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。     

十字花科黑腐病菌中一个与抗逆有关的小RNA的鉴定

十字花科黑腐病菌(Xanthomonas campestris pathovar campestris,Xcc),是引起十字花科植物黑腐病的病原菌。Xcc要经历寄生、腐生等多种环境变化,为适应这些环境变化,需要调控相应基因的表达。除蛋白外,小RNA在基因表达调控中也起到关键作用。本实验室前期实验从Xcc 8004中鉴定出数百个小RNA,但是绝大多数小RNA的功能仍然未知。本研究通过构建一个小RNA(sRNA3843)的过量表达株来研究其生物学功能。确定该小RNA过量表达后,对其过量表达株OE3843进行了一系列的表型检测。结果发现,s RNA3843过量表达株OE3843对金属离子Cu^2+、Zn^2+、Cd^2+及蛋白变性剂SDS的耐受能力明显下降,表明s RNA3843与Xcc的抗逆有关。本研究的实验结果为深入研究小RNA在Xcc抗逆中所起的作用及其作用机理打下基础。     

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8004甘天丝亮特征序列酯酶及其酯酶结构域在大肠杆菌中的表达，包涵体复性及性质

【目的】了解野油菜黄单胞菌（Xanthomonas campestris pv. campestris）8004 GDSL(蛋白序列中甘氨酸、天冬氨酸、丝氨酸和亮氨酸特征序列)酯酶的性质。【方法】利用PCR方法扩增Xcc_est及其不同结构域的基因,这些基因以组氨酸标签融合蛋白的形式在大肠杆菌中获得表达。融合蛋白通过镍亲和色谱纯化。【结果】部分纯化的Xcc_est 在催化对硝基苯丁酸酯时,最适pH值为8.0,最适温度为52 °C。 Xcc_est 对于对硝基苯丁酸酯的Km值和Vmax值分别是47.6 ± 4.6 μmol/L, 和67.6 ± 7.8 U/mg,Xcc_est的酯酶结构域(Xcc_estN1-334)对于同一底物的Km值和Vmax值分别是 469.4 ± 9.8 μmol/L和2.5 ±0.9 U/mg。Xcc_est的成熟结构域(Xcc_estN26-606)可以获得成功复性,但是成熟酯酶结构域(Xcc_estN26-334)不能获得复性。复性后的Xcc_estN26-606底物谱较广,在室温下具有较高稳定性。【结论】复性的成熟结构域蛋白(Xcc_estN26-606)具有一定的生物转化应用前景。     

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。     

High-quality mutant libraries of Xanthomonas oryzae pv. oryzae and X. campestris pv. campestris generated by an efficient transposon mutagenesis system

A novel transposon mutagenesis system for the phytopathogenic bacteria Xanthomonas oryzae pv. oryzae (Xoo) and X. campestris pv. campestris (Xcc) was developed using a Tn5-based transposome. A highly efficient transformation up to 10(6) transformants per microg transposon DNA was obtained. Southern blot and thermal asymmetric interlaced polymerase chain reaction analyses of Tn5 insertion sites suggested a random mode of transposition. The transposition was stable in the transformants for 20 subcultures. Eighteen thousand and 17000 transformants for Xoo and Xcc, respectively, were generated, corresponding to 4X ORF coverage of the genomes. The libraries will facilitate the identification of pathogenicity-related genes as well as functional genomic analysis in Xoo and Xcc.     

