荧光假单胞菌2P24中gidA基因对PcoI/PcoR群体感应系统的影响

【目的】荧光假单胞菌(Pseudomonas fluorescens)2P24中PcoI/PcoR群体感应系统是调控生物膜形成与植物根部定殖能力的重要元件,同时该系统也受到多种上游因子的调控。利用遗传学方法研究P.fluorescens 2P24中gidA基因对群体感应系统的调控作用。【方法】将群体感应信号合成基因pcoI的转录报告质粒p970km-pcoIp转入菌株2P24和gidA基因突变体中以检测gidA对pcoI基因表达的影响,并利用报告菌Agrobacterium tumefaciens NTL4(pZLR4)测定菌株2P24及其衍生菌的信号N-乙酰高丝氨酸内酯(AHL)产量。【结果】gidA基因突变后pcoI基因的转录表达和AHL产量与野生型2P24相比显著降低。gidA基因突变体的游动能力没有受到明显的影响,但生物膜的形成显著低于野生型和互补菌株。小麦根部定殖实验表明,温室条件下gidA突变菌株在灭菌土和自然土中对小麦根尖和根围的定殖量较野生型和互补菌显著减少。此外,突变gidA基因并不影响菌株在LB培养基中的生长,但以葡萄糖、蔗糖、果糖、甘油、半乳糖、阿拉伯糖、甘露糖、木糖或山梨醇为唯一碳源时,gidA突变体的生长受到明显的抑制。【结论】GidA对假单胞菌2P24中的PcoI/PcoR群体感应系统、生物膜形成、定殖和碳源利用具有显著的正调控作用。     

荧光假单胞菌2P24中opgGH基因影响抗生素2,4-二乙酰基间苯三酚的产生

【目的】抗生素2,4-二乙酰基间苯三酚(2,4-diacetylphloroglucinol,2,4-DAPG)是生防菌株荧光假单胞菌(Pseudomonas fluorescens) 2P24防治植物病害的关键因子,然而对2,4-DAPG生物合成的调控通路并未完全解析。【方法】前期利用Tn5随机突变的方法获得一株对棉花立枯丝核菌(Rhizoctonia solani)拮抗能力完全丧失的突变菌株W3,本研究利用基因互补等方法研究该突变体中被破坏的基因对菌株2P24分泌2,4-DAPG和其他生防相关性状的影响。【结果】Tn5插入位点及其序列分析表明突变菌株W3中Tn5破坏了opgG基因。鉴于opgG和opgH基因组成操纵子,利用同源重组技术构建了opgGH内缺失突变菌株。与野生菌株2P24相比,opgGH突变菌株中2,4-DAPG的产量显著降低。对其他生防相关性状的检测发现,突变opgGH基因并不影响群体感应系统(quorum sensing,QS)信号分子的产生、氢氰酸的产生以及生物膜的形成,但可抑制菌株2P24的游动性。转录融合实验进一步表明opgGH基因并不调控gacA基因及其调控...     

荧光假单胞菌2P24中PcoI-PcoR群体感应系统的自体反馈调控

荧光假单胞菌2P24的PcoI-PcoR 群体感应(QS)系统信号合成基因pcoI的表达受多种因子的调控, 其中GacS-GacA双因子调控系统在转录水平正调控信号合成基因pcoI的表达。为进一步研究QS系统调控因子, 将2P24基因组文库转入gacA缺失的pcoI基因转录报告菌株PM203 (pcoI-lacZ, gacA-), 筛选可提高pcoI表达的基因。结果表明粘粒pP32-24可显著提高pcoI转录水平, 亚克隆实验证明其中的功能基因为pcoI; 外源添加标准信号分子3-氧-己酰高丝氨酸内酯(3-oxo-C8-HSL)同样可显著提高pcoI基因的表达, 表明pcoI基因的表达对自身有正调控作用。同时构建了QS系统的另外一个组分pcoR基因的缺失突变体, pcoR基因缺失后pcoI的表达和N-乙酰高丝氨酸内酯信号分子(AHL)的产量明显低于野生菌株及其互补菌株, 并显著降低该菌株的生物膜(Biofilm)形成能力。这些结果表明菌株2P24的PcoI-PcoR QS系统中, 信号合成基因pcoI的表达受自体反馈调控, pcoR基因参与pcoI基因表达的调控以及生物膜的形成。     

