Enterobacter cloacae-mediated polymer biodegradation: in-silico analysis predicts broad spectrum degradation potential by Alkane monooxygenase

IF 3.1 4区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Biodegradation Pub Date : 2024-07-13 DOI:10.1007/s10532-024-10091-4
Shafana Farveen Mohamed, Rajnish Narayanan
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Abstract

Plastic pollution poses a significant environmental challenge. In this study, the strain Enterobacter cloacae O5-E, a bacterium displaying polyethylene-degrading capabilities was isolated. Over a span of 30 days, analytical techniques including x-ray diffractometry, scanning electron microscopy, optical profilometry, hardness testing and mass spectrometric analysis were employed to examine alterations in the polymer. Results revealed an 11.48% reduction in crystallinity, a 50% decrease in hardness, and a substantial 25-fold increase in surface roughness resulting from the pits and cracks introduced in the polymer by the isolate. Additionally, the presence of degradational by-products revealed via gas chromatography ascertains the steady progression of degradation. Further, recognizing the pivotal role of alkane monooxygenase in plastic degradation, the study expanded to detect this enzyme in the isolate molecularly. Molecular docking studies were conducted to assess the enzyme’s affinity with various polymers, demonstrating notable binding capability with most polymers, especially with polyurethane (− 5.47 kcal/mol). These findings highlight the biodegradation potential of Enterobacter cloacae O5-E and the crucial involvement of alkane monooxygenase in the initial steps of the degradation process, offering a promising avenue to address the global plastic pollution crisis.

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泄殖腔肠杆菌介导的聚合物生物降解:硅内分析预测了烷烃单加氧酶的广谱降解潜力。
塑料污染是一项重大的环境挑战。在这项研究中,分离出了一种具有聚乙烯降解能力的菌株 Enterobacter cloacae O5-E。在长达 30 天的时间里,研究人员采用了 X 射线衍射仪、扫描电子显微镜、光学轮廓仪、硬度测试和质谱分析等分析技术来检测聚合物的变化。结果显示,由于分离物在聚合物中产生了凹坑和裂缝,结晶度降低了 11.48%,硬度降低了 50%,表面粗糙度大幅增加了 25 倍。此外,通过气相色谱法发现的降解副产物的存在也确定了降解的稳定进展。此外,由于认识到烷烃单加氧酶在塑料降解中的关键作用,该研究扩大了范围,从分子上检测分离物中的这种酶。研究人员进行了分子对接研究,以评估该酶与各种聚合物的亲和力,结果表明该酶与大多数聚合物都有显著的结合能力,尤其是与聚氨酯的结合能力(- 5.47 kcal/mol)。这些发现凸显了泄殖腔肠杆菌 O5-E 的生物降解潜力,以及烷烃单加氧酶在降解过程初始步骤中的关键作用,为解决全球塑料污染危机提供了一条前景广阔的途径。
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来源期刊
Biodegradation
Biodegradation 工程技术-生物工程与应用微生物
CiteScore
5.60
自引率
0.00%
发文量
36
审稿时长
6 months
期刊介绍: Biodegradation publishes papers, reviews and mini-reviews on the biotransformation, mineralization, detoxification, recycling, amelioration or treatment of chemicals or waste materials by naturally-occurring microbial strains, microbial associations, or recombinant organisms. Coverage spans a range of topics, including Biochemistry of biodegradative pathways; Genetics of biodegradative organisms and development of recombinant biodegrading organisms; Molecular biology-based studies of biodegradative microbial communities; Enhancement of naturally-occurring biodegradative properties and activities. Also featured are novel applications of biodegradation and biotransformation technology, to soil, water, sewage, heavy metals and radionuclides, organohalogens, high-COD wastes, straight-, branched-chain and aromatic hydrocarbons; Coverage extends to design and scale-up of laboratory processes and bioreactor systems. Also offered are papers on economic and legal aspects of biological treatment of waste.
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