Analysis of pathogenicity mutants of a bacteriocin producing Xanthomonas perforans

Since the initial discovery of Xanthomonas perforans on tomato in 1991, it has completely displaced Xanthomonas euvesicatoria as the bacterial spot of tomato pathogen in Florida. Previous research has shown that X. perforans produces at least three different bacteriocin-like compounds (BcnA, BcnB, BcnC) antagonistic toward X. euvesicatoria strains. In this study pathogenicity-attenuated, bacteriocin-producing mutants of X. perforans were created to determine their potential as biological control agents for control of X. euvesicatoria. Several candidate genes were chosen based on previous studies in which mutant phenotypes exhibited reduced virulence in either X. perforans (OpgH_Xcv) or the closely related X. euvesicatoria strain 85-10 (hpaB, hpaC, xopA, xopD, avrBs2 and gumD). Each candidate gene in X. perforans was amplified and PCR-assisted deletion mutagenesis was performed in the wild-type (wt) X. perforans strain to create potential attenuation mutants. Each mutant was tested for growth rate, disease severity and antagonism toward X. euvesicatoria strains. Three mutants, XopA, opgH, and gumD were significantly less pathogenic than the wild-type strain with the opgH mutant reaching significantly lower internal populations than all other mutants except hpaC. The opgH-strain was the most affected in its ability to grow internally in plant tissue while inhibiting X. euvesicatoria populations equal to or more than the other mutant strains. This mutant strain could potentially be used as part of an effective biological control strategy.     

Separate and combined applications of nontoxigenic Aspergillus flavus and A. parasiticus for biocontrol of aflatoxin in peanuts

A 2-year study was carried out to determine the effect of applying nontoxigenic strains of Aspergillus flavus and A. parasiticus to soil separately and in combination on preharvest aflatoxin contamination of peanuts. A naturally occurring, nontoxigenic strain of A. flavus and a UV-induced mutant of A. parasiticus were applied to peanut soils during the middle of each of two growing seasons using a formulation of conidia-coated hulled barley. In addition to an untreated control, treatments included soil inoculated with nontoxigenic A. flavus only, soil inoculated with nontoxigenic A. parasiticus only, and soil inoculated with a mixture of the two nontoxigenic strains. Plants were exposed to late-season drought conditions that were optimal for aflatoxin contamination. Results from year one showed that significant displacement (70%) of toxigenic A. flavus occurred only in peanuts from plots treated with nontoxigenic A. flavus alone; however, displacement did not result in a statistically significant reduction in the mean aflatoxin concentration in peanuts. In year two, soils were re-inoculated as in year one and all treatments resulted in significant reductions in aflatoxin, averaging 91.6%. Regression analyses showed strong correlations between the presence of nontoxigenic strains in peanuts and aflatoxin reduction. It is concluded that treatment with the nontoxigenic A. flavus strain alone is more effective than the A. parasiticus strain alone and equally as effective as the mixture. The U.S. Government’s right to retain a non-exclusive, royalty-free license in and to any copyright is acknowledged.     

Evaluation of strain competitiveness in Rhizobium leguminosarum bv phaseoli using a nod + fix− natural mutant

Competition from native soil rhizobia is likely to be an important factor limiting Phaseolus vulgaris L. inoculant response in Latin America. We used UMR 1116, a nod ⁺ fix^– natural mutant of Rhizobium leguminosarum bv phaseoli strain CC511, as a reference strain to study competition for nodulation sites in this species. When P. vulgaris cv Carioca was planted in soils containing different proportions of UMR 1116 and the effective and competitive strain UMR 1899, UMR 1116 occupied more than 50% of the nodules at all inoculant ratios tested, though increasing the proportion of UMR 1899 in the inoculant did enhance the number and percentage of effective nodules and plant dry weight. Sixty two strains of bean rhizobia were tested in competition with UMR 1116. An inoculant ratio of 1:1 was used, with all strains applied to the soil rather than to seeds. Strains varied in the number and percentage of effective nodules produced in competition with UMR 1116, and in plant dry weight, and there was a strong correlation between variation in each of these traits and plant N accumulation. Seven of the strains (UMR 1073, 1084, 1102, 1125, 1165, 1378 and 1384) were identified as both superior in competitive ability and active in N₂ fixation. Site of placement of the inoculant and ambient temperature influenced strain response.Journal paper 16736, Agricultural Experiment Station, University of Minnesota, St. Paul, MN 55108, USA     

