Purification and properties of d-hydantoin hydrolase and N-carbamoyl-d-amino acid amidohydrolase from Flavobacterium sp. AJ11199 and Pasteurella sp. AJ11221

We characterized recombinant d-hydantoin hydrolase (DHHase) and N-carbamoyl-d-amino acid amidohydrolase (DCHase) from Flavobacterium sp. AJ11199 and Pasteurella sp. AJ11221. The DHHases from these two strains showed a wide range of hydrolytic activity for various 5-monosubstituted d-hydantoin compounds, including a very high level activity for d-hydantoin compounds corresponding to d-aromatic amino acids such as d-tryptophan d-phenylalanine and d-tyrosine. The DCHases, in turn, were capable of catalyzing the hydrolysis of various N-carbamoyl-d-amino acids (NCD-A.A.) corresponding to d-aliphatic and d-aromatic amino acids. The combination of these enzymes was found to be applicable for the production of various d-amino acids.     

Molecular cloning of protease gene(s) from Xanthomanas campestris pv. campestris: Expression in Escherichia coli and role in pathogenicity

Summary The recombinant plasmid pIJ3070 isolated from a genomic library of Xanthomonas campestris pv. campestris constructed in the conjugal cosmid pLAFR3 contains protease gene(s) which can be expressed in Escherichia coli. Tn5 mutagenesis and subcloning revealed that the protease structural gene(s) is(are) located in a ca. 10 kb EcoRI fragment. Several protease-minus mutants of X. c. campestris were obtained by Tn5 mutagenesis of pIJ3070 and marker exchange techniques. Studies of pathogenicity of these Tn5 mutants showed that the protease is not critically important for the pathogenicity of X. c. campestris on turnip plants but may play a minor role in disease development.Abbreviations Gm gentamicin - Km kanamycin - Rif rifampicin - Spc spectinomycin - Sm streptomycin - Tc tetracycline     

Transposable elements ofXanthomonas campestris pv.citri originating from indigenous plasmids

Summary After introduction of the broad host range plasmid RP4 inXanthomonas campestris pv.citri strain XAS4501 twoXanthomonas transposable elements, ISXC4 and ISXC5, were isolated. These elements were found to be capable of transposition inEscherichia coli. Restriction analysis, DNA hybridization and heteroduplex experiments revealed that ISXC4 and ISXC5 are about 5.55 and 6.95 kb in size, respectively, possess inverted repeats about 50±18 bp in length and share DNA homology in their left (5.0 kb) and right (0.6 kb) ends. ISXC4 and ISXC5 were found to originate from plasmids pXW45N and pXW45J, which are indigenous replicons inX. campestris pv.citri strain XW45.     

Conservation of xcp genes, involved in the two-step protein secretion process, in different Pseudomonas species and other gram-negative bacteria

Summary The two-step protein secretion pathway in Pseudomonas aeruginosa is dependent on the xcp genes. We investigated whether a similar secretion mechanism is present in non-pathogenic Pseudomonas spp. and in other gram-negative bacteria. The plant growth stimulating Pseudomonas strains P. putida WCS358, P. fuorescens WCS374 and Pseudomonas 1310 appeared to secrete proteins into the extracellular medium. Southern hybridization experiments showed the presence of xcp genes in these strains and also in other gram-negative bacteria, including Xanthomonas campestris. Complementation experiments showed that the xcp gene cluster of P. aeruginosa restored protein secretion in an X. campestris secretion mutant. The secretion gene cluster of X. campestris however, restored secretion capacity in P. aeruginosa mutants only to a low degree. Two heterologous proteins were not secreted by P. fuorescens and P. aeruginosa. The results suggest the presence of a similar two-step protein secretion mechanism in different gram-negative bacteria, which however, is not always functional for heterologous proteins.     

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.     

N-Coronafacoyl-L-isoleucine and N-coronafacoyl-L-alloisoleucine,potential biosynthetic intermediates of the phytotoxin coronatine

Two new naturally-occurring analogues of the phytotoxin coronatine have been isolated from liquid cultures of Pseudomonas syringae pv. glycinea. These have been identified as N-coronafacoyl-L-isoleucine and N-coronafacoyl-L-alloisoleucine by mass spectrometry and by studies of the products of acid hydrolysis of the two compounds. The compounds were purified as a mixture of ca 2:1 composition, but the two parent components were not preparatively separated. The possible significance of the two compounds, to the biosynthesis of coronatine, is discussed.     

