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1.
[目的]绿针假单胞菌GP72是一株可生产吩嗪类抗生素吩嗪-1-羧酸(PCA)及2-羟基吩嗪(2-OH-PHZ)的生防假单胞菌.RpeA/RpeB双元调控系统是其双元调控系统中的一组,本文旨在研究这一系统中的应答调控子(RR)RpeB对于PCA及2-OH-PHZ的生物合成影响.[方法]通过生物信息学分析获得了rpeA/rpeB双元调控系统的序列,并从GP72中扩增出rpeB基因,通过同源重组技术构建卡那霉素抗性片段插入突变rpeB的突变菌株GP72BN.利用发酵实验、rpeB基因回补实验及荧光定量PCR实验,验证rpeB对于吩嗪类抗生素合成及相关基因表达的调控作用.[结果]在KMB培养基中,rpeB突变株的PCA产量下降为野生型的49.5%,2-OH-PHZ产量下降为野生型的67.3%.rpeB基因的回补可以在一定程度上回复PCA及2-OH-PHZ的产量.荧光定量PCR实验结果表明,rpeB突变株中群体感应系统基因phzI/phzR及吩嗪合成基因簇基因phzE转录水平均显著下调,而PCA转化为2-OH-PHZ的修饰基因phzO转录水平变化不显著.[结论]RpeB正调控PCA与2-OH-PHZ合成途径的表达.RpeB很可能是通过调控群体感应基因phzI/phzR和phz基因簇的表达,从而影响PCA的合成,并间接调控其衍生物2-OH-PHZ的合成.  相似文献   

2.
吩嗪是由假单胞菌或链霉菌产生的一类具有抗菌、抗肿瘤和抗寄生虫活性的含氮杂环代谢物,在农业和医疗领域具有广泛的应用.但吩嗪的合成受到复杂的级联网络调控.本文总结了假单胞菌属中双组分信号转导系统(two-component signal transduction system,TCS)对吩嗪生物合成的调控机制,阐明在双组分...  相似文献   

3.
【目的】绿针假单胞菌GP72是一种植物根围促生细菌,其分泌的次级代谢产物2-羟基-吩嗪(2-OH-PHZ)具有广谱抗真菌活性,但其产量较低,不能满足农业生产的应用需求,因此需对GP72进行改造,从而提高产量。【方法】从GP72的野生株出发,首次将2-OH-PHZ合成途径的限制性因子Phz O用绿色荧光蛋白(GFP)替换,以一种新型的常压室温等离子体技术(Atmospheric and room temperature plasma,ARTP)进行诱变,通过酶标仪测定96孔板中突变株的荧光强度进行高通量筛选;最后将荧光强度高的菌株中绿色荧光蛋白(Green fluorescent protein,GFP)替换为Phz O以获得2-OH-PHZ高产突变株。【结果】经过五轮诱变后,获得一株荧光强度增加1.62倍的突变株,用phz O基因回替后,该突变株在KB培养基中摇瓶培养时2-OH-PHZ的产量为野生型的4.62倍。【结论】基于安全、高效ARTP诱变技术,并以GFP替换限制性因子作为标记进行高通量筛选,可以快速获得高产2-OH-PHZ的GP72突变株,克服了传统诱变育种方法筛选难度大、费时费力的不足,为其它微生物的育种提供了参考。  相似文献   

4.
群体感应(Quorum sensing,QS)是近来受到广泛关注的一种细菌群体行为调控机制,通过感应一些信号分子如酰基高丝氨酸环内酯(acyl-homoserine lactone,AHL)来判断菌群密度和周围环境变化,假单胞菌中同样也有AHL信号分子,当信号达到一定的浓度阈值时,能启动菌体中相关基因的表达来适应环境中的变化,从而调节菌体的群体行为(如致病性及群体生长调节)。众多报道说明了假单胞菌的群体感应调节系统是由一些全面的调节子所调控的。本文系统介绍了假单胞菌群体感应调控系统,并分析假单胞菌在该系统中复杂的应答反应。  相似文献   

5.
[背景]绿针假单胞菌(Pseudomonaschlororaphis)HT66是一株兼具生防安全性和吩嗪-1-甲酰胺(Phenazine-1-Carboxamide,PCN)高产的植物根际促生菌,在生物防治、生态农业及可持续发展农业领域具有广阔的应用前景.非编码RNA(ncRNA)SuhB参与了细胞中多个过程的代谢调控...  相似文献   