Secretion and regulation Hrp mutants of Erwinia amylovora trigger different responses in apple

The interaction between two Hrp mutants of Erwinia amylovora, the parental virulent strain, and a host plant (Malus sp.) was studied with apple seedlings and apple flowers, using inoculation procedures which reduce the possibility of injury. We showed that one hrp regulatory mutant protected apple tissue against the virulent strain to a greater degree than a secretion mutant. The dynamics of bacterial growth in this interaction indicated that the protection was associated with the inhibition of the multiplication of the virulent strain. The activity of two enzymes involved in plant defence responses, phenylalanine-ammonia lyase and guaiacol peroxidase, increased in leaves treated with the regulatory mutant, but not in the leaves treated with the secretion mutant. The role of regulatory genes of the hrp cluster in this interaction is discussed.     

Biological Interactions to Select Biocontrol Agents Against Toxigenic Strains of <Emphasis Type="Italic">Aspergillus flavus</Emphasis> and <Emphasis Type="Italic">Fusarium verticillioides</Emphasis> from Maize

Biological control represent an alternative to the use of pesticides in crop protection. A key to progress in biological control to protect maize against Fusarium verticillioides and Aspergillus flavus maize pathogens are, to select in vitro, the best agent to be applied in the field. The aim of this study was to examine the antagonistic activity of bacterial and yeast isolates against F.verticillioides and A. flavus toxigenic strains. The first study showed the impact of Bacillus amyloliquefaciens BA-S13, Microbacterium oleovorans DMS 16091, Enterobacter hormomaechei EM-562T, and Kluyveromyces spp. L14 and L16 isolates on mycelial growth of two strains of A. flavus MPVPA 2092, 2094 and three strains of F. verticillioides MPVPA 285, 289, and 294 on 3% maize meal extract agar at different water activities (0.99, 0.97, 0.95, and 0.93). From this first assay antagonistics isolates M. oleovorans, B. amyloliquefaciens and Kluyveromyces sp. (L16) produced an increase of lag phase of growth and decreased a growth rate of all fungal strains. These isolates were selected for futher studies. In vitro non-rhizospheric maize soil (centrally and sprayed inoculated) and in vitro maize (ears apex and base inoculated) were treated with antagonistics and pathogenic strains alone in co-inoculated cultures. Bacillus amyloliquefaciens significantly reduced F. verticillioides and A. flavus count in maize soil inoculated centrally. Kluyveromyces sp. L16 reduced F. verticillioides and A. flavus count in maize soil inoculated by spray. Kluyveromyces sp. L16 was the most effective treatment limiting percent infections by F. verticillioides on the maize ears.     

Cloning of genes required for hypersensitivity and pathogenicity inPseudomonas syringae pv.aptata

A genomic library ofPseudomonas syringae pv.aptata strain NCPPB 2664, which causes bacterial blight of sugar beet, lettuce and other plants, was constructed in the cosmid vector pCPP31. The 13.4 kbEcoRI fragment of the cosmid pHIR11, containing thehrp (hypersensitiveresponse andpathogenicity) gene cluster of the closely related bacteriumPseudomonas syringae pv.syringae strain 61, was used as a probe to identify a homologoushrp gene cluster inP. syringae pv.aptata. Thirty of 2500 cosmid clones, screened by colony hybridization, gave a strong hybridization signal with the probe, but none of these conferred to the non-pathogenic bacterium,Pseudomonas fluorescens, the ability to elicit the hypersensitive response (HR) in tobacco. Southern blot analysis ofEcoRI-digested genomic DNA ofP. syringae pv.aptata showed hybridizing bands of 12 kb and 4.4 kb. Only a 12 kb fragment hybridized in digests of the cosmids. Cosmid clone pCPP1069 was mutagenized with Tn10-minitet and marker-exchanged into the genome ofP. syringae pv.aptata. Three resulting prototrophic mutant strains failed to elicit the HR in tobacco and to cause disease in lettuce. The DNA flanking the Tn10-minitet insertions from mutated derivatives of pCPP1069 hybridized with the 10.6 kbBglII fragment of pHIR11. These results indicate thatP. syringae pv.aptata harbourshrp genes that are similar to, but arranged differently from, homologoushrp genes ofP. syringae pv.syringae.Abbreviations HR hypersensitive response - Hrp mutant unable to induce HR and pathogenicity - Psa Pseudomonas syringae pv.aptata - Pss Pseudomonas syringae pv.syringae - Ea Erwinia amylovora     

