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1.
芳香烃类化合物(aromatic hydrocarbon compounds)是一类基于苯环结构的有机物,广泛分布在自然环境中,难以自然降解、易被生物积累,且有很大的环境危害性。生物法是有机化合物转化降解的主流工艺,而电活性微生物(electroactive microorganisms, EAM)因其独特的胞外电子传递(extracellular electron transfer, EET)能力和生理代谢模式在芳香烃类化合物污染修复领域具有巨大的应用潜力。电活性微生物可以通过还原脱卤、脱硝与氧化开环过程相结合的方式,最终实现芳香烃类污染物的降解矿化。本文重点综述了电活性微生物降解芳香烃类污染物过程中主要还原/氧化反应机理,归纳了电活性微生物高效还原脱卤、脱硝的关键酶活、代谢途径及转化机理,分析了不同含氧条件下电活性微生物开环方式及降解代谢途径,并通过调控微生物胞外聚合物与添加导电材料等途径来提升电活性微生物的胞外电子传递过程,总结了电极电位、电极材料、电解液性质及温度等环境因子对芳香烃类化合物降解的影响,探讨了芳香烃类污染物的强化生物降解策略的可行性。最后,展望了电活性微生物降解技...  相似文献   

2.
环境微生物介导的木质素代谢及其资源化利用研究进展   总被引:5,自引:2,他引:3  
梁丛颖  林璐 《微生物学通报》2020,47(10):3380-3392
木质素是一种丰富的芳烃生物大分子聚合物,其分解代谢与地球元素循环和生物资源利用密切相关。但由于木质素结构的复杂性和无规则性导致其难以降解,使得木质素降解的研究成为全球碳循环和生物质资源利用研究的难点。近年来,来自不同环境的微生物陆续被发现具有木质素降解能力,并解析出参与木质素分解代谢的多种氧化还原酶。然而对木质素详细的代谢过程仍不十分清楚,因此,探究木质素降解酶系、作用机理和代谢网络是研究微生物代谢木质素机理的关键。本文综述环境中参与木质素降解的微生物,重点解析其木质素解聚酶系组成、分泌机制和木质素的代谢途径,并在此基础上阐明近年来木质素生物转化的最新研究进展,以期为今后环境微生物代谢木质素机理及其资源化利用的研究提供参考。  相似文献   

3.
目的:用计算机重构石油烃降解通路,为石油污染的生物修复提供理论依据。方法:利用KEGG反应、化合物数据提取反应等式,过滤掉所有反应中的通用化合物及小分子化合物并构建反应矩阵,然后利用广度优先搜索算法在反应矩阵中搜索降解石油烃的代谢途径。结果:计算机分别重构了256 132条链烷烃降解途径和44条环己烷降解途径,以酿酒酵母作为降解石油烃的基因工程菌为例,通过限制改构菌整合的关键酶数目,分别得到了213条不需要转入关键酶的链烷烃降解通路和6条以氧化还原酶、松柏醇脱氢酶或环己醇脱氢酶和环己酮单氧酶为关键酶的环己烷降解通路,并构建相应的降解网络图,标注每个反应的酶。结论:应用计算机重构了2种石油烃降解途径,可为利用微生物对石油污染进行生物修复提供理论依据。  相似文献   

4.
氯代苯胺类化合物微生物降解的研究进展*   总被引:3,自引:0,他引:3  
对氯代苯胺类化合物(Chlovoanilines,CAS)好氧微生物降解的研究现状进行了系统的综述,内容包括具有降解氯代苯胺类化合物能力的微生物、氯代苯胺类化合物的代谢途径及相关代谢酶的分析、降解质粒和关键代谢酶的基因克隆和表达,并提出了氯代苯胺类化合物好氧微生物降解研究中存在的问题和尚需进一步研究的方面。  相似文献   

