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1.
群体感应(quorum sensing,QS)是指细胞感知周围同类细胞的多寡或密度并调控基因表达的系统,它对大多数细菌的生物膜形成至关重要。目前对霍乱弧菌的QS系统已有较深入的研究,该菌的群体感应系统通过HapR、LuxO等多种信号分子调控生物膜的形成及消散。干扰QS系统将成为治疗生物膜相关感染的新方向。 相似文献
2.
目的研究群体感应(quorum sensing,QS)系统在铜绿假单胞菌生物膜(biofilm,BF)形成中的作用。方法体外建立QS系统完整的铜绿假单胞菌野生型PAO1菌株与QS系统缺陷(lasI rhlI基因缺陷△lasI△rhlI)型菌株生物膜模型,通过SYT09/PI荧光探针标记,结合激光共聚焦显微镜摄取BF不同层面的图片,经图像结构分析(ISA)软件分析获得QS系统lasI rhlI缺陷株、PAO1菌株BF相关空间结构参数。结果培养第3天PAO1菌株可形成较厚、有孔状通道的成熟BF结构,而△lasI△rhlI菌株仅形成明显稀薄的早期BF结构,△lasI△rhlI菌株的3 dBF厚度为(6.62±0.31)μm,PAO1菌株为(21.64±0.57)μm(t=0.205,P0.05),区域孔率(areal porosity,AP)分别为0.902±0.006、0.970±0.003;平均扩散距离(average diffusion distance,ADD)和结构熵(textural entropy,TE)在△lasI△rhlI菌株分别为1.571±0.019和6.586±0.110;在PAO1菌株分别为1.467±0.015和5.213±0.111,△la-sI△rhlI菌株AP较PAO1菌株低(t=0.335,P0.05);而ADD、TE较PAO1菌株高(t=0.289,t=0.300,P0.05)。结论lasI rhlI基因缺陷明显影响铜绿假单胞菌的BF形成能力,QS系统在铜绿假单胞菌BF形成中发挥重要作用。 相似文献
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环境中污染物降解基因的水平转移(HGT)及其在生物修复中的作用 总被引:2,自引:0,他引:2
水平基因转移是不同于垂直基因转移的遗传物质的交流方式.在污染环境这一特异生态环境中,降解基因的水平转移有着独特的功能与作用.研究环境中污染物降解基因在微生物间的水平转移,更深入地了解微生物种群适应污染环境的机理,对于评价污染物的环境毒理、生物可降解性以及污染环境的可修复潜力具有重要参考价值.在污染物生物修复实践中,可以通过调控降解基因的水平转移,增强污染环境中微生物的降解能力,更有效地发挥生物修复作用.文章将对环境中细菌间基因交流的机制,污染物降解基因的水平转移对微生物适应污染环境的机理、水平基因转移对代谢途径的进化及其对污染物生物修复作用的影响等方面的研究进展做一综述. 相似文献
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全球农田土壤污染日趋严重。重金属、农药、微塑料作为常见的土壤污染物,已对农田生态系统与粮食安全造成严重威胁。细菌生物膜(bacterial biofilm,BF)作为分布于细菌表面的多组分聚集体,近年来已被证明在环境保护领域具有较高的应用价值。本文主要介绍了细菌生物膜的组成和功能,并对近年来细菌及其生物膜在重金属、有机物污染土壤修复中的应用及机理进行综述,展望生物膜群落结构在污染土壤中的修复潜力,以期深入理解细菌生物膜的关键作用,为挖掘更多细菌生物膜在环境保护方面的应用潜力提供理论指导。 相似文献
5.