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。     

Light signaling mediated by PAS domain-containing proteins in Xanthomonas campestris pv. campestris

Per-ARNT-Sim (PAS) domains are important signalling modules that possibly monitor changes in various stimuli such as light. For the majority of PAS domains that have been identified by sequence similarity, the biological function of the signalling pathways has not yet been experimentally investigated.Thirty-three PAS proteins were discovered in Xanthomonas campestris pv. campestris(Xcc) by genome/proteome analysis. Thirteen PAS proteins were identified as contributing to light signalling and Xcc growth, motility or virulence using molecular genetics and bioinformatics methods. The PAS domains played important roles in light signalling to regulate the growth, motility and virulence of Xcc. They might be regulated by not only light quality (wavelength)but also quantity (intensity) as potential light-signalling components. Evaluating the light wavelength, three light-signalling types of PAS proteins in Xcc were shown to be involved in blue light signalling, tricolour (blue, red and far red)signalling or red/far-red signalling. This showed that Xcc had evolved a complicated light-signalling system to adapt to a complex environment.     

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.     

Genetic analysis of the Alteromonas macleodii [NiFe]-hydrogenase

Mip (macrophage infectivity potentiator) and Mip-like proteins have been demonstrated to be involved in virulence of several animal pathogens, but as yet none of their native bacterial targets has been identified. Our previous work demonstrated that the Mip-like protein found in the plant pathogen Xanthomonas campestris pv. campestris (Xcc) (hereafter called Mip(Xcc)) is also involved in virulence. Inactivation of the mip(Xcc) gene leads to a significant reduction in exopolysaccharide production and extracellular protease activity via an unknown mechanism. The Xcc genome encodes six extracellular proteases, all of which are secreted via the type II secretion system. The serine protease PrtA makes the largest contribution to Xcc's total extracellular proteolytic activity. In this study, Western blotting analysis demonstrated that Mip(Xcc) was located in the periplasm. Bacterial two-hybrid and far-Western analysis indicated that Mip(Xcc) interacted with PrtA directly. Purified Mip(Xcc) was found to be able to rescue the protease activity of periplasmic proteins extracted from the mip(Xcc) mutant. These findings show that Mip(Xcc) plays a role in the maturation of PrtA, which is the novel native target for at least one Mip or Mip-like protein.     

Qualitative and comparative proteomic analysis of Xanthomonas campestris pv. campestris 17

The bacterium Xanthomonas campestris pathovar campestris (XCC) 17 is a local isolate that causes crucifer black rot disease in Taiwan. In this study, its proteome was separated using 2-DE and the well-resolved proteins were excised, trypsin digested, and analyzed by MS. Over 400 protein spots were analyzed and 281 proteins were identified by searching the MS or MS/MS spectra against the proteome database of the closely related XCC ATCC 33913. Functional categorization of the identified proteins matched 141 (50%) proteins to 81 metabolic pathways in the Kyoto Encyclopedia of Genes and Genomes (KEGG) database. In addition, we performed a comparative proteome analysis of the pathogenic strain 17 and an avirulent strain 11A to reveal the virulence-related proteins. We detected 22 up-regulated proteins in strain 17 including the degrading enzymes EngXCA, HtrA, and PepA, which had been shown to have a role in pathogenesis in other bacteria, and an anti-host defense protein, Ohr. Thus, further functional studies of these up-regulated proteins with respect to their roles in XCC pathogenicity are suggested.     

A two-component system involving an HD-GYP domain protein links cell-cell signalling to pathogenicity gene expression in Xanthomonas campestris

The synthesis of extracellular enzymes and extracellular polysaccharide (EPS) in Xanthomonas campestris pv. campestris (Xcc) is regulated by a cluster of genes called rpf (for regulation of pathogenicity factors). Two of the genes, rpfF and rpfB, have previously been implicated in the synthesis of a diffusible regulatory molecule, DSF. Here, we describe a screen of transposon insertion mutants of Xcc that identified two DSF-overproducing strains. In each mutant, the gene disrupted is rpfC, which encodes a hybrid two-component regulatory protein in which the sensor and regulator domains are fused and which contains an additional C-terminal phosphorelay (HPt) domain. We show that rpfC is in an operon with rpfH and rpfG. The predicted protein RpfG has a regulatory input domain attached to a specialized version of an HD domain, previously suggested to function in signal transduction. The predicted protein RpfH is structurally related to the sensory input domain of RpfC. We show that RpfC and RpfG act positively to regulate the synthesis of extracellular enzymes and EPS, but that RpfC acts negatively to regulate the synthesis of DSF. We propose that RpfGHC is a signal transduction system that couples the synthesis of pathogenicity factors to sensing of environmental signals that may include DSF itself.     

