Biological Control of Black Rot (Xanthomonas campestris pv. campestris) of Cabbage in Tanzania with Bacillus strains

We evaluated the biocontrol efficacy of strains of Bacillus from Tanzania against the black rot pathogen, Xanthomonas campestris pv. campestris, in cabbage and the influence of the method of application under field conditions. The incidence and severity of black rot in the foliage, stems and heads of the highly susceptible cultivar, Copenhagen Market, were significantly reduced, especially when antagonists were applied through the roots as compared to application through the seeds or foliage (cotyledons). Promising antagonists included strains of B. cereus, B. lentimorbus and B. pumilus.     

MarR家族转录因子HpaR和XC0449协同调控野油菜黄单胞菌致病性

MarR家族转录因子广泛存在于细菌及古生菌中,并灵活、精细地调控多种毒力、抗胁迫及抗生素相关的生理生化途径。在野油菜黄单胞菌中,MarR家族转录因子HpaR (XC2827)的失活会显著降低细菌对于寄主甘蓝的致病力,同时会导致胞外蛋白酶的过量表达。本研究进一步发现,Xcc 8004基因组一共编码9个MarR家族转录因子。表达并纯化其中的HpaR (XC2827)和XC0449,体外微量热泳动(MST)实验及Pull-down实验证明二者可以在体外特异性结合。同时,表型检测发现XC0449突变会导致细菌致病力显著下降。通过体外凝胶迁移阻滞试验(EMSA)、体内qRT-PCR和GUS检测证明,XC0449和HpaR均作为转录激活子协同调控下游致病相关基因XC0705的表达,最终调控细菌毒力及胞外酶合成。     

野油菜黄单胞菌野油菜致病变种中一个与EPS合成有关的新基因的鉴定

用转座子Tn5gusA5对野油菜黄单胞菌野油菜致病变种(Xanthomonas campestris pv.campestris,简称Xcc)野生型菌株8004进行诱变,分离到一批胞外多糖(EPS)合成减少的突变体。采用TAIL-PCR(thermal asymmetric interlaced PCR)分析突变体的Tn5gusA5插入位点,发现其中一株编号为151D09的突变体的插入位点位于Xcc 8004菌株的基因组编号为XC3695的ORF内,该ORF功能尚未见报道。序列分析表明,该ORF演绎的编码产物与Serratia marcescens的kdtX基因和Klebsiella pneumoniae的waaE基因演绎的编码产物分别具有52%和50%的相似性,并具有第2家族糖基转移酶的功能域, 因此暂将该ORF命名为waxE基因。用同源双交换方法构建了waxE基因的缺失突变体,并采用PCR和Southern杂交的方法对突变体进行了验证。waxE基因缺失突变体在营养丰富培养基的生长繁殖不受影响,但其EPS产量与野生型菌株8004相比,降低35%左右,并且一段PCR合成的包含waxE基因的DNA片段能反式互补waxE基因缺失突变体,恢复缺失突变体的EPS产量,表明Xcc waxE基因与EPS的生物合成有关。     

野油菜黄单胞菌野油菜致病变种8004菌株wxcA基因与EPS的产量有关

在以前的工作中,采用转座子Tn5 gusA5对野油菜黄单胞菌野油菜致病变种(Xcc)8004菌株进行诱变,获得一批胞外多糖(EPS)合成减少的突变体,对这些突变体的Tn5 gusA5的插入位点进行分析后,发现有两株突变体是wxcA基因不同插入位点的突变体。以前认为wxcA基因与脂多糖(LPS)的O-抗原合成有关而与EPS的合成无关。为明确wxc4基因的功能,对8004菌株的wxcA基因进行缺失,获得的△wxcA突变体的EPS产量与野生型菌株相比,减少了50％,并且一段PCR合成的包含wxcA基因的DNA片段能反式互补△wxcA突变体,恢复突变体的EPS产量。这证实了8004菌株的wxcA基因与EPS的合成产量有关。     

hxc2, an Arabidopsis mutant with an altered hypersensitive response to Xanthomonas campestris pv. campestris

A chemical mutagenized population of Arabidopsis Col-0-gl plants was screened for an altered hypersensitive response (HR) after spray inoculation with an HR-inducing isolate of Xanthomonas campestris pv. campestris (strain 147). Three classes of mutant were identified: those exhibiting an HR- phenotype or partial loss of HR; hyper-responsive mutants showing necrotic lesions rapidly leading to the collapse of leaves; and susceptible mutants. One mutant belonging to the susceptible class, hxc-2, was extensively characterized. The compatible phenotype observed several days after initiation of the interaction was confirmed by measurement of in planta bacterial growth and use of bacterial strains constitutively expressing the GUS reporter gene. In the same way, accumulation of autofluorescent compounds, salicylic acid production and defence gene expression in the mutant were found to be similar to that displayed by the susceptible ecotype. Inoculation of hxc-2 with different avirulent bacteria suggests that the mutation is specific for the interaction with the Xcc 147 strain, although the mutation has been shown to affect a single dominant locus, different from the resistance locus defined by genetic analysis of resistance to Xcc 147. Genetic mapping of the mutation indicated that it is located on chromosome III, defining a previously unknown resistance function in response to X. c. campestris.     