6.
铜绿假单胞菌中群体感应系统研究进展   总被引:1,自引:0,他引:1  
群体感应系统(Quorum-sensing system,QS)是一个依赖于细胞数量的基因调控系统。系统中的自诱导物(Autoinducer或AI)随细胞的数量增加而变化,当细胞数达到一定数量时,系统中的自诱导物达到一定的域值时可以与一类转录调节蛋白结合,开始诱导或抑制数量众多的基因表达,使细菌表现多细胞特性的群体行为。同时,群体感应系统受到许多外界环境因素的影响,其调节途径是一个极其复杂的级联过程。此外,以群体感应系统为药物靶点来筛选新型抗菌药物越来越受到人们的重视。结合作者本人的工作及铜绿假单胞菌中群体感应系统的最新研究进展,对该系统在铜绿假单胞菌中的作用及其调控途径进行分析、探讨和总结。  相似文献   

7.
一株来自大棚温室甜椒根际的绿针假单胞菌Pseudomonas chlororaphis G-05,可分泌抗生物质吩嗪-1-羧酸,并具有抑制辣椒疫霉的生物防治功效。【目的】为了系统研究该菌株的生物防治功能及抗生物质合成与分泌机制。【方法】首先通过生化法和16S rDNA同源比对法对该菌株进行系统分类的初步鉴定,再根据基因的同源性从G-05基因组DNA中克隆长1.4 kb的gacS基因的部分保守区段,采用抗庆大霉素基因(gentamycin resistance cassette, aacC1)插入失活的策略构建了该基因突变株G-05S。【结果】在King’ s B(KMB)或PPM培养基中,突变株G-05S合成吩嗪-1-羧酸的能力受到明显抑制。然而,突变株G-05S分泌的吲哚乙酸与野生株相比无显著差异。互补实验表明,gacS基因的表达可以使突变株G-05S的吩嗪-1-羧酸的合成恢复到野生株水平。【结论】由此推测,GacS(Global activator sensor )对不同次生代谢物的调控具有特异性。  相似文献   

8.
【背景】植物根部存在大量对植物生长有促进或对病原菌有拮抗作用的有益细菌,是当前农业微生物研究的热点之一。其中,绿针假单胞菌HT66是一株可高效合成吩嗪-1-甲酰胺(PCN)的环境友好型生防菌株。【目的】探究在绿针假单胞菌HT66中ompR基因的生理功能,以及其对菌株生防作用的影响。【方法】通过基因无痕敲除的方法构建HT66菌株的ompR基因缺失突变株,对比研究突变株与野生株在生长速率、渗透压感应、生物膜的合成、pH耐受性、群集运动和PCN产量的变化。【结果】与野生株相比,ompR基因缺失突变株的细胞生物量微量减少,生物膜的合成减少31.5%,群集运动以及对渗透压和pH的耐受性明显下降,但是其PCN产量较野生株提高了57.8%。【结论】在HT66菌株中,ompR基因对其运动性、环境耐受性和生理生防功能均有一定程度的调控作用。本研究丰富了绿针假单胞菌的代谢通路,此报道将对后续PCN合成机制的研究和应用提供一定的理论依据。  相似文献   

9.
假单胞菌所合成的环脂肽是一类由环状的寡肽连接一个脂肪酸链组成的两亲性分子,利用巯基化模块由非核糖体肽合成酶合成。环脂肽的生物合成受到严格、复杂的调控,GacS/GacA双组分系统和群体感应系统是其中两类重要的调控系统。本文总结假单胞菌合成环脂肽的调控机制及相关调控因子;对基于PCR的高通量分子筛选方法获取特定环脂肽进行分析,同时对基于调控机制的遗传改造提高假单胞菌产环脂肽的能力和获取更多新型环脂肽等方面的应用进行 展望。  相似文献   

10.
【背景】属于H-NS家族的MvaT转录因子参与了铜绿假单胞菌的许多重要代谢过程,如吩嗪合成代谢,但其调控方式仍不十分明确。【目的】确定转录调控因子MvaT是否直接调控铜绿假单胞菌的吩嗪合成过程,即该蛋白是否可以直接结合2个吩嗪-1-羧酸合成基因簇(phzA1G1和phzA2G2)与3个分支转化基因(phzH、phzS和phzM)的上游启动子区域。【方法】以铜绿假单胞菌SJTD-1和其mvaT基因敲除突变株SJTD-1(ΔmvaT)为研究对象,检测其在不同培养基条件下吩嗪化合物的合成量差异。通过体外异源表达与亲和纯化,获得重组蛋白MvaT。利用凝胶阻滞实验,确定MvaT重组蛋白对5个吩嗪代谢基因簇/基因上游启动子的结合情况。【结果】mvaT基因敲除突变株SJTD-1(ΔmvaT)的吩嗪产量较野生型显著提升。MvaT重组蛋白被有效表达与纯化,体外凝胶阻滞实验结果显示,该重组蛋白可与phzA1G1、phzA2G2、phzM、phzS和phzH的上游启动子区域均发生特异性结合。其中,重组蛋白MvaT与phzA1G1和phzA2G2的结合区域位于其上游启动子的200 bp以内,而该蛋白与phzM、phzS和phzH的结合区域则位于其上游启动子的100 bp以内。【结论】MvaT蛋白通过直接结合吩嗪合成代谢基因的上游启动子区域来直接调控假单胞菌的吩嗪类化合物合成。  相似文献   