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。...     

Evidence for clustered pathogenicity genes in Xanthomonas campestris pv. campestris

Summary Plasmid pIJ3000 contains DNA from the plant pathogen Xanthomonas campestris pv. campestris which restores symptom production to a non-pathogenic mutant. pIJ3000 was mutagenised with the kanamycin resistance transposon Tn5 in Escherichia coli, and the sites of insertion were mapped physically. Derivatives of pIJ3000 containing Tn5 inserted in X. c. campestris DNA were introduced into a wild-type X. c. campestris strain, and the Tn5 insertions recombined into the genome by a marker exchange process. The resulting strains were tested for pathogenicity to turnip seedlings.The parts of the cloned DNA required for symptom production by the wild-type were defined by correlating the phenotype of each Tn5 insertion in the genome with its position in pIJ3000. This led to the identification of a region of approximately 10 kb consisting of a cluster of genes involved in pathogenicity.Dedicated to Professor Georg Melchers to celebrate his 50-year association with the journal     

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.     

Resistance in tomato to Xanthomonas campestris pv vesicatoria is determined by alleles of the pepper-specific avirulence gene avrBs3

Bacterial spot disease of tomato and pepper caused by Xanthomonas campestris pv vesicatoria is prevented by resistance genes in the plant that match genes for avirulence in the bacterium. Based on DNA homology to the avirulence gene avrBs3, which induces the resistance response on pepper, we have isolated another avirulence gene from X. c. vesicatoria, designated avrBs3-2. This gene differs in specificity from avrBs3 in inducing the hypersensitive response on tomato but not on pepper. Sequence analysis of the avrBs3-2 gene revealed a high degree of conservation: the 3480 by open reading frame contains an internal region of 17.5 nearly identical 102 bp repeat units that differ in their order from those present in the avrBs3 gene. The coding region is 97% identical to avrBs3 and expresses constitutively a 122 kDa protein, thus representing a natural allele of this gene. The previously isolated 1.7 kb avrBsP gene from X. c. vesicatoria is 100% identical to the corresponding avrBs3-2 sequence, indicating that these genes might be identical. Interestingly, derivatives of avrBs3-2 lacking the C-terminal region and part of the repetitive region are still able to confer incompatibility in tomato. The avrBs3-2 gene is compared with the sequence of avrBs3 derivatives generated by deletion of repeat units that also have avirulence activity on tomato. Both genes, avrBs3 and avrBs3-2, are flanked by a 62 by long inverted repeat, which prompts speculations about the origin of the members of the avrBs3 gene family.     

Insights into the genome of the xanthan-producing phytopathogen Xanthomonas arboricola pv. pruni 109 by comparative genomic hybridization

The phytopathogenic bacterium Xanthomonas arboricola pv. pruni is the causal agent of Prunus Bacterial Spot disease that infects cultivated Prunus species and their hybrids. Furthermore, X. arboricola pv. pruni (Xap) plays a role in biotechnology since it produces xanthan gum, an important biopolymer used mainly in the food, oil, and cosmetics industry. To gain first insights into the genome composition of this pathovar, genomic DNA of X. arboricola pv. pruni strains was compared to the genomes of reference strains X. campestris pv. campestris B100 (Xcc B100) and X. campestris pv. vesicatoria 85-10 (Xcv 85-10) applying microarray-based comparative genomic hybridizations (CGH). The results implied that X. arboricola pv. pruni 109 lacks 6.67% and 5.21% of the genes present in the reference strains Xcc B100 and Xcv 85-10, respectively. Most of the missing genes were found to be organized in clusters and do not belong to the core genome of the two reference strains. Often they encode mobile genetic elements. Furthermore, the absence of gene clusters coding for the lipopolysaccharide (LPS) O-antigens of Xcc B100 and Xcv 85-10 indicates that the structure of the O-antigen of X. arboricola pv. pruni 109 differs from that of Xcc B100 and Xcv 85-10.     

The Extracellular Proteases of the Phytopathogenic Bacterium Xanthomonas campestris

The culture liquids of three Xanthomonas campestris pv. campestris strains were found to possess proteolytic activity. The culture liquid of strain B611 with the highest proteolytic activity was fractionated by salting-out with ammonium sulfate, gel filtration, and ion-exchange chromatography. The electrophoretic analysis of active fractions showed the presence of two proteases in the culture liquid of strain B611, the major of which was serine protease. The treatment of cabbage seedlings with the proteases augmented the activity of peroxidase in the cabbage roots by 28%.     

