Wood Thammajun L, Guha Rajarshi, Tang Li, Geitner Michael, Kumar Manish, Wood Thomas K
Department of Chemical Engineering, Pennsylvania State University, University Park, PA 16802; The Huck Institutes of the Life Sciences, Pennsylvania State University, University Park, PA 16802;
Department of Chemical Engineering, Pennsylvania State University, University Park, PA 16802;
Proc Natl Acad Sci U S A. 2016 May 17;113(20):E2802-11. doi: 10.1073/pnas.1521731113. Epub 2016 May 2.
Membrane systems are used increasingly for water treatment, recycling water from wastewater, during food processing, and energy production. They thus are a key technology to ensure water, energy, and food sustainability. However, biofouling, the build-up of microbes and their polymeric matrix, clogs these systems and reduces their efficiency. Realizing that a microbial film is inevitable, we engineered a beneficial biofilm that prevents membrane biofouling, limiting its own thickness by sensing the number of its cells that are present via a quorum-sensing circuit. The beneficial biofilm also prevents biofilm formation by deleterious bacteria by secreting nitric oxide, a general biofilm dispersal agent, as demonstrated by both short-term dead-end filtration and long-term cross-flow filtration tests. In addition, the beneficial biofilm was engineered to produce an epoxide hydrolase so that it efficiently removes the environmental pollutant epichlorohydrin. Thus, we have created a living biofouling-resistant membrane system that simultaneously reduces biofouling and provides a platform for biodegradation of persistent organic pollutants.
膜系统在水处理、废水循环利用、食品加工和能源生产等领域的应用越来越广泛。因此,它们是确保水、能源和食品可持续性的关键技术。然而,生物污染,即微生物及其聚合物基质的积累,会堵塞这些系统并降低其效率。认识到微生物膜不可避免,我们设计了一种有益生物膜,通过群体感应电路感知其存在的细胞数量来限制自身厚度,从而防止膜生物污染。短期死端过滤和长期错流过滤试验均表明,这种有益生物膜还通过分泌一氧化氮(一种通用的生物膜分散剂)来防止有害细菌形成生物膜。此外,有益生物膜经过设计可产生环氧水解酶,从而有效去除环境污染物环氧氯丙烷。因此,我们创建了一种具有抗生物污染能力的活性膜系统,该系统既能减少生物污染,又能为持久性有机污染物的生物降解提供一个平台。