[目的]针对水体沉积物中日益严重的多溴联苯醚污染问题,以电子垃圾污染河床沉积物为种源富集驯化获得的菌群Cf3,研究该菌群对十溴联苯醚的降解特性以及其菌群结构组成.[方法]通过GC-MS分析十溴联苯醚降解后低溴代产物组成,并测定其降解率;通过DGGE技术分析了该BDE-209降解菌群的结构组成.[结果]菌群Cf3具有较强降解BDE-209的能力,经过120 d的培养,初始量为2.6 μmol的BDE-209降解率达到80.03%,OD600从0.01增长到0.21,pH由初始的6.93增加到反应结束时的8.50.菌群Cf3经过单菌落分离,共获得10株可培养细菌,通过16S rRNA基因序列比对发现,其中6株与柠檬酸杆菌属(Citrobacter spp.)具有较高同源性,其余4株与产碱杆菌属(Alcaligenes spp.)较相似.进一步采用DGGE分析菌群Cf3的结构组成时发现,除了分离得到的2个菌属外,该菌群中还含有拟杆菌属(Wolinella spp.)、氨基酸球菌属(Acidaminococcus spp.),以及随着降解时间延长而消失的脱硫弧菌属(Desulfovibrio spp.)和醋杆菌属(Acetobacterium spp.).[结论]获得了具有较强多溴联苯醚降解能力的菌群,并分析了其降解特性和群落组成,为进一步开展溴代阻燃剂等持久性有机污染物的生物修复提供宝贵的菌种资源和科学数据. 相似文献
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【目的】实施近海柴油污染的生物治理。【方法】以柴油为唯一碳源,从深圳港口海域富集筛选柴油降解菌;采用复配、正交试验等方式构建混合菌群;通过单因素试验研究环境因素对菌群降解柴油的影响;使用气相色谱-氢火焰检测器(GC-FID)分析降解前后柴油各组分的变化;通过生理生化试验和16S rRNA基因序列分析对菌株进行鉴定。【结果】获得了16株柴油降解菌,7 d内对柴油的降解率最高达40.8%;选择菌株C1-8、C2-10、C3-13构建了混合菌群CQ1,投加量分别为0.5%、2.0%和1.0%,CQ1对柴油去除率比单菌提高了10%以上;CQ1的最适环境条件为:温度30 °C、pH 7.6、摇床转速220 r/min、柴油浓度20 g/L,优化后9 d内对柴油去除率达60%以上;GC-FID结果显示,菌群CQ1可降解大部分C11?C27的正构烷烃,对C21?C27的烷烃降解可达100%。经鉴定,菌株C1-8、C2-10和C3-13分别为微杆菌(Microbacterium sp.)、剑菌(Ensifer sp.)和变异棒杆菌(Corynebacterium variabile)。【结论】CQ1在近海柴油污染的生物修复中具有良好的应用前景。 相似文献
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【背景】喹啉是一种典型的含氮杂环污染物,广泛存在于焦化废水,具有致畸、致癌、致突变作用,易通过水体污染环境。微生物技术因其绿色高效的特点,被认为是喹啉废水污染最有前景的修复手段之一。【目的】筛选得到一组高效喹啉降解复合菌群,实现含喹啉废水的高效工业化处理。【方法】使用逐级递增驯化法从焦化废水厂污泥中筛选出一组高效喹啉降解复合菌群,结合形态学观察并通过酶活测定、底物广谱性研究,完成对该复合菌群的初探。然后将该复合菌群的培养pH、温度、转速、装液量、接菌量、不同浓度外加碳氮源进行单因素优化,结合优化结果以喹啉降解率为目标进行响应面优化,并通过降解动力学研究喹啉对复合菌群降解行为的影响。【结果】分离出可30 h降解1 500 mg/L喹啉的高效复合菌群,可以降解多种含氮杂环化合物;响应面优化结果表明,当pH、温度、转速分别为6.8、30 ℃、200 r/min时,降解率最高达66%;降解动力学分析发现,当喹啉浓度为1 154 mg/L时,比降解率最大高达60.0 mg/(L·h)。【结论】该复合菌群具有高效喹啉降解能力和底物降解广谱性,为微生物高效处理含喹啉废水的工业化处理提供了良好基础。 相似文献
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石油污染是当前紧迫的水环境问题,研究石油污染物降解机制有助于探索石油污染修复技术路径。重点介绍了微生物降解石油污染物过程中的微生物种类、降解机制和反应机理,即具有代表性的细菌、真菌和藻类,石油烃的有氧降解(链烷烃、环烷烃和芳香烃)和厌氧降解(脱氢羟基化、延胡索酸盐加成)。并对微生物降解石油组分的影响因素进行了讨论,具体包括:烃类结构(支链多结构越复杂,越难降解)、微生物种类(混合菌的生化降解能力更强)、环境因子(pH、温度、盐度、含氧量和营养物质),进一步指出了生物修复技术应用于石油污染修复治理研究中的优缺点。此外,还对现有微生物降解技术的应用做了简要概述,归纳总结现有研究中存在的问题,尝试性的提出了今后生物降解石油污染物的研究重点,即生物降解石油的机制还需进一步明确,并重点分析了生物电化学方法在降解去除石油污染物方面可行性。综述石油烃生物降解机制和反应机理,以期为生物修复水体石油污染提供参考和借鉴作用。 相似文献
9.
多氯联苯(PCB)是强致癌有机污染物之一,是潜在的致癌因子,这类化合物有209种之多,其中某些化合物具有类似二噁英(dioxin)的毒性如六氯联苯等。有些微生物对PCB有降解作用,如G^ 细菌(指革氏阳性菌)中有园红球菌(Rhodococcus globerulus)也称球状红球菌,还有红串红球菌(Rh.erythropolis)、芽孢杆菌(Bacillus sp.)野生株以及该两属其他未定名菌株均表现对PCB等的降解活力, 相似文献
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Biofilm is bacterial population adherent to each other and to surfaces or interfaces, often enclosed by a matrix. Various