5.
闵军  陈卫卫  李俊德  胡晓珂 《微生物学报》2020,60(12):2816-2835
硝基芳烃化合物作为一种重要的化工原料,广泛应用于医药、染料、农药等化工产品的合成。在给人类社会带来空前的物质繁荣的同时,其造成的环境污染问题也成为人类社会面临的重要挑战之一。微生物在这些环境污染物的降解中起着重要的作用。近几十年,环境微生物工作者对微生物降解硝基芳香污染物的各个步骤,包括趋化感应、分解代谢及生物修复进行了大量的研究工作,获得了丰富的知识。本文综述了硝基芳烃及其卤代衍生物的微生物代谢途径、代谢机理、趋化及修复研究进展,并对本领域的研究进行了展望,有助于全面认知硝基芳烃污染物的微生物降解过程,为污染环境修复提供理论基础。  相似文献   

6.
镇达  陈茂彬 《微生物学报》2008,35(3):0358-0362
氯代硝基芳香烃是一类环境中难以降解的有毒污染物。一株高效分解4-氯硝基苯的假单胞菌分离于4-氯硝基苯污染土壤, 可以完全降解4-氯硝基苯, 并以之为C源、N源生长。为阐明其降解4-氯硝基苯的代谢途径, 通过对以底物生长的降解菌的酶学分析, 检测到其还原降解的两个关键酶即初始酶硝基还原酶和苯环开环酶2-氨基-5-氯酚1, 6-双加氧酶的活性; 结合其它检测如培养液中降解产物分析、相关底物生长实验结果, 确定了其降解途径是通过部分还原途径。  相似文献   

7.
假单胞菌ZWL73降解4-氯硝基苯的代谢途径研究   总被引:2,自引:1,他引:1  
镇达  陈茂彬 《微生物学通报》2008,35(3):0358-0362
氯代硝基芳香烃是一类环境中难以降解的有毒污染物.一株高效分解4-氯硝基苯的假单胞菌分离于4-氯硝基苯污染土壤,可以完全降解4-氯硝基苯,并以之为C源、N源生长.为阐明其降解4-氯硝基苯的代谢途径,通过对以底物生长的降解茵的酶学分析,检测到其还原降解的两个关键酶即初始酶硝基还原酶和苯环开环酶2-氨基-5-氯酚1,6-双加氧酶的活性:结合其它检测如培养液中降解产物分析、相关底物生长实验结果,确定了其降解途径是通过部分还原途径.  相似文献   

8.
污染土壤中苯并(a)芘的微生物降解途径研究进展   总被引:2,自引:0,他引:2  
苯并(a)芘(BaP)是一种具有强致癌、致畸和致突变的多环芳烃(PAHs)。为了修复BaP污染的土壤,探索其降解途径是很重要的。为此,综述了国内外有关污染土壤中苯并(a)芘的微生物降解情况,对不同真菌、细菌降解苯并(a)芘的能力、代谢途径、共代谢底物以及环境影响因素进行了介绍和比较,提出了苯并(a)芘中间代谢产物的累积及其环境毒性方面的研究是修复苯并(a)芘污染土壤的重要方向。  相似文献   

9.
硝基苯类化合物微生物降解研究进展   总被引:4,自引:0,他引:4  
硝基苯类化合物是一类具有稳定化学性质、高毒性和易在生物体内积累的优先污染物.微生物降解在硝基苯类化合物废水废气治理和污染环境修复方面具有明显优势.从降解菌的驯化筛选、降解途径、降解机理、共代谢、趋化性和分子遗传学角度,阐述了硝基苯类化合物微生物降解研究的最新进展,指出应进一步加强工程菌的构建及其应用开发研究.在硝基苯类化合物污染环境的微生物修复方面,共代谢和混合菌株的协同作用具有重要的应用前景.  相似文献   

10.
聚乙烯塑料的微生物降解   总被引:1,自引:0,他引:1  
王佳蕾  霍毅欣  杨宇 《微生物学通报》2020,47(10):3329-3341
聚乙烯(polyethylene,PE)是产量最大的通用塑料之一,通常被加工成一次性包装材料(包括塑料袋及容器)和农用薄膜等。PE塑料的广泛应用导致大量PE废弃物的累积,对生态环境造成严重的威胁。自20世纪70年代以来,一些研究陆续报道了PE塑料被微生物降解的现象,并从土壤、海洋、垃圾堆置点及昆虫肠道等生境中分离筛选到了若干种具有一定PE塑料降解能力的菌株,而且发现一些单加氧酶、过氧化物酶和漆酶等氧化还原酶对PE塑料具有氧化降解能力。这些研究为发展PE塑料废弃物生物降解处理技术提供了一定的依据。本文总结和分析了PE塑料降解微生物的分离和筛选方法,以及已报道的PE塑料降解微生物和降解酶的研究进展,以期为进一步研究PE塑料的微生物降解机理和处理技术提供参考。  相似文献   