不同碳源对生防荧光假单胞菌2P24产抗生素2,4-二乙酰基间苯三酚的影响

【目的】包括碳源代谢等不同环境因子可调控生防菌株生防相关因子表达,进而影响其防病效果。荧光假单胞菌2P24可防治多种植物病原真菌、细菌引起的土传病害,抗生素2,4-二乙酰基间苯三酚(2,4-diacetylphoroglucinol,2,4-DAPG)是其主要生防因子之一。本文利用平板对峙法及遗传学方法研究不同碳源对菌株2P24产生2,4-DAPG的影响及相关的调控途径。【方法】利用平板对峙法检测了菌株2P24在添加葡萄糖、果糖和蔗糖等碳源的土豆浸液培养基中对棉花立枯丝核菌(Rhizoctonia solani)的拮抗能力及菌株2P24中影响2,4-DAPG产生的相关基因的表达。另外,利用Tn5转座子对含有2,4-DAPG合成基因phl A报告质粒p970Gm-phl Ap的野生型菌株2P24进行随机突变,在果糖土豆浸液培养基中筛选提高phl A基因表达的突变菌株。【结果】平板对峙实验表明,菌株2P24以葡萄糖为碳源时其抑菌活性最强,蔗糖次之,而以果糖等为碳源时菌株2P24无抑菌活性;转录融合实验进一步表明葡萄糖可促进phl A基因的表达,果糖则不影响phl A基因的表达。在果糖土豆浸液培养基中,转座子随机突变实验获得了5株可明显提高phl A基因表达的突变菌株。Tn5插入位点和序列分析显示其中一个突变体是Tn5破坏了che B基因。转录检测表明与野生菌株相比,che B突变体中phl A基因的表达和2,4-DAPG的前体物质间苯三酚(phloroglucinol,PG)产量都显著提高。游动性实验发现突变che B基因可显著降低该菌株的游动性。【结论】上述结果表明菌株2P24中不同碳源在转录水平上可影响phl A基因的表达,进而影响2,4-DAPG产生。遗传学结果也显示,che B基因参与调控2,4-DAPG生物合成过程。     

荧光假单胞杆菌2P24中gacA、dsbA和phoP/phoQ基因对小RNA因子RsmZ的转录调控

Pseudomonas fluorescens 2P24是分离自麦田的植物病害生物防治菌株,产生抗生素2, 4-二乙酰基间苯三酚（2,4-diacetylphloroglucinol;2,4-DAPG）是其主要防病机制。菌株2P24中小RNA基因rsmZ正调控抗生素2,4-DAPG的产量。【目的】本文研究上游调控因子对RsmZ转录表达的影响,以进一步理解抗生素产生机制。【方法】构建了rsmZ: : lacZ的转录融合结构,将含有该结构的报告载体转入2P24的多个调控基因缺失突变体中,检测相应的缺失基因对rsmZ转录水平的调控作用。【结果】结果表明,反应调控因子GacA对rsmZ基因的转录具有正调控作用,二硫键合成蛋白DsbA对其负调控;双因子调控系统PhoP/PhoQ突变后,rsmZ基因的转录明显滞后。【结论】小RNA基因rsmZ在菌株2P24中受到多个基因的调控,并在信号传递网络中起到重要作用。     

MvaT调控铜绿假单胞菌吩嗪的合成机制

【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。     

抗生素2,4-二乙酰基间苯三酚作为荧光假单胞菌2P24菌株生防功能因子的实证分析

荧光假单胞杆菌2P24菌株分离自小麦全蚀病自然衰退土壤,它是酚类抗生素2,4-二乙酰基间苯三酚(2,4-DAPG)的高产菌,对多种土传病害具有较好的防治能力。利用同源重组构建2,4-DAPG合成基因的定位突变体,并对突变体进行基因互补,通过检测突变菌株和恢复突变菌株抗生素产量和生防效果确定2,4-DAPG在菌株2P24生防功能中的作用。实验中,定位突变体丧失产生抗生素和拮抗病原菌的能力,而恢复突变体的抗生素产量和拮抗能力均恢复至野生菌水平。在对番茄青枯病的防病试验中,2,4-DAPG突变体的防效低且下降快,而恢复突变体的生防能力与野生菌相当,且效果稳定。由此可确定2,4-DAPG是菌株2P24防治番茄青枯病的主要因子,在防效上起关键作用。     