biomolecules contribute to the establishment of biofilms, yet the process of building a biofilm is still under active investigation.
Indole is known as a metabolite of amino acid tryptophan, which, however, has recently been proved to participate in various
aspects of bacterial life including virulence induction, cell cycle regulation, acid resistance, and especially, signaling
biofilm formation. Moreover, indole is also proposed to be a novel signal involved in quorum sensing, a bacterial cooperation
behavior sometimes concerning the biofilm formation. Here the signaling role and molecular mechanism of indole on bacterial
biofilm formation are reviewed, as well discussed is its relation to bacterial living adaptivity. 相似文献
12.
Coordination between cell populations via prevailing metabolic cues has been noted as a promising approach to connect synthetic devices and drive phenotypic or product outcomes. However, there has been little progress in developing ‘controller cells’ to modulate metabolic cues and guide these systems. In this work, we developed ‘controller cells’ that manipulate the molecular connection between cells by modulating the bacterial signal molecule, autoinducer-2, that is secreted as a quorum sensing (QS) signal by many bacterial species. Specifically, we have engineered Escherichia coli to overexpress components responsible for autoinducer uptake (lsrACDB), phosphorylation (lsrK), and degradation (lsrFG), thereby attenuating cell–cell communication among populations. Further, we developed a simple mathematical model that recapitulates experimental data and characterizes the dynamic balance among the various uptake mechanisms. This study revealed two controller ‘knobs’ that serve to increase AI-2 uptake: overexpression of the AI-2 transporter, LsrACDB, which controls removal of extracellular AI-2, and overexpression of the AI-2 kinase, LsrK, which increases the net uptake rate by limiting secretion of AI-2 back into the extracellular environment. We find that the overexpression of lsrACDBFG results in an extraordinarily high AI-2 uptake rate that is capable of completely silencing QS-mediated gene expression among wild-type cells. We demonstrate utility by modulating naturally occurring processes of chemotaxis and biofilm formation. We envision that ‘controller cells’ that modulate bacterial behavior by manipulating molecular communication, will find use in a variety of applications, particularly those employing natural or synthetic bacterial consortia. 相似文献
