PCR Detection of Cyclic Lipodepsinonapeptide-Producing Pseudomonas syringae pv. syringae and Similarity of Strains

Many strains of Pseudomonas syringae pv. syringae produce one of four classes of small cyclic lipodepsinonapeptides: syringomycins, syringostatins, syringotoxins, or pseudomycins. These metabolites are phytotoxic and growth inhibitory against a broad spectrum of fungi. Their production is dependent upon the expression of conserved biosynthesis and export genes syrB and syrD, respectively. PCR and oligonucleotide primers specific for a 752-bp fragment of syrB were used to identify cyclic lipodepsinonapeptide-producing strains of P. syringae pv. syringae. In contrast, PCR amplification with primers based on syrD did not always correlate with possession of the syrD gene, as indicated by Southern blot analysis, or with cyclic lipodepsinonapeptide production. Sequence comparisons of 400 nucleotides from the syrB PCR-amplified fragments showed 94% plot similarity among 27 strains. In a sequence phenogram, syringostatin and syringotoxin producers were grouped apart from syringomycin-producing strain B301D, with sequences that differed by eight and nine conserved base substitutions, respectively. PCR amplification of the 752-bp syrB fragment offers rapid and accurate detection of cyclic lipodepsinonapeptide-producing strains, and its sequence provides some predictive capabilities for identifying syringotoxin and syringostatin producers.     

Detection of tabtoxin-producing strains of Pseudomonas syringae by PCR

AIMS: The present study describes a system based on PCR to distinguish tabtoxin-producing strains of Pseudomonas syringae from other Ps. syringae plant pathogens that produce chlorosis-inducing phytotoxins. METHODS AND RESULTS: Thirty-two strains of Ps. syringae and related species were examined. Two sets of PCR primers were developed to amplify genes (tblA and tabA) required for tabtoxin production. Only a PCR product of 829 bp or 1020 bp was produced in PCR reactions with the tblA or tabA primer sets, respectively, and cells from tabtoxin-producing pathovars of Pseudomonas syringae. All known non-tabtoxin producing bacterial species failed to produce an amplification product with either primer set. CONCLUSIONS: PCR of genes required for tabtoxin production is a simple, rapid and reliable method for identifying tabtoxin-producing strains of Ps. syringae. SIGNIFICANCE AND IMPACT OF THE STUDY: The protocol can effectively distinguish tabtoxin-producing strains of Ps. syringae from other Ps. syringae pathovars and Ps. syringae pv. tabaci strains from other tabtoxin-producing Ps. syringae pathovars.     

Molecular and Physiological Characterization of Pseudomonas syringae pv. tomato and Pseudomonas syringae pv. maculicola Strains That Produce the Phytotoxin Coronatine

The chlorosis-inducing phytotoxin coronatine is produced by several Pseudomonas syringae pathovars, including glycinea, morsprunorum, atropurpurea, and the closely related tomato and maculicola. To date, all coronatine-producing pv. glycinea, morsprunorum, and atropurpurea strains that have been examined carry the gene cluster that controls toxin production on a large plasmid. In the present study the genomic location of the coronatine gene cluster was determined for coronatine-producing strains of the pv. tomato-maculicola group by subjecting their genomic DNA to pulsed-field electrophoresis and Southern blot analysis with a hybridization probe from the coronatine gene cluster. The cluster was chromosomally borne in 10 of the 22 strains screened. These 10 strains infected both crucifers and tomatoes but could not use sorbitol as a sole source of carbon. The remaining 12 coronatine-producing strains had plasmid-borne toxin gene clusters and used sorbitol as a carbon source. Only one of these strains was pathogenic on both crucifers and tomatoes; the remainder infected just tomatoes. Restriction fragment length polymorphism analysis of the pv. tomato-maculicola coronatine gene clusters was performed with probes from P. syringae pv. tomato DC3000, a tomato and crucifer pathogen. Although the coronatine cluster appeared, in general, to be highly conserved across the pv. tomato-maculicola group, there were significant differences between plasmid-borne and chromosomally borne genes. The extensively studied coronatine cluster of pv. glycinea 4180 closely resembled the plasmid-borne clusters of the pv. tomato-maculicola group.     