The genetic characterization of Pseudomonas syringae pv. tagetis based on the 16S–23S rDNA intergenic spacer regions

Pseudomonas syringae pv. tagetis, a plant pathogen being considered as a biological control agent of Canada thistle (Cirsium arvense), produces tagetitoxin, an inhibitor of RNA polymerase which results in chlorosis of developing shoot tissues. Although the bacterium is known to affect several plant species in the Asteraceae and has been reported in several countries, little is known of its genetic diversity. The genetic relatedness of 24 strains of P. syringae pv. tagetis with respect to each other and to other P. syringae and Pseudomonas savastanoi pathovars was examined using 16S–23S rDNA intergenic spacer (ITS) sequence analysis. The size of the 16S–23S rDNA ITS regions ranged from 508 to 548 bp in length for all 17 P. syringae and P. savastanoi pathovars examined. The size of the 16S–23S rDNA ITS regions for all the P. syringae pv. helianthi and all the P. syringae pv. tagetis strains examined were 526 bp in length. Furthermore, the 16S–23S rDNA ITS regions of both P. syringae pv. tagetis and P. syringae pv. helianthi had DNA signatures at specific nucleotides that distinguished them from the 15 other P. syringae and P. savastanoi pathovars examined. These results provide strong evidence that P. syringae pv. helianthi is a nontoxigenic form of P. syringae pv. tagetis. The results also demonstrated that there is little genetic diversity among the known strains of P. syringae pv. tagetis. The genetic differences that do exist were not correlated with differences in host plant, geographical origin, or the ability to produce toxin.     

Co-production of ice nuclei and xanthan gum by transformed Xanthomonas campestris grown in sugar beet molasses

Two recombinant plasmids, expressing ice nucleation activity, were constructed and named pCPP30inaZ and pCPP38inaZ. They were transferred to the ice-negative, xanthan-producing Xanthomonas campestris pv. campestris by electroporation. The transformants were used for co-production of xanthan gum and ice nuclei from sugar beet molasses. The highest values obtained were 20 g l^–1 and 10¹⁸ ice nuclei ml^–1, respectively. The above values fulfil the criteria for industrial manipulation. This is the first report on co-formation of two products by a transformed X. campestris strain.     

Reduced but accurate translation from a mutant AUA initiation codon in the mitochondrial COX2 mRNA of Saccharomyces cerevisiae

The gene encoding the XorII methyltransferase (M · XorII) was cloned from Xanthomonas oryzae pv. oryzae and characterized in Escherichia coli. The M · XorII activity was localized to a 3.1 kb BamHI-BstXI fragment, which contained two open reading frames (ORFs) of 1272 nucleotides (424 amino acids) and 408 nucleotides (136 amino acids). Ten polypeptide domains conserved in other M⁵ cytosine methyltransferases (MTases) were identified in the deduced amino acid sequence of the 1272 ORF. E. coli Mrr⁺ strains were transformed poorly by plasmids containing the XorII MTase gene, indicating the presence of at least one ^MCG in the recognition sequence for M · XorII (CGATCG). The 408 nucleotide ORF was 36% identical at the amino acid level to sequences of the E. coli dcm-vsr gene, which is required for very short patch repair. X. oryzae pv. oryzae genomic DNA that is resistant to digestion by Pvul and XorII hybridizes with a 7.0 kb fragment containing the XorII MTase gene and vsr homolog, whereas DNA from strains that lack M · XorII activity do not hybridize with the fragment.The sequence presented in this paper has been submitted to NCBI; the accession number is U06424     

Xanthomonas campestris, a novel stress tolerant, phosphate-solubilizing bacterial strain from saline–alkali soils