Mutagenesis of all eight avr genes in Xanthomonas campestris pv. campestris had no detected effect on pathogenicity, but one avr gene affected race specificity

Suppression subtractive hybridization (SSH) was used to identify genes present in the systemic crucifer black rot pathogen Xanthomonas campestris pv. campestris 528T but missing from the nonsystemic crucifer leaf spot pathogen, X. campestris pv. armoraciae 417. Among the DNA fragments unique to 528T was Xcc2109, one of eight putative avr genes identified in the published 528T genome (NC_003902). Individual and sequential deletion, insertion mutations, or both of all eight 528T avr gene loci were made, but no change in pathogenicity was observed with any combination of avr mutations, including a strain with all eight avr genes deleted. However, insertion or deletion mutants affecting the Xcc2109 locus lost avirulence (i.e., became virulent) on Florida Mustard, an X. campestris pv. campestris race-determining, differential host. The Xcc2109 open reading frame as annotated was cloned and found to be nonfunctional. A longer gene, encompassing Xcc2109 and here designated avrXccFM, was cloned and found to complement the Xcc2109 mutants and to confer avirulence to two additional wild-type X. campestris pv. campestris strains, thereby changing their races. Resistance in Florida Mustard to 528T strains carrying avrXccFM occurred without a typical hypersensitive response (HR) on leaves, although a vascular HR was observed in seedlings.     

Genome scale analysis of diffusible signal factor regulon in Xanthomonas campestris pv. campestris: identification of novel cell-cell communication-dependent genes and functions

The bacterial pathogen Xanthomonas campestris pv. campestris (Xcc) recruits a diffusible signal factor (DSF), which has recently been structurally characterized as cis-11-methyl-2-dodecenoic acid, as a cell-cell communication signal to synchronize virulence gene expression and biofilm dispersal. In this study, we showed that despite the existance of phenotype variations in different Xcc isolates, the DSF-mediated functions were in general conserved. To investigate the genomic profiles of DSF regulation, we designed and conducted oligomicroarray analysis by comparison of the gene expression patterns of wild-type strain XC1 and its DSF-deficient mutant XC1dF, as well as those of XC1dF in the presence or absence of DSF signals. The analyses led to identification of 165 genes, whose expression was significantly influenced by DSF signals. These genes encode proteins and enzymes belonging to at least 12 functional groups. In addition to those previously known DSF-dependent activities such as production of extracellular enzymes and extracellular polysaccharides, microarray analyses also revealed new functions mediated by DSF, such as flagellum synthesis, resistance to toxins and oxidative stress, and aerobic respiration. Phenotype analyses confirmed that DSF signalling contributed to resistance to toxin acriflavin and hydrogen peroxide, and to the survival of bacterial cells at different temperatures. We conclude that DSF cell-cell signalling is not only essential for co-ordinating the expression of virulence genes but also plays a vital role in keeping up the general competence of the pathogen in ecosystems.     

Cloning of a locus involved in pathogenicity and production of extracellular polysaccharide and protease in Xanthomonas campestris pv. campestris

Abstract A Tn5-induced mutant of Xanthomonas campestris pv campestris deficient in protease and extracellular polysaccharide production, and non-pathogenic to turnip seedlings, was isolated. Recombinant clones which restored all three characteristics concomitantly were obtained from a wild-type genomic library. One of the plasmid clones, pIJ3090, showed no hybridization to previously isolated clones involved In protease production. The mutant was not complemented by other known clones involved in pathogenicity, in xanthan gum production or in protease production.