Genetic Characterization of Pseudomonas syringae pv. syringae Strains from Stone Fruits in California

Strains of Pseudomonas syringae pv. syringae were isolated from healthy and diseased stone fruit tissues sampled from 43 orchard sites in California in 1995 and 1996. These strains, together with P. syringae strains from other hosts and pathovars, were tested for pathogenicity and the presence of the syrB and syrC genes and were genetically characterized by using enterobacterial repetitive intergenic consensus (ERIC) primers and PCR. All 89 strains of P. syringae pv. syringae tested were moderately to highly pathogenic on Lovell peach seedlings regardless of the host of origin, while strains of other pathovars exhibited low or no pathogenicity. The 19 strains of P. syringae pv. syringae examined by restriction fragment length polymorphism analysis contained the syrB and syrC genes, whereas no hybridization occurred with 4 strains of other P. syringae pathovars. The P. syringae pv. syringae strains from stone fruit, except for a strain from New Zealand, generated ERIC genomic fingerprints which shared four fragments of similar mobility. Of the P. syringae pv. syringae strains tested from other hosts, only strains from rose, kiwi, and pear generated genomic fingerprints that had the same four fragments as the stone fruit strains. Analysis of the ERIC fingerprints from P. syringae pv. syringae strains showed that the strains isolated from stone fruits formed a distinct cluster separate from most of the strains isolated from other hosts. These results provide evidence of host specialization within the diverse pathovar P. syringae pv. syringae.     

Invasion and Exclusion among Coexisting Pseudomonas syringae Strains on Leaves

The invasion and exclusion abilities of coexisting Pseudomonas syringae strains were quantified on leaves. Twenty-nine P. syringae strains were inoculated onto plants in 107 pairwise combinations. All pairs were duplicated so that each strain was inoculated both first as an antagonist strain (day 0) and second as a challenge strain (day 3). The population size of each strain in a mixture was quantified on day 6 following incubation under moist conditions. For P. syringae strains, the presence of an established population often significantly reduced the growth of subsequently arriving challenge strains on the leaf surface. Invasion and exclusion abilities, quantified by contrasting population sizes of challenge strains in the presence and in the absence of another strain, varied significantly among P. syringae strains and were partly a function of the particular strain pair. The population size of a strain when present alone on a leaf was not predictive of invasion or exclusion ability. Successful invaders were significantly less likely to exclude challenge populations than were nonsuccessful invaders. Population sizes of successful excluders were negatively correlated with population sizes of coexisting challenge strains, while population sizes of successful invaders were positively correlated with those of coexisting antagonist strains. The patterns of interaction among coexisting strains suggest mechanisms for successful invasion and exclusion among P. syringae strains on leaves.     

Identification of strA-strB Genes in Streptomycin-Resistant Pseudomonas syringae pv. actinidiae Biovar 2 Strains Isolated in Korea

Bacterial canker is a devastating disease of kiwifruit caused by the bacterium Pseudomonas syringe pv. actinidiae. Canker disease of kiwifruit in Korea has been controlled using streptomycin for more than two decades. Four streptomycin-resistant strains, belonging to biovar 2, which are found only in Korea, were collected between 2013 and 2014 from different orchards located in Jeju, Korea. The genetic background for streptomycin resistance among P. syringe pv. actinidiae strains were determined by examining the presence of strA-strB or aadA, which are genes frequently found in streptomycin-resistant bacteria, and a point mutation at codon 43 in the rpsL gene. All four streptomycin-resistant strains of P. syringe pv. actinidiae investigated in this study contained strA-strB as a resistant determinant. The presence of the aadA gene and a mutation in codon 43 of the rpsL gene was not identified.     

Detection of Pseudomonas savastanoi pv. savastanoi in Olive Plants by Enrichment and PCR

The sequence of the gene iaaL of Pseudomonas savastanoi EW2009 was used to design primers for PCR amplification. The iaaL-derived primers directed the amplification of a 454-bp fragment from genomic DNA isolated from 70 strains of P. savastanoi, whereas genomic DNA from 93 non-P. savastanoi isolates did not yield this amplified product. A previous bacterial enrichment in the semiselective liquid medium PVF-1 improved the PCR sensitivity level, allowing detection of 10 to 100 CFU/ml of plant extract. P. savastanoi was detected by the developed enrichment-PCR method in knots from different varieties of inoculated and naturally infected olive trees. Moreover, P. savastanoi was detected in symptomless stem tissues from naturally infected olive plants. This enrichment-PCR method is more sensitive and less cumbersome than the conventional isolation methods for detection of P. savastanoi.     