Comprehensive analysis of the extracellular proteins from Xanthomonas campestris pv. campestris B100

The extracellular proteome of Xanthomonas campestris pv. campestris (Xcc) cultivated in minimal medium was isolated from the cell-free culture supernatant and separated by two-dimensional gel electrophoresis. This technique resolved 97 clearly visible protein spots, which were excised, digested with trypsin and identified on the basis of their peptide mass fingerprints generated by matrix assisted laser desorption/ionisation-time of flight-mass spectrometry. Using this approach 87 different proteins could be distinguished. The Signal P software predicted putative signal peptides for 53% of the extracellular proteins. These proteins are probably transported over the inner membrane and are localized in the periplasm, the outer membrane or secreted into the extracellular space. Among the secreted proteins are 11 degradative enzymes, which are involved in pathogenesis of Xcc. The proteins without obvious secretion signals are known to serve functions in the cytosol. How the cytosolic proteins are delivered to the extracellular space remains unclear.     

A novel 3-oxoacyl-ACP reductase (FabG3) is involved in the xanthomonadin biosynthesis of Xanthomonas campestris pv. campestris

Xanthomonas campestris pv. campestris (Xcc), the causal agent of black rot in crucifers, produces a membrane-bound yellow pigment called xanthomonadin to protect against photobiological and peroxidative damage, and uses a quorum-sensing mechanism mediated by the diffusible signal factor (DSF) family signals to regulate virulence factors production. The Xcc gene XCC4003, annotated as Xcc fabG3, is located in the pig cluster, which may be responsible for xanthomonadin synthesis. We report that fabG3 expression restored the growth of the Escherichia coli fabG temperature-sensitive mutant CL104 under non-permissive conditions. In vitro assays demonstrated that FabG3 catalyses the reduction of 3-oxoacyl-acyl carrier protein (ACP) intermediates in fatty acid synthetic reactions, although FabG3 had a lower activity than FabG1. Moreover, the fabG3 deletion did not affect growth or fatty acid composition. These results indicate that Xcc fabG3 encodes a 3-oxoacyl-ACP reductase, but is not essential for growth or fatty acid synthesis. However, the Xcc fabG3 knock-out mutant abolished xanthomonadin production, which could be only restored by wild-type fabG3, but not by other 3-oxoacyl-ACP reductase-encoding genes, indicating that Xcc FabG3 is specifically involved in xanthomonadin biosynthesis. Additionally, our study also shows that the Xcc fabG3-disrupted mutant affects Xcc virulence in host plants.     

Genetic and Proteomic Analyses of a Xanthomonas campestris pv. campestris purC Mutant Deficient in Purine Biosynthesis and Virulence

Bacterial proliferation in hosts requires activation of a number of housekeeping pathways, including purine de novo biosynthesis. Although inactivation of purine biosynthesis genes can attenuate virulence, it is unclear which biochemical or virulence factors are associated with the purine biosynthesis pathway in vivo. We report that inactivation of purC, a gene encoding phosphoribosylaminoimidazole-succinocarboxamide synthase, caused complete loss of virulence in Xanthomonas campestris pv. cam- pestris, the causal agent of black rot disease of cruciferous plants. The purC mutant was a purine auxotroph; it could not grow on minimal medium, whereas addition of purine derivatives, such as hypoxanthine or adenine plus guanine, restored growth of the mutant. The purC mutation also significantly enhanced the production of an unknown purine synthesis associated pigment and extracellular polysaccharides by the bacterium. In addition, comparative proteomic analyses of bacteria grown on rich and minimal media revealed that the purC mutation affected the expression levels of diverse proteins involved in purine and pyrimidine synthesis, carbon and energy metabolisms, iron uptake, proteolysis, protein secretion, and signal transduction. These results provided clues to understanding the contributions of purine synthesis to bacterial virulence and interactions with host immune systems.     

