.

IF 4.5 Q1 MICROBIOLOGY mLife Pub Date : 2022-11-03 eCollection Date: 2022-12-01 DOI:10.1002/mlf2.12043
Haiyang Hu, Miaoxiao Wang, Yiqun Huang, Zhaoyong Xu, Ping Xu, Yong Nie, Hongzhi Tang
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Abstract

Although the accomplishments of microbiome engineering highlight its significance for the targeted manipulation of microbial communities, knowledge and technical gaps still limit the applications of microbiome engineering in biotechnology, especially for environmental use. Addressing the environmental challenges of refractory pollutants and fluctuating environmental conditions requires an adequate understanding of the theoretical achievements and practical applications of microbiome engineering. Here, we review recent cutting-edge studies on microbiome engineering strategies and their classical applications in bioremediation. Moreover, a framework is summarized for combining both top-down and bottom-up approaches in microbiome engineering toward improved applications. A strategy to engineer microbiomes for environmental use, which avoids the build-up of toxic intermediates that pose a risk to human health, is suggested. We anticipate that the highlighted framework and strategy will be beneficial for engineering microbiomes to address difficult environmental challenges such as degrading multiple refractory pollutants and sustain the performance of engineered microbiomes in situ with indigenous microorganisms under fluctuating conditions.

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以微生物组工程原则为指导:环境利用的成就和前景。
尽管微生物组工程的成就凸显了其在有针对性地操纵微生物群落方面的重要意义,但知识和技术上的差距仍然限制了微生物组工程在生物技术中的应用,尤其是在环境方面的应用。要应对难降解污染物和波动环境条件带来的环境挑战,就必须充分了解微生物组工程的理论成果和实际应用。在此,我们回顾了微生物组工程策略的最新前沿研究及其在生物修复中的经典应用。此外,我们还总结了微生物组工程中自上而下和自下而上方法相结合的框架,以改进应用。我们还提出了一种用于环境的微生物组工程策略,它可以避免有毒中间产物的积累,从而对人类健康造成危害。我们预计,所强调的框架和策略将有助于微生物组工程解决棘手的环境挑战,如降解多种难降解污染物,并在波动条件下与本地微生物一起维持工程微生物组的性能。
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