Hrp- Mutants of Pseudomonas solanacearum as Potential Biocontrol Agents of Tomato Bacterial Wilt

There have been many attempts to control bacterial wilt with antagonistic bacteria or spontaneous nonpathogenic mutants of Pseudomonas solanacearum that lack the ability to colonize the host, but they have met with limited success. Since a large gene cluster (hrp) is involved in the pathogenicity of P. solanacearum, we developed a biological control strategy using genetically engineered Hrp^- mutants of P. solanacearum. Three pathogenic strains collected in Guadeloupe (French West Indies) were rendered nonpathogenic by insertion of an ω-Km interposon within the hrp gene cluster of each strain. The resulting Hrp^- mutants were tested for their ability to control bacterial wilt in challenge inoculation experiments conducted either under growth chamber conditions or under greenhouse conditions in Guadeloupe. Compared with the colonization by a pathogenic strain which spread throughout the tomato plant, colonization by the mutants was restricted to the roots and the lower part of the stems. The mutants did not reach the fruit. Moreover, the presence of the mutants did not affect fruit production. When the plants were challenge inoculated with a pathogenic strain, the presence of Hrp^- mutants within the plants was correlated with a reduction in disease severity, although pathogenic bacteria colonized the stem tissue at a higher density than the nonpathogenic bacteria. Challenge inoculation experiments conducted under growth chamber conditions led, in some cases, to exclusion of the pathogenic strain from the aerial part of the plant, resulting in high protection rates. Furthermore, there was evidence that one of the pathogenic strains used for the challenge inoculations produced a bacteriocin that inhibited the in vitro growth of the nonpathogenic mutants.     

Biological control of crown rot of bananas with Pichia anomala strain K and Candida oleophila strain O

The antagonistic activity of two yeast strains (Pichia anomala (E.C. Hansen) Kurtzman, strain K and Candida oleophila Montrocher, strain O) against the parasitic complex responsible for banana crown rot was evaluated. The strains were applied at three different concentrations (10⁶, 10⁷, 10⁸ cfu/ml) and their efficacy tested in vivo on three separate fungi (Colletotrichum musae (Berk. & Curt.) Arx, Fusarium moniliforme Sheldon, and Cephalosporium sp.) and on a parasitic complex formed by association of these three fungi. At the concentrations used C. musae appeared to be the most pathogenic. The complex showed intermediate aggressiveness between C. musae and both other fungi.Statistically significant antagonistic effects were observed on C. musae, F. moniliforme, and the fungal complex. The highest protection level (54.4%) was observed with strain O added at 10⁸ cfu/ml on crowns previously inoculated with the fungal complex. The level was lower when the fungi were inoculated separately.Furthermore, the antagonistic effect was strongly reinforced when strain O at 10⁸ cfu/ml was applied 24 h before fungal complex inoculation (59.9%), as compared to its application 15 min (24.3%) or 3 h (27.3%) after fungal complex inoculation. Bananas showed increased susceptibility to the fungal complex from March to June, and this influenced the level of protection by yeast, which decreased over the same period. A strict negative correlation (R² = 0.83) was highlighted between susceptibility of banana to crown rot and protection provided by yeast.     

A Paecilomyces fumosoroseus mutant over-producing chitinase displays enhanced virulence against Bemisia tabaci

A Paecilomyces fumosoroseus strain was mutagenized by u.v. Among 200 colonies, one mutant (M84), showed a large and stable chitin hydrolysis-halo. Glucose consumption and biomass production were similar for M84 and the parental strain. Chitinase was inducible by chitin and repressed by glucose in both strains but, when they were grown on minimal medium plus colloidal chitin as sole carbon source, the parental and M84 strains yielded 198 and 690 mol N-acetylglucosamine, respectively. This results indicate that the mutant strain synthesized a chitinase with a higher activity. Bioassays against Bemisia tabaci nymph, showed that M84 incited a 2-fold higher incidence of disease compared to the parental strain.     