TAIL-PCR方法快速分离Xcc致病相关基因序列

以mini-Tn5 gfp-km转座子中nptⅡ片段作为探针,对已获得的五株野油菜黄单胞菌野油菜黑腐病致病型（Xcc)非致病突变体进行了Southern blot分析,结果表明,这五株突变体确由mini-Tn5 gfp-km转座子插入致病相关基因所致,且为单拷贝不同位点的插入。提取这五株突变体总DNA作为模板,采用改进的热不对称交错PCR（TAIL－PCR）方法从其中克隆到了各自转座子插入区侧翼序列,对这些侧翼序列进行了序列测定并将分析结果与GenBank database及Xcc全基因组序列做了比较,结果表明,五个侧翼序列所在的基因确与Xcc致病性有关。这种改进后的TAIL－PCR方法为突变体特别是转座子插入突变体中目的基因的克隆提供了一种简要高效的新方法。     

细菌除草剂黄单胞菌反枝苋致病菌的筛选

从杂草反枝苋根际土壤中分离到大量的根际细菌,利用谷氨酰胺合成酶抑制剂模型和蛋白核小球藻筛选模型进行快速、高效的初筛,并结合温室盆栽复筛,筛选出一株具有较强除草活性的细菌野油菜黄单胞菌反枝苋致病变种。温室盆栽试验表明,该黄单胞菌对反枝苋、荠菜等双子叶杂草具有较强的抑制作用。      

十字花科黑腐病菌中影响致病相关基因XC3814表达的基因鉴定

十字花科黑腐病菌8004菌株的XC3814基因与致病性和胞外多糖合成有关。文章将XC3814的启动子与报告基因sacB融合, 构建了XC3814的表达报告质粒pL3814sac。将该质粒导入野生型菌株8004, 获得了报告菌株8004/pL3814sac。利用转座子EZ::Tn5对报告菌株的基因组进行随机诱变, 分离到3株耐蔗糖的突变体。分析发现其中的1株突变体是由EZ::Tn5插入到编号为XC3882的未知功能的基因所产生的。将由XC3814启动子与报告基因gusA融合得到的报告质粒pGUS3814分别导入8004菌株和XC3882的转座子Tn5gusA5插入突变体, 测定比较pGUS3814的GUS表达水平, 结果显示在XC3882突变体背景下GUS的表达水平比在野生型背景下降低81.3%, 表明XC3814基因的表达水平受XC3882基因的影响。     

The type III effector AvrXccB in Xanthomonas campestris pv. campestris targets putative methyltransferases and suppresses innate immunity in Arabidopsis

Xanthomonas campestris pv. campestris (Xcc) causes black rot, one of the most important diseases of brassica crops worldwide. The type III effector inventory plays important roles in the virulence and pathogenicity of the pathogen. However, little is known about the virulence function(s) of the putative type III effector AvrXccB in Xcc. Here, we investigated the immune suppression ability of AvrXccB and the possible underlying mechanisms. AvrXccB was demonstrated to be secreted in a type III secretion system‐dependent manner. AvrXccB tagged with green fluorescent protein is localized to the plasma membrane in Arabidopsis, and the putative N‐myristoylation motif is essential for its localization. Chemical‐induced expression of AvrXccB suppresses flg22‐triggered callose deposition and the oxidative burst, and promotes the in planta growth of Xcc and Pseudomonas syringae pv. tomato in transgenic Arabidopsis plants. The putative catalytic triad and plasma membrane localization of AvrXccB are required for its immunosuppressive activity. Furthermore, it was demonstrated that AvrXccB interacts with the Arabidopsis S‐adenosyl‐l ‐methionine‐dependent methyltransferases SAM‐MT1 and SAM‐MT2. Interestingly, SAM‐MT1 is not only self‐associated, but also associated with SAM‐MT2 in vivo. SAM‐MT1 and SAM‐MT2 expression is significantly induced upon stimulation of microbe‐associated molecular patterns and bacterial infection. Collectively, these findings indicate that AvrXccB targets a putative methyltransferase complex and suppresses plant immunity.     

Comparative microscopic and enzymatic characterization of the leaf necrosis induced in Arabidopsis thaliana by lead nitrate and by Xanthomonas campestris pv. campestris after foliar spray

The heavy metal lead was administered to Arabidopsis thaliana plants by foliar spray. At a concentration of l4mol m^?3, the lead nitrate suspension induced densely distributed necrotic lesions on A. thaliana leaves. A number of Arabidopsis ecotypes were tested and a differential response to heavy-metal toxicity was noted. The necrosis provoked as a result of the phytotoxic effect of lead had a similar appearance to the necrotic lesions observed in a hypersensitive response of A. thaliana to inoculation with Xanthomonas campestris pv. campestris (Lummerzheim et al. 1993, Molecular Plant-Microbe Interactions 6, 532–544). In addition to this phenotypic resemblance, accumulation of polyphenols and callose depositions observed by microscopic analysis, as well as increases in the activities of the stress-related proteins β1,3-glucanases, chitinases and peroxidases, revealed significant similarities in the plant response to the two treatments examined, lead toxicity and bacterial infection. The results allow the establishment of markers for both types of stress.     