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[目的]研究天然群体感应抑制剂(Quorum sensing inhibitors,QSI)分子对海洋生态功能菌生物膜形成的影响.[方法]以对污损生物幼虫附着具有诱导作用的海洋细菌为目标菌,通过在其生物膜的形成过程中添加天然群体感应抑制剂,研究其对目标菌成膜细菌数和浮游细菌数、生物膜形态以及生物膜表面胞外多糖含量的影响.[结果]呋喃酮和吡啶在50 mg/L时,对8株目标菌的成膜有显著的抑制作用,抑制率在80%左右,吲哚、青霉烷酸和香豆素在较高浓度800 mg/L才有比较好的抑制活性.生长抑制实验结果显示,同等浓度下,QSI分子对目标菌成膜的抑制活性明显高于其对浮游细菌生长的抑制活性.结果表明,QSI分子主要通过干扰目标菌群体感应系统以抑制生物膜的形成.[结论]研究证实QSI分子在海洋菌生物膜形成过程中具有一定的调控作用.通过添加QSI可能能够间接抑制由生物膜诱导的污损生物附着,从而以新的角度研制新型抗污损物质. 相似文献
15.
《Saudi Journal of Biological Sciences》2017,24(2):324-330
Cell-to-cell communication or quorum sensing (QS) leads to biofilm formation and causing other virulence factors which are extreme problems for food safety, biofilm related infectious diseases etc. This study evaluated the anti-QS activity of the Amomum tsaoko extract (0.5–4 mg/ml) by using Chromobacterium violaceum a biosensor strain and biofilm formation by crystal violate assay. Experimental results demonstrated that the overall yield of Amomum tsao-ko extract was 11.33 ± 0.3% (w/w). MIC for Staphylococcus aureus (Gram positive), Salmonella Typhimurium and Pseudomonas aeruginosa (Gram negative) was 1, 2 and 2 mg/ml, respectively. A concentration of 4 mg/ml extract showed highest biofilm inhibition 51.96% on S. Typhimurium when 47.06%, 45.28% were shown by S. aureus, P. aeruginosa respectively. The damage of biofilm architecture was observed by Confocal Laser Scanning Microscopy (CLSM). A level of 44.59% inhibition of violacein production was demonstrated when the dose was 4 mg/ml. Swarming motility inhibition was observed in a dose dependent manner. Taken together, the treatment of A. tsaoko extract can deliver value to food product and medicine by controlling pathogenesis. 相似文献
16.
The genus Shewanella comprises about 70 species of Gram-negative, facultative anaerobic bacteria inhabiting various environments, which have shown great potential in various biotechnological applications ranging from environmental bioremediation, metal(loid) recovery and material synthesis to bioenergy generation. Most environmental and energy applications of Shewanella involve the biofilm mode of growth on surfaces of solid minerals or electrodes. In this article, we first provide an overview of Shewanella biofilm biology with the focus on biofilm dynamics, biofilm matrix, and key signalling systems involved in Shewanella biofilm development. Then we review strategies recently exploited to engineer Shewanella biofilms to improve biofilm-mediated bioprocesses. 相似文献
17.