Agrobacterium tumefaciens-mediated expression ofgusA in maize tissues

To develop a system forAgrobacterium-mediated transformation of maize (Zea mays L.), we have investigated histochemically the transient expression of -glucuronidase (GUS) activity in maize seedling tissue segments using binary vectors that allow minimal (pKIWI105 and pCNL1) or undetectable (p35S-GUS-INT and pCNL56) levels of GUS activity inA. tumefaciens. Tissue segments from three- to five-day-old sterile seedlings of maize genotype A188 were inoculated withA. tumefaciens. Four days after inoculation, transient expression of GUS activity was found in mesocotyl segments originating from the intercalary meristem region. This GUS activity was specific to the vascular cylinder and was not found in the internal cortical or epidermal layers, nor was it found in mature mesocotyl tissue (segments 5 mm below the coleoptilar node). Transient GUS activity was also detected in leaf and coleoptile tissues of shoot segments, but not in the shoot apexper se or in leaves younger than the first leaf. Maize tissues inoculated withA. tumefaciens strains that harbourgusA-containing binary vectors but no Ti-plasmid did not show GUS activity, supporting evidence from previous work thatvir gene activity was essential for the observed GUS activity.A. tumefaciens strains containing different types of Ti-plasmids were also tested. A strain harbouring an agropine-type Ti-plasmid was the most effective for expressing GUS activity in mesocotyl segments, whereas a strain harboring a nopaline-type Ti-plasmid was most effective for expression of GUS activity in the apical meristem-containing segment. These results indicate that different interactions occurred between the differentA. tumefaciens strains and the susceptible plant tissues. Maize genotype specificity for GUS activity in mesocotyl tissues was observed; variations in the cocultivation medium had a profound effect on the frequency of expression of GUS activity.     

Characterization of heat resistant mutant strains of Rhizobium sp. [Cajanus] for growth, survival and symbiotic properties

Fourteen heat resistant mutant strains were isolated from a wild-type strain (PP201, Nod⁺ Fix⁺) of Rhizobium sp. (Cajanus) by giving it a heat shock of 43°C. These mutant strains showed a greater increase in optical density (O.D.) and a higher viable cell count in both rhizospheric and non-rhizospheric soil at high temperature. Symbiotic studies showed that pigeon pea plants inoculated with a few mutant strains had ineffective nodules (Nod⁺ Fix⁻) under controlled temperature (43°C) conditions, but under natural high temperature (40–45°C) conditions, the host plants infected with all the mutant strains showed higher total shoot nitrogen than the plants inoculated with the parent strain. Four mutant strains (HR-3, HR-6, HR-10 and HR-12) were found to be highly efficient for all the symbiotic parameters, and thus have the potential to be used as bioinoculants in the North-Western regions of India during the summer season.     

野油菜黄单胞菌中3-羟基脂酰ACP脱水酶FabZ的生理功能

【背景】野油菜黄单胞菌(Xanthomonas campestris pv. campestris, Xcc)引起十字花科植物黑腐病,在全球范围内造成经济损失,亟须深入研究其致病机理,开发新的黑腐病防控措施。细菌脂肪酸合成系统不仅为细胞膜合成提供原料,其中间代谢产物还是许多生物活性分子合成的底物,具有重要的生理功能,也是抗菌药物筛选的重要靶标。【目的】研究XccfabZ对扩散信号分子(diffusible signal factor, DSF)类信号产量、致病力、胞外酶、胞外多糖和运动性等方面的影响。【方法】利用报告菌株检测法分析了不同替换突变株的DSF类群体感应信号产量。利用同源重组原理,在DSF类信号高产菌株中获得替换突变株,利用高效液相色谱(highperformanceliquid chromatography, HPLC)法测定DSF类信号产量。利用剪叶法检测替换突变株对寄主植物甘蓝的致病力,并分析了不同菌株的胞外多糖、胞外酶和运动性差异。【结果】报告菌株检测法和HPLC法都证明大肠杆菌fabZ替换突变株(XccΔfabZ/pSRK-EcfabZ)中DSF类信号产量显著下降。...     

In vitro pathogenicity assay for the ergot fungus Claviceps purpurea

The pathogenic development of the biotrophic ergot fungus Claviceps purpurea is strictly limited to the ovary of grasses. Early colonization stages occur within a defined spatio-temporal course of events, including the directed growth to the vascular tissue for nutrient supply. To characterize mutant strains with putative defects in pathogenicity, the close observation of the infection pathway is therefore indispensable. Here, we describe the establishment of a new pathogenicity assay, based on the in vitro cultivation of isolated rye ovaries. The pathogenic development of a wild-type strain of C. purpurea was compared with the infection of mature rye flowers on whole plants. Up to the sixth day post inoculation, the route of infection within the isolated ovaries was maintained and temporally equal to that seen in mature flowers. Therefore, the in vitro pathogenicity assay is an effective alternative to the whole-plant infection tests, and suitable for detailed infection studies and screening high numbers of mutants for defects in early pathogenesis.     