Molecular analysis of a pathogenicity locus in Pseudomonas syringae pv. syringae.

One of the chromosomal regions of Pseudomonas syringae pv. syringae encoding pathogenicity factors had been mapped into a 3.9-kilobase-pair fragment in previous studies. Promoter probe analysis indicated the existence of a promoter near one end of the fragment. DNA sequencing of this fragment revealed the existence of a consensus promoter sequence in the region of the promoter activity and two open reading frames (ORFs) downstream. These ORFs, ORF1 and ORF2, encoded putative polypeptides of 40 and 83 kilodaltons, respectively. All ORF1::Tn5 as well as ORF2::Tn5 mutant strains were nonpathogenic on susceptible host bean plants and were unable to elicit hypersensitive reactions on nonhost tobacco plants. The deduced amino acid sequence of the 83-kilodalton polypeptide contained features characteristic of known integral membrane proteins. Fusion of the lacZ gene to ORF2 led to the expression of a hybrid protein inducible in Escherichia coli. The functions of the putative proteins encoded by ORF1 and ORF2 are unknown at present.     

Characterization of Fluorescent and Nonfluorescent Peptide Siderophores Produced by Pseudomonas syringae Strains and Their Potential Use in Strain Identification

Nonfluorescent highly virulent strains of Pseudomonas syringae pv. aptata isolated in different European countries and in Uruguay produce a nonfluorescent peptide siderophore, the production of which is iron repressed and specific to these strains. The amino acid composition of this siderophore is identical to that of the dominant fluorescent peptide siderophore produced by fluorescent P. syringae strains, and the molecular masses of the respective Fe(III) chelates are 1,177 and 1,175 atomic mass units. The unchelated nonfluorescent siderophore is converted into the fluorescent siderophore at pH 10, and colors and spectral characteristics of the unchelated siderophores and of the Fe(III)-chelates in acidic conditions are similar to those of dihydropyoverdins and pyoverdins, respectively. The nonfluorescent siderophore is used by fluorescent and nonfluorescent P. syringae strains. These results and additional mass spectrometry data strongly suggest the presence of a pyoverdin chromophore in the fluorescent siderophore and a dihydropyoverdin chromophore in the nonfluorescent siderophore, which are both ligated to a succinamide residue. When chelated, the siderophores behave differently from typical pyoverdins and dihydropyoverdins in neutral and alkaline conditions, apparently because of the ionization occurring around pH 4.5 of carboxylic acids present in β-hydroxyaspartic acid residues of the peptide chains. These differences can be detected visually by pH-dependent changes of the chelate colors and spectrophotochemically. These characteristics and the electrophoretic behavior of the unchelated and chelated siderophores offer new tools to discriminate between saprophytic fluorescent Pseudomonas species and fluorescent P. syringae and P. viridiflava strains and to distinguish between the two siderovars in P. syringae pv. aptata.     

Immunoenzymatic Detection of PCR Products for the Identification of Phytoplasmas in Plants

Polymerase chain reaction (PCR, with universal and specific primers designed on rRNA genes) provides a rapid, reliable method of diagnosing phytoplasmas (formerly mycoplasma-like organisms) in plants. However, to attain a better identification of these prokaryotes, it is often necessary to digest the PCR products with restriction endonucleases or to hybridize them with specific probes. The present study compared routine procedures for detecting PCR products against a new system, PCRELISA (Boehringer Mannheim), which enables immunoenzymatic detection of PCR products. The results show that this new system provides fast and highly sensitive detection of several phytoplasmas associated with certain trees and shrubs. Optimization of all parameters involved in the PCR-ELISA procedure and its advantages are reported and discussed.     

丁香假单胞菌环式脂肽毒素的生理和分子生物学研究

综合评述了近10年来在丁香假单胞菌脂肽毒素生理和分子生物学研究上的发现。这些毒素依肽部AA数目可分两组。丁香假单胞霉素组(syringomycuns)已报告4个成员,肽部有9个AA;丁香假单胞肽毒素组有2个成员,肽部分别有22个和25个AA。肽部C端羧基与分子内羟基氨基酸残基(AA)的羟基酯化闭合成环,再由羟基脂肪酸酰化。两组毒素都诱导植物电解质渗漏、人和动物红血球溶解,其机制在于在细胞膜上形成二价阳离子可通过的寡体通道。对酵母菌的抑制作用受固醇的种类影响,以胆固醇的保护作用最强。丁香假单胞霉素的合成涉及一个多酶系统,有些负责肽合成,有些负责运输或调节,除受内源调节蛋白调节外,也受外源信号分子调节,尤其是受植物酚糖苷诱导。这些毒素具有抗真菌活性,对人和动物的一些病原霉菌有明显效果,在试验剂量无副作用,在医药上应用的前景良好。     

Identification and relatedness of coronatine-producing Pseudomonas syringae pathovars by PCR analysis and sequence determination of the amplification products.

