Biological role of xanthomonadin pigments in Xanthomonas campestris pv. campestris

Previous studies have indicated that the yellow pigments (xanthomonadins) produced by phytopathogenic Xanthomonas bacteria are unimportant during pathogenesis but may be important for protection against photobiological damage. We used a Xanthomonas campestris pv. campestris parent strain, single-site transposon insertion mutant strains, and chromosomally restored mutant strains to define the biological role of xanthomonadins. Although xanthomonadin mutant strains were comparable to the parent strain for survival when exposed to UV light; after their exposure to the photosensitizer toluidine blue and visible light, survival was greatly reduced. Chromosomally restored mutant strains were completely restored for survival in these conditions. Likewise, epiphytic survival of a xanthomonadin mutant strain was greatly reduced in conditions of high light intensity, whereas a chromosomally restored mutant strain was comparable to the parent strain for epiphytic survival. These results are discussed with respect to previous results, and a model for epiphytic survival of X. campestris pv. campestris is presented.     

Phosphorylation of proteins in Xanthomonas campestris pv. oryzae

Protein phosphorylation was studied in Xanthomonas campestris pv. oryzae in vivo and in vitro. In vitro labelling showed that the protein kinases in this bacterium used both ATP and GTP as nucleotide substrates at nearly the same efficiency. At least 6 proteins were phosphorylated in vitro, including abundant species of p81, p44, and p32 with M _r of 81000, 44000, and 32000, respectively. Three types of phosphate-protein linkage were found in this bacterium: O-phosphate, N-phosphate and probably acyl phosphate. The p81 and p32 were phosphorylated at histidine. The p44 had mainly phosphoserine and a small part of phosphohistidine. The phosphorylation profile was variable depending on the growth conditions. Furthermore, by a virulent phage Xp10 infection the quantity of phosphorylation increased: for phosphohistinine more than 10-fold, and for phosphoserine about 3-fold. Thus, in this bacterium phosphorylation may be linked with a physiological regulation system and with Xp10 phage development.     

The zinc uptake regulator Zur is essential for the full virulence of Xanthomonas campestris pv. campestris

Zur is a regulator of the high-affinity zinc uptake system in many bacteria. In Xanthomonas campestris pv. campestris 8004, a putative protein encoded by the open reading frame designated as XC1430 shows 42% amino acid similarity with the Zur of Escherichia coli. An XC1430-disrupted mutant 1430nk was constructed by homologous suicide plasmid integration. 1430nk failed to grow in rich medium supplemented with Zn2+ at a concentration of 400 microM and in nonrich medium supplemented with Zn2+ at a concentration of 110 microM, whereas the wild-type strain grew well in the same conditions. In rich medium with 400 microM Zn2+, 1430nk accumulated significantly more Zn2+ than the wild-type strain. 1430nk showed a reduction in virulence on the host plant Chinese radish (Raphanus sativus L. var. radiculus Pers.) and produced less extracellular polysaccharide (EPS) than did the wild-type strain in the absence of added zinc. These results revealed that XC1430 is a functional member of the Zur regulator family that controls zinc homeostasis, EPS production, and virulence in X. campestris pv. campestris.     

Requirement of a mip-like gene for virulence in the phytopathogenic bacterium Xanthomonas campestris pv. campestris

Macrophage infectivity potentiators (Mips) are FKBP domain-containing proteins reported as virulence factors in several human pathogens, such as members of genera Legionella, Salmonella and Chlamydia. The putative peptidylprolyl cis-trans isomerase (PPIase) encoded by XC2699 of the plant bacterial pathogen Xanthomonas campestris pv. campestris 8004 exhibits a 49% similarity at the amino-acid level to the Mip protein of Legionella pneumophila. This mip-like gene, XC2699, was overexpressed in Escherichia coli and the purified (His)6-tagged Mip-like protein encoded by XC2699 exhibited a PPIase activity specifically inhibited by FK-506. A mutation in the mip-like gene XC2699 led to significant reductions in virulence and replication capacity in the host plant Chinese radish (Raphanus sativus L. var. radiculus Pers.). Furthermore, the production of exopolysaccharide and the activity of extracellular proteases, virulence factors of X. campestris pv. campestris, were significantly decreased in the mip-like mutant. These results reveal that the mip-like gene is involved in the pathogenesis of X. campestris pv. campestris through an effect on the production of these virulence factors.     