青枯雷尔氏菌胞外多糖合成缺失突变株构建及其生物学特性

【目的】由青枯雷尔氏菌(Ralstonia solanacearum)引起的植物青枯病是一种毁灭性土传病害。胞外多糖(extracellular polysaccharides,EPS)是青枯雷尔氏菌关键的致病因子之一。通过构建胞外多糖缺失突变株,研究胞外多糖在青枯病致病中的作用。【方法】从青枯雷尔氏菌FJAT-91的基因组中克隆出胞外多糖合成结构基因epsD同源臂,克隆至自杀性质粒p K18mobsacB,再将庆大霉素抗性基因(Gm)插入同源臂中间,获得重组质粒p K18-epsD。将重组质粒转化至青枯雷尔氏菌FJAT-91感受态细胞中,通过同源重组敲除epsD基因,获得EPS合成缺失的突变株FJAT-91Δeps 。研究突变株与野生菌株在菌落形态、胞外多糖合成、运动能力、定殖能力的差异性。【结果】突变菌株FJAT-91ΔepsD与出发菌株FJAT-91相比:胞外多糖产量显著减少,生长较慢;泳动能力(swimming motility)和群集运动能力(swarming motility)显著降低;在番茄苗根部和茎部的定殖能力显著降低;弱化指数(AI)为0.905,鉴定为无致病力菌株。【结论】胞外多糖在青枯雷尔氏菌的致病中起着关键的作用,本课题研究成果为开发植物疫苗提供了优良的材料与研究基础。     

Simple Deletion: a vector- and marker-free method to generate and isolate site-directed deletion mutants

We have designed a new vector- and marker-free site-directed deletion system for gram-negative bacteria. In this system, a specific DNA fragment is amplified from a parental strain by using polymerase chain reaction (PCR), then circularized and introduced back into the parental strain for homologous recombination. The recombinant mutant is then detected and isolated by PCR-based sib selection. Unlike conventional methods, our Simple Deletion method requires no cloning procedures, and no foreign genes such as antibiotic-resistance genes are introduced as selection markers. The resulting mutant is, therefore, the same as the parental strain except for the lack of the target region. This method is categorized as a type of “self-cloning,” and the resulting mutant can be used for laboratory research without restrictions. Using this method, we generated a mutant of a plant pathogenic bacterium, Xanthomonas campestris pv. campestris, in which the 20.4-kb hrp gene cluster involved in the type III secretion system and in pathogenicity was deleted. In addition, we proved that this method can also be used to delete smaller DNA regions of X. campestris pv. campestris and to generate deletion mutants of the bacterium Ralstonia solanacearum.     

Symbiotic effectiveness of strains of Rhizobium leguminosarum biovar phaseoli isolated from soils of Rwanda

We have isolated 48 strains of Rhizobium leguminosarum biovar phaseoli from nodules of Phaseolus vulgaris L. cultivated on 32 different soils at 22 various locations in Rwanda, Central Africa. The symbiotic effectiveness of the strains was appraised in the greenhouse by measuring shoots dry matter and total plant nitrogen content after six weeks of growth. Of the strains tested 19%, 58% and 23% were rated very effective, effective and ineffective, respectively. A very significant correlation (r=0.96, P<0.01) was observed between shoots dry matter and total N content. By using the total nitrogen balance method, it was estimated that in the presence of a very effective strain, up to 86% of the N present in the shoots comes from N₂ fixation. No significant correlations were observed between the symbiotic effectiveness of the strains and the pH of the soils from which they originated, the tolerance of the strains to acidity or their ability to produce organic acids. The nine very effective strains selected were highly competitive against two ineffective strains with the two P. vulgaris cultivars Rubona-5 and Kiryumukwe.Contribution no 367, Station de recherches, Agriculture Canada.Contribution no 367, Station de recherches, Agriculture Canada.     