11.
Cinnabarinic acid is a valuable phenoxazinone that has broad applications in the pharmaceutical, chemical, and dyeing industries. However, few studies have investigated the production of cinnabarinic acid or its derivatives using genetically engineered microorganisms. Herein, an efficient synthetic pathway of cinnabarinic acid was designed and constructed in Pseudomonas chlororaphis GP72 for the first tim, which was more straightforward and robust than the known eukaryotic biosynthetic pathways. First, we screened and identified trans-2,3-dihydro-3-hydroxyanthranilic acid (DHHA) dehydrogenases from Escherichia coli MG1655 (encoded by entA), Streptomyces sp. NRRL12068 (encoded by bomO) and Streptomyces chartreusis NRRL3882 (encoded by calB3) based on the structural similarity of the substrate and product, and the DHHA dehydrogenase encoded by calB3 was selected for the synthesis of cinnabarinic acid due to its high DHHA conversion rate. Subsequently, cinnabarinic acid was synthesized by the expression of the DHHA dehydrogenase CalB3 and the phenoxazinone synthase CotA in the DHHA-producing strain P. chlororaphis GP72, resulting in a cinnabarinic acid titer of 20.3 mg/L at 48 hr. Further fermentation optimization by the addition of Cu2+, H2O2, and with adding glycerol increased cinnabarinic acid titer to 136.2 mg/L in shake flasks. The results indicate that P. chlororaphis GP72 may be engineered as a microbial cell factory to produce cinnabarinic acid or its derivatives from renewable bioresources.  相似文献   

12.
Quorum sensing is a global gene-regulatory mechanism in bacteria that enables individual bacterial cells to communicate and coordinate their population behaviors. Quorum sensing is central to the pathogenesis of many bacterial pathogens including Pseudomonas aeruginosa and therefore has been exploited as a target for developing novel antipathogenic drugs. In P. aeruginosa , three intertwined quorum-sensing systems, las, rhl , and the 2-alkyl-4(1 H )-quinolone system, which includes the Pseudomonas quinolone signal (PQS), control virulence factor production, and pathogenesis processes. Previously, we obtained a mutant with diminished expression of the phzA1B1C1D1E1F1G1 operon that is involved in the production of virulence factor phenazine compounds. In this study, the mutant was further characterized, and evidence indicating that the disrupted gene PA1196 in the mutant is a potential regulator of the rhl and PQS systems is presented. PA1196 positively controls the expression of the rhl and PQS systems and affects bacterial motility and multiple virulence factor expression via the quorum-sensing systems. This adds an important new player in the complex quorum-sensing network in P. aeruginosa .  相似文献   

13.
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14.
内生菌Pseudomonas sp. G5 phzIR基因的克隆与表达   总被引:2,自引:0,他引:2  
假单胞菌菌株G5是分离自香菜(Coriandrum sativumL.)茎内的一株内生菌,经BIOLOG系统分析其底物利用图谱,初步鉴定为桔黄假单胞菌Pseudomonas aurantiaca。大量研究已表明许多革兰氏阴性细菌应用群体感应系统,通过感应扩散性小信号分子―乙酰基高丝氨酸内酯(N-acyl homoserine lactones,AHLs),以种群密度依赖的方式调控基因表达,控制植物相关细菌的多种表型。本研究组合应用AHLs检测菌株Chromobacterium violaceum CV026和薄层层析分析,初步检测出菌株G5可产生几种可检测水平的AHLs信号分子,其中以N-hexanoyl-homoserine lactone(C6-HSL,HHL)为主,迁移率Rf值为0.4。进一步克隆和测序了该菌株中由PhzI和PhzR组成的群体感应quorumsensing系统的编码基因phzIR,并在大肠杆菌中异源表达了AHLs信号分子合成酶基因phzI。序列和系统进化分析表明它们与假单胞菌属其他的phzIR基因有高度同源性和进化上的保守性。  相似文献   