BldM对密旋链霉菌Act12形态发育及抗生素合成的调控

【目的】以多效生防菌株——密旋链霉菌(Streptomyces pactum) Act12为研究材料，探究转录因子BldM对生防链霉菌Act12形态发育及抗生素合成的调控作用。【方法】通过基因工程手段构建bldM基因缺失突变株△bldM及过表达突变株OE-bldM，利用扫描电镜观察、抑菌实验、高效液相色谱检测和实时荧光定量PCR探究缺失突变株△bldM及过表达突变株OE-bldM与野生型(wild) Act12在形态发育、生长速率、寡霉素产量及抗病原菌能力等方面的差异。【结果】经测序验证bldM基因缺失突变体△bldM及过表达突变体OE-bldM均构建成功，其中△bldM寡霉素D产量明显降低且无法形成气生菌丝，而过表达突变株OE-bldM的气生菌丝更加密集，产孢更为丰富。与野生型菌株相比，OE-bldM的寡霉素D产量增加了23%，编码寡霉素核心合成酶基因的转录水平上调了2-3倍，抑菌活性显著增强。【结论】全局性转录调控因子BldM不但能影响Act12气生菌丝及孢子形成，并且参与正调控Act12寡霉素的合成，本研究结果为转录因子BldM的调控功能进行了新的挖掘和补充，并为后续深入研究密旋...     

粗糙脉孢菌转录因子LAH-3参与渗透压调控

【目的】通过构建转录因子lah-3基因缺失突变体,研究lah-3基因缺失突变体菌株的渗透压表型,进而探究lah-3基因在渗透压调控中的作用。【方法】采用同源基因重组敲除技术构建lah-3基因缺失突变体。用4%NaCl和1 mol/L Sorbitol进行渗透压处理。利用Northern blot检测渗透压应答基因的表达。利用Westhern blot检测LAH-3蛋白磷酸化修饰水平,OS-2蛋白的表达水平及其磷酸化修饰水平。【结果】在转录因子lah-3基因缺失突变体中,渗透压应答基因gcy-1、stl-1以及pck-1的表达水平都明显降低,而且在渗透压刺激下,LAH-3蛋白磷酸化修饰水平升高。LAH-3的磷酸化修饰不受OS-2调控。lah-3基因的缺失既不影响OS-2蛋白的表达水平,也不影响其在渗透压刺激后的磷酸化修饰。【结论】粗糙脉孢菌中转录因子LAH-3参与调控渗透压应答基因的转录,但其响应过程不依赖于OS-2 MAPK信号通路。     

卡西霉素生物合成调控基因calR2的功能

【背景】卡西霉素(Calcimycin)是由教酒链霉菌NRRL3882产生的吡咯聚醚类抗生素,结构独特且具有广泛的生物活性,但其生物合成调控机制尚不清楚。【目的】研究卡西霉素生物合成基因簇上编码LuxR家族同源蛋白的潜在调控基因calR2的功能。【方法】通过PCR-targeting的方法对卡西霉素基因簇上的calR2基因进行中断,HPLC对突变株及回补菌株的代谢产物进行分析。利用荧光定量RT-PCR分析ΔcalR2突变菌株和野生菌株的基因转录水平差异。【结果】calR2基因中断的突变株不能产生卡西霉素,回补菌株则恢复产生卡西霉素的能力。RT-PCR结果表明卡西霉素生物合成的一些重要骨架基因在ΔcalR2突变株中的转录水平明显降低。【结论】LuxR家族转录调控基因calR2在卡西霉素生物合成过程中起正调控作用。     

Two novel MvaT-like global regulators control exoproduct formation and biocontrol activity in root-associated Pseudomonas fluorescens CHA0