Biological control of take-all in wheat by endophytic Bacillus subtilis E1R-j and potential mode of action

The bacterial strain E1R-j, isolated as an endophyte from wheat roots, exhibited high antifungal activity to Gaeumannomyces graminis var. tritici (Ggt). Strain E1R-j was identified as Bacillus subtilis based on morphological, physiological and biochemical methods as well as on 16S rDNA analysis. This strain inhibited mycelium growth in vitro of numerous plant pathogenic fungi, especially of Ggt, Coniothyrium diplodiella, Phomopsis sp. and Sclerotinia sclerotiorum. In greenhouse experiments, soil drenches with cell densities of 10⁶, 10⁹ and 10¹² CFU ml⁻¹ E1R-j reduced significantly take-all disease, caused by Ggt, in wheat seedling by 62.6%, 68.6% and 70.7%, respectively, compared to the inoculated control, 4 weeks after sowing. Growth parameters such as lengths and fresh weights of roots and shoots of Ggt-inoculated control plants were significantly lower compared to Ggt-inoculated and E1R-j treated plants. Field experiments in the season 2006/2007, heights of wheat plants in the Ggt inoculated plots were significantly reduced compared to the non inoculated treatments. Yield parameters such as kernels per head and thousand kernel weight (TKW) in inoculated control plants were lower compared to the other treatments. In the experimental year 2007/2008, independent treatments with the bacterial strain E1R-j and the fungicide Triadimefon reduced take-all disease in wheat roots by 55.3% and 61.9%, compared to the inoculated control plants. In this season plant height in inoculated control was significantly lower and also the yield parameters seeds per head and especially TKW were drastically reduced compared to the other treatments. E1R-j treatment alleviated the detrimental effects of take-all on grain yield parameters to a similar extent as Triadimefon application. SEM studies revealed that in the presence of E1R-j, hyphae of Ggt showed leakage, appeared ruptured, swollen and shriveled. Following root drench, strain E1R-j was able to colonize endophytically roots and leaves of wheat seedlings. While the population of the bacterial strain in wheat roots steadily increased from the second to the fourth leaf stage, in the leaf tissue the population of the strain rapidly declined. TEM studies also showed that cells of E1R-j were present in roots of wheat seedlings and effectively retarded infection and colonization of Ggt in root tissue; suppression of Ggt by E1R-j was accompanied by disintegration of hyphal cytoplasm. In addition, in the presence of E1R-j cells in Ggt-infected root tissue morphological defense reactions were triggered such as formation of wall appositions and papillae. The results presented indicate that the endophytic strain E1R-j of B. subtilis meets demands required for biocontrol of take-all.     

Homology between the HrpO protein of Pseudomonas solanacearum and bacterial proteins implicated in a signal peptide-independent secretion mechanism

A region of approximately 22 kb of DNA defines the large hrp gene cluster of strain GMI1000 of Pseudomonas solanacearum. The majority of mutants that map to this region have lost the ability to induce disease symptoms on tomato plants and are no longer able to elicit a hypersensitive reaction (HR) on tobacco, a nonhost plant. In this study we present the complementation analysis and nucleotide sequence of a 4772 by region of this hrp gene cluster. Three complete open reading frames (ORFs) are predicted within this region. The corresponding putative proteins, HrpN, HrpO and HpaP, have predicted sizes of 357, 690 and 197 amino acids, respectively, and predicted molecular weights of 38607, 73 990 and 21959 dalton, respectively. HrpN and HrpO are both predicted to be hydrophobic proteins with potential membrane-spanning domains and HpaP is rich in proline residues. A mutation in hpaP (for hrp associated) does not affect the HR on tobacco or the disease on tomato plants. None of the proteins is predicted to have an N-terminal signal sequence, which would have indicated that the proteins are exported. Considerable sequence similarities were found between HrpO and eight known or predicted prokaryotic proteins: LcrD of Yersinia pestis and Y. enterocolitica, FlbF of Caulobacter crescentus, F1hA of Bacillus subtilis, MxiA and VirH of Shigella flexneri, InvA of Salmonella typhimurium and HrpC2 of Xanthomonas campestris pv. vesicatoria. These homologies suggest that certain hrp genes of phytopathogenic bacteria code for components of a secretory system, which is related to the systems for secretion of flagellar proteins, Ipa proteins of Shigella flexneri and the Yersinia Yop proteins. Furthermore, these homologous proteins have the common feature of being implicated in a distinct secretory mechanism, which does not require the cleavage of a signal peptide. The sequence similarity between HrpO and HrpC2 is particularly high (66% identity and 81 % similarity) and the amino acid sequence comparison between these two proteins presented here reveals the first such sequence similarity to be shown between Hrp proteins of P. solanacearum and X. campestris. An efflux of plant electrolytes was found to be associated with the interactions between P. solanacearum and both tomato and tobacco leaves. This phenomenon may be part of the mechanism by which hrp gene products control and determine plant-bacterial interactions, since hrpO mutants induced levels of leakage which were significantly lower than those induced by the wild type on each plant.     