A total of 198 bacterial strains were isolated from various niches of saline–alkali soils, out of which 85 strains were able to solubilize phosphate on plates at 30 °C. The strain RMLU-26, identified as Xanthomonas campestris, was the most efficient with its ability to solubilize P, subjected to N-methyl-N′-nitro-N-nitrosoguanidine (NTG) for development of mutants. The P solubilizing ability of X. campestris is reported for the first time. The wild type and mutant strains of X. campestris revealed a differential response to various stress factors (high pH, temperature, and salt concentration). The mutant strain revealed maximum P solubilization (67.1%) at 30 °C and pH 8.0 while the wild type strain showed maximum solubilization (41.9%) at 35 °C and pH 7.0. Percent P₂O₅ solubilization by both strains revealed a steep decline in tricalcium phosphate solubilization with an increase in NaCl concentration from 0.5 to 10% along with a concomitant drop in pH of the medium from 8.0 to 4.5 in wild type and 4.0 in mutant strain. However, a 1.5- to 2-fold increase in ‘P’ solubilization was observed in the mutant strain when compared to the wild type strain in the presence of NaCl. The overall improved tolerance of the strains to alkalinity and salinity could be due to accumulation and/or secretion of specific solute (xanthan).     

Norcoronatine and N-coronafacoyl-L-valine,phytotoxic analogues of coronatine produced by a strain of Pseudomonas syringae pv. glycinea

Compounds in liquid cultures of the phytopathogenic bacterium Pseudomonas syringae pv. glycinea that cause chlorosis after application to young bean leaves have been investigated. Known compounds that were isolated and identified were coronatine, the major component, and N-coronafacoyl-L-valine, which are both biologically active, and coronafacic acid which is inactive. In addition a new minor component was isolated and purified. Mass spectrometry indicated that this was an amide of coronafacic acid, bearing one less methylene group than coronatine. Mass spectral and NMR data, together with a study of the products from acid hydrolysis of the new compound, established its structure to be norcoronatine (i.e. a methyl substituent in place of the 2-ethyl substituent on the cyclopropyl moiety of coronatine). The probable biosynthetic derivation of norcoronatine is discussed.     

Antiprotozoal alkaloids from Galanthus trojanus

Two new alkaloid N-oxides, 1-O-acetyldihydromethylpseudolycorine N-oxide, and 11-hydroxyvittatine N-oxide, ten known alkaloids; arolycoricidine, haemanthamine, O-methylnorbelladine, narcidine, dihydrolycorine, 8-O-demethylmaritidine, stylopine and protopine, nicotinic acid and tyramine were isolated from Galanthus trojanus A.P. Davis & N. Özhatay (Amaryllidaceae). The chemical structures of the isolates were elucidated by UV, IR, MS, CD, 1D and 2D NMR experiments. The in vitro antiprotozoal and cytotoxic potentials of the compounds were also evaluated.     

Genomic Relatedness of Xanthomonas campestris Strains Causing Diseases of Citrus

Xanthomonas campestris strains that cause disease in citrus were compared by restriction endonuclease analysis of DNA fragments separated by pulsed-field gel electrophoresis and by DNA reassociation. Strains of X. campestris pv. citrumelo, which cause citrus bacterial spot, were, on average, 88% related to each other by DNA reassociation, although these strains exhibited diverse restriction digest patterns. In contrast, strains of X. campestris pv. citri groups A and B, which cause canker A and canker B, respectively, had relatively homogeneous restriction digest patterns. The groups of strains causing these three different citrus diseases were examined by DNA reassociation and were found to be from 55 to 63% related to one another. Several pathovars of X. campestris, previously shown to cause weakly aggressive symptoms on citrus, ranged from 83 to 90% similar to X. campestris pv. citrumelo by DNA reassociation. The type strain of X. campestris pv. campestris ranged from 30 to 40% similar in DNA reassociation experiments to strains of X. campestris pv. citrumelo and X. campestris pv. citri groups A and B. Whereas DNA reassociation quantified the difference between relatively unrelated groups of bacterial strains, restriction endonuclease analysis distinguished between closely related strains.     

Enzyme-catalysed deprotection of N-acetyl and N-formyl amino acids

To investigate the full potential of hydrolases for the removal of two amine-protecting groups, 15 different, commercially available lipases, acylases, proteases and esterases were studied for the hydrolyses of N-acetyl and N-formyl protecting groups. In addition to the well-known acylases from porcine kidney and Aspergillus melleus, this screening revealed that porcine liver esterase and the lipases from Rhizomucor miehei and Pseudomonas stutzeri are also catalysts for the hydrolysis of N-acetylalanine. The activity of lipases in this reaction was unexpected, since lipases are commonly believed not to hydrolyse amides. In addition, from these 15 enzymes, three were found to be active in the hydrolysis of N-formylalanine, i.e. porcine liver esterase and the two acylases. This is the first example where esterase is employed to deprotect N-formyl amides.