Anxo Méndez, Patricia Sanmartín, Sabela Balboa, Alba Trueba-Santiso
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引用次数: 0
Abstract
Recent studies are showing that some lights suitable for illuminating the urban fabric (i.e. that do not include the red, green and blue sets of primary colours) may halt biological colonisation on monuments, mainly that caused by phototrophic subaerial biofilms (SABs), which may exacerbate the biodeterioration of substrates. However, the light-triggered mechanisms that cause changes in the growth of the phototrophs remain unknown. Environmental proteomics could be used to provide information about the changes in the SAB metabolism under stress inflicted by nocturnal lighting. Here, laboratory-produced SABs, composed of Chlorophyta, Streptophyta and Cyanobacteriota, were subjected to three types of lighting used for monuments: cool white, warm white and amber + green (potentially with a biostatic effect). A control without light (i.e. darkness) was also included for comparison. The nocturnal lighting impaired the capacity of the SABs to decompose superoxide radicals and thus protect themselves from oxidative stress. Cool white and warm white light both strongly affected the proteomes of the SABs and reduced the total peptide content, with the extent of the reduction depending on the genera of the organisms involved. Analysis of the photo-damaging effect of amber + green light on the biofilm metabolism revealed a negative impact on photosystems I and II and production of photosystem antenna protein-like, as well as a triggering effect on protein metabolism (synthesis, folding and degradation). This research provides, for the first-time, a description of the proteomic changes induced by lighting on SABs colonising illuminated monuments in urban areas.
最近的研究表明,一些适合照亮城市结构的灯光(即不包括红、绿、蓝三原色的灯光)可能会阻止古迹上的生物定殖,主要是由光养亚水生生物膜(SABs)引起的生物定殖,这可能会加剧基质的生物退化。然而,导致光养生物生长变化的光触发机制仍然未知。环境蛋白质组学可用于提供有关夜间光照造成的压力下 SAB 新陈代谢变化的信息。在这里,实验室生产的由叶绿体、链叶绿体和蓝细菌组成的 SABs 要接受三种纪念碑照明:冷白光、暖白光和琥珀色+绿色(可能具有生物静电效应)。同时还加入了一个无光(即黑暗)对照组进行比较。夜间照明削弱了 SABs 分解超氧自由基的能力,从而使其自身免受氧化应激。冷白光和暖白光都强烈影响了 SAB 的蛋白质组,降低了肽的总含量,降低的程度取决于所涉及的生物属。分析琥珀色光和绿光对生物膜新陈代谢的光破坏作用发现,琥珀色光和绿光对光合系统 I 和 II 以及类光合系统天线蛋白的产生产生了负面影响,并对蛋白质新陈代谢(合成、折叠和降解)产生了触发作用。这项研究首次描述了照明诱导的蛋白质组变化对城市地区照明纪念碑上的 SAB 定殖的影响。
期刊介绍:
The journal Microbial Ecology was founded more than 50 years ago by Dr. Ralph Mitchell, Gordon McKay Professor of Applied Biology at Harvard University in Cambridge, MA. The journal has evolved to become a premier location for the presentation of manuscripts that represent advances in the field of microbial ecology. The journal has become a dedicated international forum for the presentation of high-quality scientific investigations of how microorganisms interact with their environment, with each other and with their hosts. Microbial Ecology offers articles of original research in full paper and note formats, as well as brief reviews and topical position papers.
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