15.
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16.
为探讨铜绿假单胞菌 PAO1 中 lasR 和 rhlR 基因表达产物的分子生物学特性,研究它们对铜绿假单胞菌生物被膜形成的影响以及对小鼠的免疫保护效果,采用聚合酶链式反应 (PCR) 方法扩增铜绿假单胞菌标准株 PAO1 中的 lasR 和 rhlR 基因,全自动荧光测序仪测序,并用 Blast 方法检测克隆片段. 利用 pGEX4T-1 载体分别构建 lasR/rhlR-pGEX4T-1 重组质粒,在大肠杆菌 BL21(DE3)中诱导表达,并经过免疫印迹实验验证其生物学活性. 用硅胶膜培养法建立生物被膜模型,诱导转入了pGFPuv 质粒的铜绿假单胞菌 PAG0305 形成生物被膜,并测定 LasR 蛋白和 RhlR 蛋白对生物被膜形成的影响. 同时用纯化的重组蛋白免疫小鼠,菌落计数法检测免疫组和对照组鼠肺对铜绿假单胞菌的清除率. 以 PAO1 染色体 DNA 为模板的 PCR 结果显示,lasR 的全基因序列为 720 bp,rhlR 基因序列为 726 bp,经序列分析和同源性比较分别与 GenBank 中 lasR/rhlR 基因(登录号:M59425; AE004768) 的同源性为 100%. 大肠杆菌 BL21 (DE3) 分别转化重组质粒 lasR/rhlR-pGEX4T-1 后,经 IPTG诱导和 SDS- 聚丙烯酰胺凝胶电泳分析,表达的融合蛋白分子质量均为 54 ku 左右,与预期蛋白质分子质量相同. 荧光显微镜观察和测定结果表明,在硅胶膜上 PAG0305 能够形成典型的发荧光的生物被膜,LasR 或 RhlR 蛋白 (10 mg/L) 存在的情况下,PAG0305 生物被膜的形成速度在前三天比对照组平均提高 40.77%,而且两蛋白单独存在与同时存在时的作用相同. 体内实验中,免疫小鼠肺部对铜绿假单胞菌的清除率显著高于未经免疫的正常组 (P < 0.05). 上述结果表明:构建的lasR/rhlR-pGEX4T-1 重组质粒能够在大肠杆菌 BL21(DE3)中成功地表达并具有生物学活性. LasR/RhlR 蛋白在体外模型中能够加快铜绿假单胞菌生物被膜的形成速度,是调节铜绿假单胞菌生物被膜形成的重要因素之一. 免疫结果表明,重组蛋白对小鼠表现出一定的保护作用,这为进一步开展疫苗研究奠定了基础.  相似文献   

17.
Oxygen uptake and glucose and glutamate oxidation kinetics of the heterotrophic bacterium Pseudomonas chlororaphis grown in glucose- or glutamate-limited cultures under oxygen-saturating or oxygen-limiting conditions were determined. K m values for oxygen were 1.4– 5.6 μM. Only in the case of glucose were significantly lower K m values and enhanced specific oxygen affinity (V max/K m) per cell found under oxygen-limiting conditions. Both K m and specific affinity values for glucose and glutamate oxidation were apparently affected by oxygen concentration, although a statistically significant enhancement of the oxidation kinetics was found only for glutamate. The kinetic data found for P. chlororaphis support the conclusion that the outcome of competition for oxygen with Nitrosomonas europaea in the rhizosphere of oxygen-releasing macrophytes will primarily be determined by oxidation kinetics of the electron donor instead of the oxygen uptake kinetics of the respective organisms. Received: 20 September 1996 / Accepted: 5 February 1997  相似文献   

18.
The emergent macrophyte Glyceria maxima was subjected to different photoperiods and grown with ammonium or nitrate as nitrogen source in presterilized microcosms with spatially separated root and non-root compartments. The microcosms were inoculated with the denitrifying bacterium Pseudomonas chlororaphis. The effect of the plant and the photoperiod on growth and denitrification by P. chlororaphis was assessed. The plant had a strong positive effect on the growth of the bacteria. The bacterial numbers in the root compartment of the planted microcosms were 19-32 times higher than found in the non-root sediment of the unplanted systems. Lengthening the photoperiod resulted in elevated bacterial numbers due to the higher carbon exudation of the plant. This effect was greater still with the nitrate-fed plants, where additional P. chlororaphis growth could proceed via denitrification, indicating oxygen-limiting conditions in the microcosms. Higher porewater N2O concentrations in the root compartments as compared to the non-root compartments, which were highest for the long photoperiod, were also indicative of a plant-induced stimulation of denitrification. An effect of a diurnal oxygen release pattern of G. maxima on denitrification could not be detected. The gnotobiotic microcosm used in this study represents a potential system for the study of the behaviour and interactions of important bacterial groups, such as nitrifying and denitrifying bacteria where plant roots drive bacterial activity.  相似文献   

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