内生真菌对聚酯型聚氨酯的降解作用。

Biodegradation of polyester polyurethane by endophytic fungi.

机构信息

Department of Molecular Biophysics and Biochemistry, Yale University, New Haven, CT 06520, USA.

出版信息

Appl Environ Microbiol. 2011 Sep;77(17):6076-84. doi: 10.1128/AEM.00521-11. Epub 2011 Jul 15.

DOI:10.1128/AEM.00521-11

PMID:21764951

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3165411/

Abstract

Bioremediation is an important approach to waste reduction that relies on biological processes to break down a variety of pollutants. This is made possible by the vast metabolic diversity of the microbial world. To explore this diversity for the breakdown of plastic, we screened several dozen endophytic fungi for their ability to degrade the synthetic polymer polyester polyurethane (PUR). Several organisms demonstrated the ability to efficiently degrade PUR in both solid and liquid suspensions. Particularly robust activity was observed among several isolates in the genus Pestalotiopsis, although it was not a universal feature of this genus. Two Pestalotiopsis microspora isolates were uniquely able to grow on PUR as the sole carbon source under both aerobic and anaerobic conditions. Molecular characterization of this activity suggests that a serine hydrolase is responsible for degradation of PUR. The broad distribution of activity observed and the unprecedented case of anaerobic growth using PUR as the sole carbon source suggest that endophytes are a promising source of biodiversity from which to screen for metabolic properties useful for bioremediation.

摘要

生物修复是一种减少废物的重要方法，它依赖于生物过程来分解各种污染物。这是通过微生物世界的巨大代谢多样性来实现的。为了探索微生物对塑料分解的这种多样性，我们筛选了数十种内生真菌，以研究它们降解聚酯型聚氨酯（PUR）的能力。一些生物体在固体和液体悬浮液中都表现出了有效降解 PUR 的能力。尽管并非该属的普遍特征，但在几个 Pestalotiopsis 属的分离物中观察到了特别强的活性。两个 Pestalotiopsis microspora 分离物能够在有氧和无氧条件下仅以 PUR 作为唯一碳源进行生长。对该活性的分子特征分析表明，丝氨酸水解酶负责 PUR 的降解。观察到的广泛分布的活性和使用 PUR 作为唯一碳源进行厌氧生长的空前案例表明，内生菌是一种很有前途的生物多样性来源，可以从中筛选出对生物修复有用的代谢特性。

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