11.
pH regulation is a serious concern in the industrial fermentation process as pH adjustment heavily utilizes acid/base and pollutes the environment. Under pH-stress conditions, microbial growth and production of valuable target products may be severely affected. Furthermore, some strains generating acidic or alkaline products require self pH regulation and increased tolerance against pH-stress. For pH control, synthetic biology has provided advanced engineering approaches to construct robust and more intelligent microbial strains, exhibiting tolerance to pH-stress to cope with limitations of pH regulation. This study reviewed the current progress of advanced strain evolution strategies to engineer pH-stress tolerant strains via synthetic biology. In addition, a large number of pH-responsive elements, including promoters, riboswitches, and some proteins have been investigated and applied for construction of pH-responsive genetic circuits and intelligent pH-responsive microbial strains.  相似文献   

12.
This paper compares two approaches that attempt to explain the origin of life, or biogenesis. The more established approach is one based on chemical principles, whereas a new, yet not widely known approach begins from a physical perspective. According to the first approach, life would have begun with—often organic—compounds. After having developed to a certain level of complexity and mutual dependence within a non-compartmentalised organic soup, they would have assembled into a functioning cell. In contrast, the second, physical type of approach has life developing within tiny compartments from the beginning. It emphasises the importance of redox reactions between inorganic elements and compounds found on two sides of a compartmental boundary. Without this boundary, “life” would not have begun, nor have been maintained; this boundary—and the complex cell membrane that evolved from it—forms the essence of life.  相似文献   

13.
One of the greatest puzzles of all time is how did life arise? It has been universally presumed that life arose in a soup rich in carbon compounds, but from where did these organic molecules come? In this article, I will review proposed terrestrial sources of prebiotic organic molecules, such as Miller-Urey synthesis (including how they would depend on the oxidation state of the atmosphere) and hydrothermal vents and also input from space. While the former is perhaps better known and more commonly taught in school, we now know that comet and asteroid dust deliver tons of organics to the Earth every day, therefore this flux of reduced carbon from space probably also played a role in making the Earth habitable. We will compare and contrast the types and abundances of organics from on and off the Earth given standard assumptions. Perhaps each process provided specific compounds (amino acids, sugars, amphiphiles) that were directly related to the origin or early evolution of life. In any case, whether planetary, nebular or interstellar, we will consider how one might attempt to distinguish between abiotic organic molecules from actual signs of life as part of a robotic search for life in the Solar System.  相似文献   

14.
The Mediterranean diet is associated with a lower incidence of chronic degenerative diseases and higher life expectancy. These health benefits have been partially attributed to the dietary consumption of extra virgin olive oil (EVOO) by Mediterranean populations, and more specifically the phenolic compounds naturally present in EVOO. Studies involving humans and animals (in vivo and in vitro) have demonstrated that olive oil phenolic compounds have potentially beneficial biological effects resulting from their antimicrobial, antioxidant and anti-inflammatory activities. This paper summarizes current knowledge on the biological activities of specific olive oil phenolic compounds together with information on their concentration in EVOO, bioavailability and stability over time.  相似文献   

15.
Corynebacterium glutamicum cells are industrially used for glutamate production. However, the waste that contains microbial cells, cellular debris, residual sugars, ammonia and metabolites seriously pollutes the environment. The cells are recovered and utilized for ribonucleotide production so that the pollution caused by the cells is eliminated. Nucleic acid is extracted from the cells and is hydrolyzed with nuclease P1 from Penicillium citrinum. The hydrolysate is fractionated with Dowex-50 and Dowex-1 into 5'-CMP, 5'-UMP, 5'-GMP and 5'-AMP. The products are characterized by electrophoresis, ultraviolet light absorbance, and 5'-nucleotidase.  相似文献   