Production of the chlorosis-inducing phytotoxin coronatine in the Pseudomonas syringae pathovars atropurpurea, glycinea, maculicola, morsprunorum, and tomato has been previously reported. DNA hybridization studies previously indicated that the coronatine biosynthetic gene cluster is highly conserved among P. syringae strains which produce the toxin. In the present study, two 17-bp oligonucleotide primers derived from the coronatine biosynthetic gene cluster of P. syringae pv. glycinea PG4180 were investigated for their ability to detect coronatine-producing P. syringae strains by PCR analysis. The primer set amplified diagnostic 0.65-kb PCR products from genomic DNAs of five different coronatine-producing pathovars of P. syringae. The 0.65-kb products were not detected when PCR experiments utilized nucleic acids of nonproducers of coronatine or those of bacteria not previously investigated for coronatine production. When the 0.65-kb PCR products were digested with ClaI, PstI, and SmaI, fragments of identical size were obtained for the five different pathovars of P. syringae. A restriction fragment length polymorphism was detected in the amplified region of P. syringae pv. atropurpurea, since this pathovar lacked a conserved PvuI site which was detected in the PCR products of the other four pathovars. The 0.65-kb PCR products from six strains comprising five different pathovars of P. syringae were cloned and sequenced. The PCR products from two different P. syringae pv. glycinea strains contained identical DNA sequences, and these showed relatedness to the sequence obtained for the pathovar morsprunorum. The PCR products obtained from the pathovars maculicola and tomato were the most similar to each other, which supports the hypothesis that these two pathovars are closely related.(ABSTRACT TRUNCATED AT 250 WORDS)     

Survival of Ice Nucleation-Active and Genetically Engineered Non-Ice-Nucleating Pseudomonas syringae Strains after Freezing

The survival after freezing of ice nucleation-active (INA) and genetically engineered non-INA strains of Pseudomonas syringae was compared. Each strain was applied to oat seedlings and allowed to colonize for 3 days, and the plants were subjected to various freezing temperatures. Plant leaves were harvested before and after freezing on two consecutive days, and bacterial populations were determined. Populations of the INA wild-type strain increased 15-fold in the 18 h after the oat plants incurred frost damage at −5 and −12°C. Plants colonized by the non-INA strain were undamaged at −5°C and exhibited no changes in population size after two freeze trials. As freezing temperatures were lowered (−7, −9, and −12°C), oat plants colonized by the non-INA strain suffered increased frost damage concomitant with bacterial population increases following 18 h. At −12°C, both strains behaved identically. The data show a relationship between frost damage to plants and increased bacterial population size during the following 18 h, indicating a potential competitive advantage of INA strains of P. syringae over non-INA strains in mild freezing environments.     

Effective Isolation and Identification of Toluene-tolerant Pseudomonas Strains

A total of 1752 strains of osmophilic yeasts were isolated from honey and pollens. Forty-three strains of osmophilic yeasts produced polyols, among which 6 strains produced erythritol in good yields. On the other hand, 52 osmophilic yeasts converted sucrose to fructooligosaccharides, among which 8 strains produced both extra and intracellular β-fructofuranosidase, which converted sucrose to fructooligosaccharides. This investigation concluded that osmophilic yeasts converted sucrose not only to polyols, but also to fructooligosaccharides in good yields.     