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.     

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.     

Xanthomonas campestris pv. campestris possesses a single gluconeogenic pathway that is required for virulence

Disruption of ppsA, a key gene in gluconeogenesis, of Xanthomonas campestris pv. campestris resulted in the failure of the pathogen to grow in medium with pyruvate or C4-dicarboxylates as the sole carbon source and a significant reduction in virulence, indicating that X. campestris pv. campestris possesses only the malic enzyme-PpsA route in gluconeogenesis, which is required for virulence.     

Genomic approaches in Xanthomonas campestris pv. vesicatoria allow fishing for virulence genes

Xanthomonas campestris pv. vesicatoria is an economically important pathogen of pepper and tomato and has been established as a model organism to study bacterial infection strategies. In the last two decades, intensive genetic and molecular analyses led to the isolation of many genes that play a role in the intimate molecular relationship with the host plant. Essential for pathogenicity is a type III protein secretion system, which delivers bacterial effector proteins into the host cell. Currently, the genome of X. campestris pv. vesicatoria is being sequenced. The availability of genomic sequence information will pave the way for the identification of new bacterial virulence factors by bioinformatic approaches. In this article, we will present preliminary data from the genomic sequence analysis and describe recent and novel studies to identify bacterial type III effector genes.     

Molecular evolution of virulence in natural field strains of Xanthomonas campestris pv. vesicatoria

The avrBs2 avirulence gene of the bacterial plant pathogen Xanthomonas campestris pv. vesicatoria triggers disease resistance in pepper plants containing the Bs2 resistance gene and contributes to bacterial virulence on susceptible host plants. We studied the effects of the pepper Bs2 gene on the evolution of avrBs2 by characterizing the molecular basis for virulence of 20 X. campestris pv. vesicatoria field strains that were isolated from disease spots on previously resistant Bs2 pepper plants. All field strains tested were complemented by a wild-type copy of avrBs2 in their ability to trigger disease resistance on Bs2 plants. DNA sequencing revealed four mutant alleles of avrBs2, two of which consisted of insertions or deletions of 5 nucleotides in a repetitive region of avrBs2. The other two avrBs2 alleles were characterized by point mutations with resulting single amino acid changes (R403P or A410D). We generated isogenic X. campestris pv. vesicatoria strains by chromosomal avrBs2 gene exchange to study the effects of these mutations on the dual functions of avrBs2 in enhancing bacterial virulence and inducing plant resistance by in planta bacterial growth experiments. The deletion of 5 nucleotides led to loss of avrBs2-induced resistance on Bs2 pepper plants and abolition of avrBs2-mediated enhancement of fitness on susceptible plants. Significantly, the point mutations led to minimal reduction in virulence function of avrBs2 on susceptible pepper plants, with either minimal (R403P allele) or an intermediate level of (A410D allele) triggering of resistance on Bs2 plants. Consistent with the divergent selection pressures on avrBs2 exerted by the Bs2 resistance gene, our results show that avrBs2 is evolving to decrease detection by the Bs2 gene while at the same time maintaining its virulence function.     

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。     

Defence-related enzymatic response in cabbage to Xanthomonas campestris pv. campestris