16.
All organisms must interact with their environment, responding in behavioral, chemical, and other ways to various stimuli throughout their life cycles. Characterizing traits that directly represent an organism's ability to sense and react to their environment provides useful insight into the evolution of life‐history strategies. One such trait for the nematode Pristionchus pacificus, chemosensation, is involved in navigation to beetle hosts. Essential for the survival of the nematode, chemosensory behavior may be subject to variation as nematodes discriminate among chemical cues to complete their life cycle. We examine this hypothesis using natural isolates of P. pacificus from La Réunion Island. We select strains from a variety of La Réunion beetle hosts and geographic locations and examine their chemoattraction response toward organic compounds, beetle washes, and live beetles. We find that nematodes show significant differences in their response to various chemicals and are able to chemotax to live beetles in a novel assay. Further, strains can discriminate among different cues, showing more similar responses toward beetle washes than to organic compounds in cluster analyses. However, we find that variance in chemoattraction response is not significantly associated with temperature, location, or beetle host. Rather, strains show a more concerted response toward compounds they most likely directly encounter in the wild. We suggest that divergence in odor‐guided behavior in P. pacificus may therefore have an important ecological component.  相似文献   

17.
在食用菌生产中木霉菌不仅污染食用菌培养料,而且感染其菌丝体和子实体,常造成巨大的经济损失。本文综述了食用菌与木霉菌互作的形态学特征和生物化学基础,介绍了食用菌抗病性遗传及抗性机制研究现状,提出了未来宿主与病原菌互作机制研究的方向。  相似文献   

18.
The Orgueil meteorite is a carbonaceous chondrite containing about 3.1% carbon, 5.5% sulfur and 19.9% water. Virtually all of the carbon is present as organic carbon although only about 20% is soluble in common organic solvents; the remainder is in the form of a highly substituted, irregular and aromatic polymer. Detailed methods of analysis have been improved in the past ten years sufficient for the detection of individual compounds in most of the following classes of organic compounds: hydrocarbons, oxygen-, sulfur- and nitrogen-containing organic compounds, optically active species, isotopes, bacteria and organized elements. Ten series of homologous compounds have been observed in the aliphatic hydrocarbons.In the 1950's, when interest was renewed in the Orgueil meteorite, the analytical capabilities may have given a bias toward biogenic agencies for the formation of the organic matter found in the meteorites. Some of the key biochemical compounds for extraterrestrial life are present. There is doubt, however, that these particular compounds are truly indigenous. The possibility that the indigenous organic compounds in the meteorite are present as a result of abiogenic syntheses in the cosmos is becoming more generally accepted.  相似文献   

19.
The majority of the flavours and fragrances used worldwide are produced by chemical synthesis at low price. However, consumers prefer natural compounds because of increasing health and nutrition awareness in routine life. Hence, biotransformation is an alternative process to produce natural aroma compounds. Microorganisms have been gradually used more to produce natural aroma compounds with various applications in food, agriculture and pharmaceutical industries. This paper reviews the role of microorganisms in the transformation of ferulic acid to 4-vinyl guaiacol. The microbial processes based on biocatalytic method are discussed in terms of their advantages over chemical synthesis, plant cell cultures and enzyme catalyzed reactions. Thus, the transformation of ferulic acid by microorganisms could have possible use in food, pharmaceutical industry and become an increasingly important platform for the production of natural aroma compounds.  相似文献   

20.
Ribosomal frameshifting, a process whereby a translating ribosome is diverted from one reading frame to another on a contiguous mRNA, is an important regulatory mechanism in biology and an opportunity for therapeutic intervention in several human diseases. In HIV, ribosomal frameshifting controls the ratio of Gag and Gag-Pol, two polyproteins critical to the HIV life cycle. We have previously reported compounds able to selectively bind an RNA stemloop within the Gag-Pol mRNA; these compounds alter the production of Gag-Pol in a manner consistent with increased frameshifting. Importantly, they also display antiretroviral activity in human T-cells. Here, we describe new compounds with significantly reduced molecular weight, but with substantially maintained affinity and anti-HIV activity. These results suggest that development of more “ligand efficient” enhancers of ribosomal frameshifting is an achievable goal.  相似文献   

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