The conserved Xanthomonas campestris pv. vesicatoria effector protein XopX is a virulence factor and suppresses host defense in Nicotiana benthamiana

Nicotiana benthamiana leaves display a visible plant cell death response when infiltrated with a high titer inoculum of the non-host pathogen, Xanthomonas campestris pv. vesicatoria (Xcv). This visual phenotype was used to identify overlapping cosmid clones from a genomic cosmid library constructed from the Xcv strain, GM98-38. Individual cosmid clones from the Xcv library were conjugated into X. campestris pv. campestris (Xcc) and exconjugants were scored for an altered visual high titer inoculation response in N. benthamiana. The molecular characterization of the cosmid clones revealed that they contained a novel gene, xopX, that encodes a 74-kDa type III secretion system (TTSS) effector protein. Agrobacterium-mediated transient expression of XopX in N. benthamiana did not elicit the plant cell death response although detectable XopX protein was produced. Interestingly, the plant cell death response occurred when the xopX Agrobacterium-mediated transient expression construct was co-inoculated with strains of either XcvDeltaxopX or Xcc, both lacking xopX. The co-inoculation complementation of the plant cell death response also depends on whether the Xanthomonas strains contain an active TTSS. Transgenic 35S-xopX-expressing N. benthamiana plants also have the visible plant cell death response when inoculated with the non-xopX-expressing strains XcvDeltaxopX and Xcc. Unexpectedly, transgenic 35S-xopX N. benthamiana plants displayed enhanced susceptibility to bacterial growth of Xcc as well as other non-xopX-expressing Xanthomonas and Pseudomonas strains. This result is also consistent with the increase in bacterial growth on wild type N. benthamiana plants observed for Xcc when XopX is expressed in trans. Furthermore, XopX contributes to the virulence of Xcv on host pepper (Capsicum annuum) and tomato (Lycopersicum esculentum) plants. We propose that the XopX bacterial effector protein targets basic innate immunity in plants, resulting in enhanced plant disease susceptibility.     

Xanthomonas campestris pv. campestris lpsI and lpsJ genes encoding putative proteins with sequence similarity to the α- and β-subunits of 3-oxoacid CoA-transferases are involved in LPS biosynthesis

A 2.1-kb SmaI-EcoRI DNA fragment upstream of the xanA and xanB genes of Xanthomonas campestris pv. campestris carries two ORFs encoding putative proteins with sequence similarities to the α- and β-subunits of 3-oxoacid-CoA transferases. The two ORFs were termed lpsI and lpsJ because strains carrying appropriate mutations showed an autoagglutination phenotype and because lipopolysaccharides of these mutant strains were altered according to silver-stained polyacrylamide gels. The monosaccharide composition of the exopolysaccharide xanthan produced by lpsI and lpsJ mutants remained unchanged. Received: 29 March 1997 / Accepted: 21 July 1997     

Characterization of IS1389, a new member of the IS3 family of insertion sequences isolated from Xanthomonas campestris pv. amaranthicola

IS1389, a new insertion sequence belonging to the IS3 family, has been identified in Xanthomonas campestris pv. amaranthicola. The genome of this bacterium contains at least 11 copies of the element, whereas no hybridizing sequences were detected in other Xanthomonas species [X. axonopodis, X. fragaridae, X. phaseoli, and X. (Stenotrophomonas) maltophila]. Two nearly identical copies of the element (IS1389-A and IS1389-B) were characterized. According to analysis of sequence alignments and similar structural features, IS1389 belongs to the IS407 subgroup of the IS3 family, which duplicates 4 bp of target DNA upon insertion. IS1389-A was found in the proximity of the modification gene of the XamI restriction-modification system. Received: 17 November 1998 / Accepted: 22 April 1999     

Gene expression in Brassica campestris showing a hypersensitive response to the incompatible pathogen Xanthomonas campestris pv. vitians

Xanthomonas campestris pv. vitians, a pathogen of lettuce, elicits a hypersensitive response within 12 hours of inoculation into Brassica leaves, characterized by tissue collapse, loss of membrane integrity, vein blockage and melanin production. In contrast, the compatible pathogen, X. c. pv. campestris, has no visible effects on leaves for 48 hours, after which inoculated areas show chlorosis which eventually spreads, followed by rotting.mRNA was prepared from leaves inoculated with suspensions of both pathovars or with sterile medium up to 24 hours following inoculation. In vitro translation of total and poly A⁺ RNA in rabbit reticulocyte lysate in the presence of ³⁵S methionine followed by separation of the polypeptide products by 2D-PAGE, allowed comparison of the effects of these treatments on plant gene expression. Major changes in gene expression were observed as a consequence of the inoculation technique. In addition, after inoculation with X. c. vitians, up to fifteen additional major polypeptides appeared or greatly increased by four hours. Some of these had disappeared by nine hours and several more had appeared. No major polypeptides disappeared or decreased greatly in intensity following inoculation with X. c. vitians.