Black rot of cabbage caused by Xanthomonas campestris pv. campestris is one of the most important diseases of crucifers worldwide. Expression of defence-related enzymes in cabbage in response to X. campestris pv. campestris was investigated in the current experiment. Among the defence-related enzymes (phynylalanine ammonia lyase, peroxidase, polyphenol oxidase, superoxide dismutase [SOD] and chitinase) and quantity of phenolic compounds studied in the present investigation, phenylalanine ammonia lyase (PAL), the key enzyme in the phenylpropanoid pathway was the first enzyme suppressed at three days after inoculation in X. campestris pv. campestris-cabbage system. Correlation analysis indicated that PAL and phenolic compounds are the two most important compounds determining the susceptibility of cabbage to X. campestris pv. campestris. Induction of peroxidase isoform-1 (Rf value: 0.059) and SOD isoform-1 (Rf value: 0.179) three days after pathogen inoculation implicated the role of these isozymes in susceptible cabbage – X. campestris pv. campestris interaction. This study demonstrates the susceptibility of cabbage to X. campestris pv. campestris is a result of declination of PAL and phenolic contents at biochemical level as a manifestation of increase in bacterial population at the cellular level within the host tissues.     

Immunomagnetic isolation of Xanthomonas campestris pv. pelargonii

Immunomagnetic fishing was developed as an improved procedure for increasing the bacterial target to non-target recovery ratio in suspensions containing mixtures of target and non-target organisms. A cell suspension containing the target Xanthomonas campestris pv. pelargonii and non-target organisms, is treated with rabbit polyclonal antiserum against X.c. pv. pelargonii and incubated for 1 h. The suspension is then mixed with paramagnetic iron oxide particles coated with goat anti-rabbit antibodies (immunomagnetic particles). After incubation, the polished surface of a 14 mm diameter neodymium supermagnet is placed at the air-water interace and the magnetic particles are attracted to the magnet. After all visible magnetic particles have attached to the bottom of the magnet, the magnet is dipped in sterile buffer to remove non-target organisms. The magnet with attached magnetic particles is rubbed evenly over an agar surface to dislodge the particles and attached bacteria. Conventional immunomagnetic isolation (immunomagnetic attraction) and immunomagnetic fishing were compared, for the recovery of the target organism in geranium leaf washings spiked with X.c. pv. pelargonii. With immunomagnetic attraction and immunomagnetic fishing, bacterial non-target organisms were reduced to 11.4 and 1.5% of the initial population, respectively, whereas the target was only reduced to 63.7 and 53.8%.     

十字花科黑腐病菌hrpG基因原核表达

在十字花科黑腐病菌(Xcc)中,hrp基因对寄主的致病性和非寄主的超敏反应中起核心作用,而hrpG对整个hrp基因簇起调控作用.HrpG为OmpR家族的双组分系统感受调控蛋白,含有两个结构域,分别是N端Response_reg和C端Trans reg_C.本研究利用表达载体pQE-30 Xa,成功构建了HrpG的表达重组子,在E.coli M15 [pREP4]中进行诱导表达.通过调节诱导温度、IPTG浓度和诱导时间最终确定在温度为20℃,IPTG浓度为0.8 mmol/L,诱导表达4 h.hrpG基因在宿主细胞E.coli M15获得高效可溶性表达.目前尚未有可溶性HrpG蛋白获得成功表达的报导,本研究中获得HrpG蛋白在大肠杆菌获得大量可溶性的表达,将为in vitro研究HrpG的生理活性,特异的结合位点和调控功能研究打下良好基础.     

Pan Proteome of Xanthomonas campestris pv. campestris Isolates Contrasting in Virulence

Fully sequenced genomes of Xanthomonas campestris pv. campestris (Xcc) strains are reported. However, intra‐pathovar differences are still intriguing and far from clear. In this work, the contrasting virulence between two isolates of Xcc ‐ Xcc51 (more virulent) and XccY21 (less virulent) is evaluated by determining their pan proteome profiles. The bacteria are grown in NYG and XVM1 (optimal for induction of hrp regulon) broths and collected at the max‐exponential growth phase. Shotgun proteomics reveals a total of 329 proteins when Xcc isolates are grown in XVM1. A comparison of both profiles reveals 47 proteins with significant abundance fluctuations, out of which, 39 show an increased abundance in Xcc51 and are mainly involved in virulence/adaptation mechanisms, genetic information processing, and membrane receptor/iron transport systems, such as BfeA, BtuB, Cap, Clp, Dcp, FyuA, GroEs, HpaG, Tig, and OmpP6. Several differential proteins are further analyzed by qRT‐PCR, which reveals a similar expression pattern to the protein abundance. The data shed light on the complex Xcc pathogenicity mechanisms and point out a set of proteins related to the higher virulence of Xcc51. This information is essential for the development of more efficient strategies aiming at the control of black rot disease.     