Pseudomonas fluorescens CHA0 protects various crop plants against root diseases caused by pathogenic fungi. Among a range of exoproducts excreted by strain CHA0, the antifungal compounds 2,4-diacetylphloroglucinol (DAPG) and pyoluteorin (PLT) are particularly relevant to the strain's biocontrol potential. Here, we report on the characterization of MvaT and MvaV as novel regulators of biocontrol activity in strain CHA0. We establish the two proteins as further members of an emerging family of MvaT-like regulators in pseudomonads that are structurally and functionally related to the DNA-binding protein H-NS. In mvaT and mvaV in frame-deletion mutants of strain CHA0, PLT production was enhanced about four- and 1.5-fold, respectively, whereas DAPG production remained at wild-type levels. Remarkably, PLT production was increased up to 20-fold in an mvaT mvaV double mutant. DAPG biosynthesis was almost completely repressed in this mutant. The effects on antibiotic production could be confirmed by following expression of gfp-based reporter fusions to the corresponding biosynthetic genes. MvaT and MvaV also influenced levels of other exoproducts, motility, and physicochemical cell-surface properties to various extents. Compared with the wild type, mvaT and mvaV mutants had an about 20% reduced capacity (in terms of plant fresh weight) to protect cucumber from a root rot caused by Pythium ultimum. Biocontrol activity was nearly completely abolished in the double mutant Our findings indicate that MvaT and MvaV act together as further global regulatory elements in the complex network controlling expression of biocontrol traits in plant-beneficial pseudomonads.     

Transposon Tn5 mutagenesis of Pseudomonas fluorescens to isolate mutants deficient in antibacterial activity

Abstract Pseudomonas fluorescens was subjected to insertion mutagenesis studies using the transposon Tn5-GM to generate mutants deficient in antibacterial activity minus mutants. The transposon located on the temperature-sensitive plasmid pCHR84 was conjugally transferred into the non-pathogenic pseudomonad using the triparental mating procedure. Random integration of Tn 5 -GM into the chromosome of P. fluorescens was achieved by heat ttreatment of the transformed cells at 42°C. Approximately 2% of transconjugants revealed an auxotrophic phenotype indicating efficient integration of the employed transposon into the chromosome of P. fluorescens . One transposon insertion mutant was obtained showing an antibacterial activity minus phenotype. This mutant (MM-7) was found to be defective in the production of an unidentified antibacterial compound against B. subtilis . These results introduce Tn 5 transposon mutagenesis as a new useful tool for the molecular analysis of P. fluorescens .     

Thiamine-auxotrophic mutants of Pseudomonas fluorescens CHA0 are defective in cell-cell signaling and biocontrol factor expression

In the biocontrol strain Pseudomonas fluorescens CHA0, the Gac/Rsm signal transduction pathway positively controls the synthesis of antifungal secondary metabolites and exoenzymes. In this way, the GacS/GacA two-component system determines the expression of three small regulatory RNAs (RsmX, RsmY, and RsmZ) in a process activated by the strain's own signal molecules, which are not related to N-acyl-homoserine lactones. Transposon Tn5 was used to isolate P. fluorescens CHA0 insertion mutants that expressed an rsmZ-gfp fusion at reduced levels. Five of these mutants were gacS negative, and in them the gacS mutation could be complemented for exoproduct and signal synthesis by the gacS wild-type allele. Furthermore, two thiamine-auxotrophic (thiC) mutants that exhibited decreased signal synthesis in the presence of 5 x 10(-8) M thiamine were found. Under these conditions, a thiC mutant grew normally but showed reduced expression of the three small RNAs, the exoprotease AprA, and the antibiotic 2,4-diacetylphloroglucinol. In a gnotobiotic system, a thiC mutant was impaired for biological control of Pythium ultimum on cress. Addition of excess exogenous thiamine restored all deficiencies of the mutant. Thus, thiamine appears to be an important factor in the expression of biological control by P. fluorescens.     

Conjugative transfer of plasmid RP1 to soil isolates of Pseudomonas fluorescens is facilitated by certain large RP1 deletions

Abstract The broad-host-range IncP plasmid RP1 could not be transferred by conjugation from Escherichia coli to Pseudomonas fluorescens strain CHA0. However, this conjugative transfer was possible with RP1 derivatives which had large deletions extending from the primase gene towards the Tra-2 region, thus lacking the kanamycin resistance gene and IS 21 . Such RP1 deletion derivatives permitted IncP cosmid mobilization to P. fluorescens CHA0 and could be used as vectors for transposon mutagenesis with a newly constructed Tn 5 derivative (carrying kanamycin and mercury resistance determinants) in strain CHA0 and another P. fluorescens soil isolate, strain S9.