Negative regulation of pathogenesis in <Emphasis Type="Italic">Pseudomonas syringae</Emphasis> pv. <Emphasis Type="Italic">tabaci</Emphasis> 11528 by ATP-dependent lon protease

Pseudomonas syringae pv. tabaci causes wildfire disease in tobacco plants. The hrp pathogenicity island (hrp PAI) of P. syringae pv. tabaci encodes a type III secretion system (TTSS) and its regulatory system, which are required for pathogenesis in plants. Three important regulatory proteins-HrpR, HrpS, and HrpL-have been identified to activate hrp PAI gene expression. The bacterial Lon protease regulates the expression of various genes. To investigate the regulatory mechanism of the Lon protease in P. syringae pv. tabaci 11528, we cloned the lon gene, and then a Δlon mutant was generated by allelic exchange. lon mutants showed increased UV sensitivity, which is a typical feature of such mutants. The Δlon mutant produced higher levels of tabtoxin than the wild-type. The lacZ gene was fused with hrpA promoter and activity of β-galactosidase was measured in hrp-repressing and hrp-inducing media. The Lon protease functioned as a negative regulator of hrp PAI under hrp-repressing conditions. We found that strains with lon disruption elicited the host defense system more rapidly and strongly than the wild-type strain, suggesting that the Lon protease is essential for systemic pathogenesis.     

Comparison between parental and variant soybeanBradyrhizobium strains with regard to the production of lipo-chitin nodulation signals,early stages of root infection,nodule occupancy,and N2 fixation rates

Soybean is the most important leguminous crop in Brazil and the nitrogen required for plant growth is supplied byBradyrhizobium bacteria through the symbiotic relation established by the inoculation process. Since 1992, two new strains, CPAC 7 and CPAC 15, which have been shown to increase yields in several field experiments, have been recommended in Brazilian commercial inoculants. CPAC 15 is a natural variant of theB. elkanii SEMIA 566 strain, and was isolated after several years of adaptation to a Brazilian Cerrado soil, while CPAC 7 is a variant ofB. japonicum strain CB 1809, selected under laboratory conditions for higher nodulation and yield. The comparison between parental and variant strains, under greenhouse conditions, showed that both CPAC 15 and CPAC 7 increased N₂ fixation rates in relation to the parental strains. The better performance of CPAC 15 was related to an increase in nodule efficiency (mg N₂ fixed mg^-1 nodule) while with CPAC 7 the higher N₂ fixation rates were due to increased nodulation. Both CPAC 15 and CPAC 7 increased nodule occupancy, when co-inoculated at a ratio of 1:1 withB. elkanii 29w, in relation to their parental strains. Variant strains also differed from parental in their ability to increase numbers of root hairs (Hai phenotype) either when inoculated onto plants, or when supernatants of bacteria exposed to seed exudates were used as inoculants. This results lead to the hypothesis that a modification in some of the “common” nodulation genes had occurred. However, the increase in Hai phenotype with CPAC 7 was dependent on the soybean cultivar, indicating a possible alteration in some genotypic specific nodulation gene. Apparently, there were no differences in Nod metabolites produced by strains CPAC 15 and SEMIA 566, but a more detailed chemical analysis would be required to rule out subtle differences. On the contrary, significant differences were found between CPAC 7 and the parental strain CP 1809, in the profile of Nod metabolites. Consequently, it may be possible that diffusable molecules, responsible for Hai phenotype, would be related to nodulation ability, competiviveness, and N₂ fixation, resulting in the higher yields that have been associated with CPAC 7 and CPAC 15. For the CPAC 7 strain, the increase in Hai phenotype could be atributed to the differences found in the Nod molecules. Consequently, a high degree of physiological and genetic variability can result from the adaptation of rhizobial strains to the soil. Also, this variability can be found under laboratory conditions, when searching single colonies with specific properties. ei]Section editor: R O D Dixon