Ecological Similarity and Coexistence of Epiphytic Ice-Nucleating (Ice) Pseudomonas syringae Strains and a Non-Ice-Nucleating (Ice) Biological Control Agent

De Wit replacement series were used to study competitive interactions between epiphytic IcePseudomonas syringae strains and the biological frost control agents IceP. syringae TLP2del1 and Pseudomonas fluorescens A506. Mixtures containing two strains in different proportions but at a constant total population size were inoculated onto potato leaves. The population sizes of each strain and the total population size were determined when the community had reached equilibrium. A near-isogenic P. syringae strain pair exhibited an interaction similar to that expected for strains competing equally for limiting environmental resources. Replacement series with nonisogenic Ice and IceP. syringae strain pairs suggested that these strains competed for limiting resources according to their relative competitive abilities. There was no evidence of any niche differentiation between the IceP. syringae strains and the IceP. syringae strain. The growth responses of epiphytes following addition of nutrients to the phyllosphere indicated that the epiphytic P. syringae populations were nutrient limited and that, under growth chamber conditions, the populations were more limited by the availability of carbon than by the availability of nitrogen. Determination of in vitro carbon source utilization profiles provided further evidence for the lack of niche differentiation between the Ice and the IceP. syringae strains. Niche overlap indices calculated for the IceP. syringae strains with respect to IceP. syringae TLP2del1 were uniformly high, indicating ecological similarity, and were consistent with the observed low level of coexistence. The biological frost control agent P. fluorescens A506 replaced P. syringae. This was correlated with a high degree of niche overlap between these species.     

Ecological Similarity and Coexistence of Epiphytic Ice-Nucleating (Ice+) Pseudomonas syringae Strains and a Non-Ice-Nucleating (Ice-) Biological Control Agent

De Wit replacement series were used to study competitive interactions between epiphytic Ice⁺Pseudomonas syringae strains and the biological frost control agents Ice^-P. syringae TLP2del1 and Pseudomonas fluorescens A506. Mixtures containing two strains in different proportions but at a constant total population size were inoculated onto potato leaves. The population sizes of each strain and the total population size were determined when the community had reached equilibrium. A near-isogenic P. syringae strain pair exhibited an interaction similar to that expected for strains competing equally for limiting environmental resources. Replacement series with nonisogenic Ice⁺ and Ice^-P. syringae strain pairs suggested that these strains competed for limiting resources according to their relative competitive abilities. There was no evidence of any niche differentiation between the Ice⁺P. syringae strains and the Ice^-P. syringae strain. The growth responses of epiphytes following addition of nutrients to the phyllosphere indicated that the epiphytic P. syringae populations were nutrient limited and that, under growth chamber conditions, the populations were more limited by the availability of carbon than by the availability of nitrogen. Determination of in vitro carbon source utilization profiles provided further evidence for the lack of niche differentiation between the Ice⁺ and the Ice^-P. syringae strains. Niche overlap indices calculated for the Ice⁺P. syringae strains with respect to Ice^-P. syringae TLP2del1 were uniformly high, indicating ecological similarity, and were consistent with the observed low level of coexistence. The biological frost control agent P. fluorescens A506 replaced P. syringae. This was correlated with a high degree of niche overlap between these species.     

Relatedness of Pseudomonas syringae pv. tomato, Pseudomonas syringae pv. maculicola and Pseudomonas syringae pv. antirrhini

The relationships among strains of Pseudomonas syringae pv. tomato, Ps. syr. antirrhini, Ps. syr. maculicola, Ps. syr. apii and a strain isolated from squash were examined by restriction fragment length polymorphism (RFLP) patterns, nutritional characteristics, host of origin and host ranges. All strains tested except for Ps. syr. maculicola 4326 isolated from radish ( Raphanus sativus L.) constitute a closely related group. No polymorphism was seen among strains probed with the 5.7 and 2.3 kb Eco RI fragments which lie adjacent to the hrp cluster of Ps. syr. tomato and the 8.6 kb Eco RI insert of pBG2, a plasmid carrying the β-glucosidase gene(s). All strains tested had overlapping host ranges. In contrast to this, comparison of strains by RFLP patterns of sequences homologous to the 4.5 kb Hind III fragment of pRut2 and nutritional properties distinguished four groups. Group 1, consisting of strains of pathovars maculicola, tomato and apii , had similar RFLP patterns and used homoserine but not sorbitol as carbon sources. Group 2, consisting of strains of pathovars maculicola and tomato , differed from Group 1 in RFLP patterns and did not use either homoserine or sorbitol. Group 3 was similar to Group 2 in RFLP patterns but utilized homoserine and sorbitol. This group included strains of the pathovars tomato and antirrhini , and a strain isolated from squash. Group 4, a single strain of Ps. syr. maculicola isolated from radish, had unique RFLP patterns and resembled Group 3 nutritionally. The evolutionary relationships of these strains are discussed.