Madiha Zaynab Huirong Chen Yufei Chen Liao Ouyang Xuewei Yang Zhangli Hu Shuangfei Li 《Saudi Journal of Biological Sciences》2021,28(3):1900-1912
Labrenzia sp. are important components of marine ecology which play a key role in biochemical cycling. In this study, we isolated the Labrenzia sp. PO1 strain capable of forming biofilm, from the A. sanguinea culture. Growth analysis revealed that strain reached a logarithmic growth period at 24 hours. The whole genome of 6.21813 Mb of Labrezia sp. PO1 was sequenced and assembled into 15 scaffolds and 16 contigs, each with minimum and maximum lengths of 644 and 1,744,114 Mb. A total of 3,566 genes were classified into five pathways and 31 pathway groups. Of them, 521 genes encoded biofilm formation proteins, quorum sensing (QS) proteins, and ABC transporters. Gene Ontology annotation identified 49,272 genes that were involved in biological processes (33,425 genes), cellular components (7,031genes), and molecular function (7,816 genes). We recognised genes involved in bacterial quorum sensing, attachment, motility, and chemotaxis to investigate bacteria's ability to interact with the diatom phycosphere. As revealed by KEGG pathway analysis, several genes encoding ABC transporters exhibited a significant role during the growth and development of Labrenzia sp. PO1, indicating that ABC transporters may be involved in signalling pathways that enhance growth and biofilm formation. 相似文献
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The emergence of multidrug resistance has become an alarming and lifethreatening phenomenon for humans. Various mechanisms are involved in the development of resistance in bacteria towards antimicrobial compounds and immune system. Bacterial biofilm is a complicated, selfdefensive, rigid structure of bacteria crowded together to develop a selfrecessive nature, which enhances the ability to cause infections much easier in the living host. P. aeruginosa biofilm formation is supported by extracellular polymeric substances (EPS) such as exopolysaccharides, extracellular DNA (eDNA), proteins and biomolecules. Published evidences suggest that biofilm formation can also be the result of several other mechanisms such as cell signaling or communication. Bacterial biofilm is also regulated by strong intercellular communication known as Quorum Sensing (QS). It is a cellular communication mechanism involving autoinducers and regulators. In P. aeruginosa, Acyl Homoserine Lactone, the prime signaling molecule, controls approximately 300 genes responsible for various cellular functions, including its pathogenesis. The surrounding environment and metabolism have a specific effect on the biofilm and QS, thus, understanding the involvement of QS in the biofilm developing mechanism is still complicated and complex to understand. Therefore, this review will include basic knowledge of the biofilmforming mechanism and other regulatory factors involved in causing infections and diseases in the host organisms. 相似文献
19.
目的观察LuxS基因缺失后变形链球菌生物膜成熟初期的变化情况。方法通过扫描电镜观察标准菌和缺陷菌在不同营养环境中生物膜成熟初期的形成情况。结果对不同营养环境中形成的生物膜观察,发现在富含蔗糖的环境中,缺陷菌成熟初期的生物膜形成能力较标准菌弱。结论 LuxS基因缺失后变形链球菌在蔗糖环境中生物膜形成的能力减弱。 相似文献
20.
In contrast to yeast biofilms, those of filamentous fungi are relatively poorly understood, in particular with respect to their regulation. Cunninghamella elegans is a filamentous fungus that is of biotechnological interest as it catabolises drugs and other xenobiotics in an analogous manner to animals; furthermore, it can grow as a biofilm enabling repeated batch biotransformations. Precisely how the fungus switches from planktonic to biofilm growth is unknown and the aim of this study was to shed light on the possible mechanism of biofilm regulation. In dimorphic yeasts, alcohols such as tyrosol and 2-phenylethanol are known to control the yeast-to-hypha switch, and a similar molecule might be involved in regulating biofilm in C. elegans. Gas chromatography-mass spectrometry analysis of crude ethyl acetate extracts from supernatants of 72 h planktonic and biofilm cultures revealed 3-hydroxytyrosol as a prominent metabolite. Further quantification revealed that the amounts of the compound in planktonic cultures were substantially higher (>10-fold) than in biofilm cultures. In the presence of exogenous 3-hydroxytyrosol the growth of aerial mycelium was inhibited, and there was selective inhibition of biofilm when it was added to culture medium. There was no biotransformation of the compound when it was added to 72 h-old cultures, in contrast to the related compounds tyrosol and 2-phenylethanol, which were oxidised to a number of products. Therefore, we propose that 3-hydroxytyrosol is a new signalling molecule in fungi, which regulates biofilm growth. 相似文献