Culture medium for Xanthomonas campestris pv. oryzae

Y uan , W. 1990. Culture medium for Xanthomonas campestris pv. oryzae. Journal of Applied Bacteriology 69 , 798–805.
Studies on nutrient requirements of four Chinese strains of Xanthomonas campestris pv. oryzae in a modified Watanabe's medium led to the development of a new synthetic medium containing sucrose, sodium glutamate, methionine, KH₂PO₄, NH₄C1 and iron chelated with EDTA. The concentration of each ingredient was optimized based on the number of colonies and time required for their appearance. Various concentrations of some nutrients were compared based upon their effects on growth of the pathogen strains and 34 contaminants from rice materials. Tryp-tone enhanced the growth of X. c. oryzae more than that of many contaminants, including Erwinia herbicola . Peptone stimulated growth of X. c. oryzae without promoting excessive contamination. When compared with other media used for X. c. oryzae , the new culture medium enriched with tryptone and peptone gave the highest recovery and earliest appearance of colonies of Chinese strains of this bacterium.     

Une phytotoxine de Xanthomonas campestris pv. vasculorum

A phytotoxin from Xanthomonas campestris pv. vasculorum I. Purification and partial characterization Xanthomonas campestris pv. vasculorum, the causal agent of sugarcane disease produces, when maintained in pure culture, a host selective phytotoxin. The molecule obtained at a high purity level is a strongly acid polyalcohol.     

Rapid cell death in Xanthomonas campestris pv. glycines

Xanthomonas campestris pv. glycines strain AM2 (XcgAM2), the etiological agent of bacterial pustule disease of soybean, exhibited post-exponential rapid cell death (RCD) in LB medium. X. campestris pv. malvacearum NCIM 2310 and X. campestris NCIM 2961 also displayed RCD, though less pronouncedly than XcgAM2. RCD was not observed in Pseudomonas syringae pv. glycines, or Escherichia coli DH5alpha. Incubation of the post-exponential LB-grown XcgAM2 cultures at 4 degrees C arrested the RCD. RCD was also inhibited by the addition of starch during the exponential phase of LB-growing XcgAM2. Protease negative mutants of XcgAM2 were found to be devoid of RCD behavior observed in the wild type XcgAM2. While undergoing RCD, the organism was found to transform to spherical membrane bodies. The presence of membrane bodies was confirmed by using a membrane specific fluorescent label, 1,6-diphenyl 1,3,5-hexatriene (DPH), and also by visualizing these structures under microscope. The membrane bodies of XcgAM2 were found to contain DNA, which was devoid of the indigenous plasmids of the organism. The membrane bodies were found to bind annexin V indicative of the externalization of membrane phosphatidyl serine. Nicking of DNA in XcgAM2 cultures undergoing RCD in LB medium was also detected using a TUNEL assay. The RCD in XcgAM2 appeared to have features similar to the programmed cell death in eukaryotes.     

DsbB is required for the pathogenesis process of Xanthomonas campestris pv. campestris

The DsbA/DsbB oxidation pathway is one of the two pathways that catalyze disulfide bond formation of proteins in the periplasm of gram-negative bacteria. It has been demonstrated that DsbA is essential for multiple virulence factors of several animal bacterial pathogens. In this article, we present genetic evidence to show that the open reading frame XC_3314 encodes a DsbB protein that is involved in disulfide bond formation in periplasm of Xanthomonas campestris pv. campestris, the causative agent of crucifer black rot disease. The dsbB mutant of X. campestris pv. campestris exhibited attenuation in virulence, hypersensitive response, cell motility, and bacterial growth in planta. Furthermore, mutation in the dsbB gene resulted in ineffective type II and type III secretion systems as well as flagellar assembly. These findings reveal that DsbB is required for the pathogenesis process of X. campestris pv. campestris.