Genetic Analysis of a Pathogenic Erwinia sp. Isolated from Pear in Japan

ABSTRACT Four Erwinia strains, originally isolated in Japan from pear trees with bacterial shoot blight symptoms, were analyzed to determine their genetic relationship with Erwinia amylovora and E. pyrifoliae. When genomes were characterized with amplified fragment length polymorphism markers and by comparative groEL sequence analysis, the Japanese Erwinia sp. and South Korean E. pyrifoliae strains were placed in the same group, which was phylogenetically distinct from a group of 15 strains of E. amylovora. Sequencing of the 29,593-bp plasmid pEJ30 from Erwinia strain Ejp556 revealed that this plasmid was nearly identical to plasmid pEP36 from E. pyrifoliae and was closely related to the nontransferable ubiquitous plasmid pEA29 from E. amylovora. Twenty-one presumptive genes and their order in pEP36 were highly conserved in pEJ30; however, transposon Tn5394, which was present in pEP36, was not found in pEJ30. Short-sequence DNA repeats were conserved between pEJ30 and pEP36, and were different from short-sequence repeats in pEA29. Despite base-pair mismatches, primer pairs used in pEA29 polymerase chain reaction assays for E. amylovora amplified plasmid DNA from the Japanese Erwinia Ejp556 and Ejp562. Like E. pyrifoliae and a few strains of E. amylovora, Japanese Erwinia Ejp617 contained plasmids related to E. pyrifoliae ColE1-related plasmid pEP2.6. Based on these genetic analyses, we conclude that the Erwinia pathogen of pear in Japan is closely related to E. pyrifoliae and that both of these pathogens are demonstrably distinct from E. amylovora.     

Diversity and detection of Korean Erwinia pyrifoliae strains as determined by plasmid profiling, phylogenetic analysis and PCR

Twenty-five strains of Erwinia pyrifoliae were investigated for their plasmid profiles and genetic relatedness. Four types of plasmid profile were observed for the first time, suggesting intraspecific plasmid profile diversity in E. pyrifoliae . Moreover, BOX-PCR and phylogenetic analysis based on the 16S-23S intergenic transcribed spacer (ITS) region showed genetic variations among E. pyrifoliae strains, although all strains were clustered in one group and separated from E. amylovora . On the other hand, ERIC-PCR and phylogenetic analysis based on partial groEL gene sequences revealed close genetic relatedness among the strains. Amplification with EpSPF and EpSPR primers of a fragment of approximately 0·65 kb from the genomic DNA of all E. pyrifoliae strains, but not from E. amylovora strains, suggested that this primer set is useful for identification of this pathogen.     

Improved fireblight diagnostics using quantitative real-time PCR detection of Erwinia amylovora chromosomal DNA

Specific and sensitive TaqMan real-time PCR assays were developed targeting chromosomal DNA of Erwinia amylovora ( ams C gene and ITS region). These assays increased the reliability of detection of E. amylovora strains, regardless of their plasmid profile, and have the ability to differentiate between Erwinia spp. strains from Hokkaido, Erwinia pyrifoliae and Erwinia spp. isolated from necrotic pear blossoms in Spain. The assays were used for testing the efficiency of three different extraction methods to remove plant-based PCR inhibitors. Combined with an automated DNA-extraction method based on magnetic beads (QuickPick™), the real-time PCR assays reliably detected at least 10³ cells mL^−l ( c. four cells per reaction) of the pathogen from blighted woody plant material. In testing of symptomless samples, absolute quantification of E. amylovora before and after enrichment in liquid media provided proof of E. amylovora viability and its ability to multiply, including in cases when subsequent isolation in pure culture was unsuccessful.     

Duplex real-time polymerase chain reaction reveals competition between Erwinia amylovora and E. pyrifoliae on pear blossoms

Erwinia amylovora and E. pyrifoliae are the causative agents of fire blight and Asian pear blight, respectively. The pathogens are closely related, with overlapping host ranges. Data are unavailable on the current distribution of E. pyrifoliae and on the interaction between the two species when they are present together on the same host. In this study, a duplex real-time polymerase chain reaction (PCR) protocol was developed to monitor the population dynamics of E. amylovora and E. pyrifoliae on the surface of Bartlett pear blossoms. Bacterial cells washed from blossoms were used directly as the PCR template without DNA extraction. Primers and a probe based on the E. amylovora levansucrase gene detected all E. amylovora strains. All E. pyrifoliae strains, including the Japanese Erwinia strains previously described as E. amylovora, were detected with a primer and probe combination based on the E. pyrifoliae hrpW gene. Disease development and severity were not significantly different in blossoms inoculated with individual Erwinia species or with a mixture of the two species. However, E. amylovora grew to greater population sizes than did E. pyrifoliae in both single species inoculations and in mixtures, suggesting that E. amylovora has a greater competitive fitness on Bartlett pear blossoms than E. pyrifoliae.     

Eop1 from a Rubus strain of Erwinia amylovora functions as a host-range limiting factor

Strains of Erwinia amylovora, the bacterium causing the disease fire blight of rosaceous plants, are separated into two groups based on host range: Spiraeoideae and Rubus strains. Spiraeoideae strains have wide host ranges, infecting plants in many rosaceous genera, including apple and pear. In the field, Rubus strains infect the genus Rubus exclusively, which includes raspberry and blackberry. Based on comparisons of limited sequence data from a Rubus and a Spiraeoideae strain, the gene eop1 was identified as unusually divergent, and it was selected as a possible host specificity factor. To test this, eop1 genes from a Rubus strain and a Spiraeoideae strain were cloned and mutated. Expression of the Rubus-strain eop1 reduced the virulence of E. amylovora in immature pear fruit and in apple shoots. Sequencing the orfA-eop1 regions of several strains of E. amylovora confirmed that forms of eop1 are conserved among strains with similar host ranges. This work provides evidence that eop1 from a Rubus-specific strain can function as a determinant of host specificity in E. amylovora.     

Genetic analysis of streptomycin-resistant (Sm(R)) strains of Erwinia amylovora suggests that dissemination of two genotypes is responsible for the current distribution of Sm(R) E. amylovora in Michigan

Streptomycin-resistant (Sm(R)) strains of the fire blight pathogen Erwinia amylovora were first isolated in southwest Michigan in 1991. Since that time, resistant strains have progressed northward to other apple-producing regions in the state. A total of 98.7% of Sm(R) strains isolated between 2003 and 2009 in Michigan harbored the strA-strB genes on transposon Tn5393. strA and strB encode phosphotransferase enzymes that modify streptomycin to a nonbactericidal form. Mutational resistance to streptomycin, caused by a point mutation-mediated target-site alteration of the ribosomal S12 protein, occurred in 1.3% of E. amylovora strains from Michigan. Tn5393 was originally introduced to E. amylovora on the plasmid pEa34; thus, the first Sm(R) strains isolated contained both pEa34 and the ubiquitous nonconjugative plasmid pEA29. More recently, we have observed Sm(R) strains in which Tn5393 is present on pEA29, suggesting that the transposon has moved via transposition from pEa34 to pEA29. Almost all of the strains containing Tn5393 on pEA29 had lost pEa34. Of 210 pEA29::Tn5393 plasmids examined, the transposon was inserted at either nucleotide position 1,515 or 17,527. Both of these positions were in noncoding regions of pEA29. Comparative sequencing of the housekeeping genes groEL and potentially variable sequences on pEA29 was done in an attempt to genetically distinguish Sm(R) strains from streptomycin-sensitive (Sm(S)) strains isolated in Michigan. Only 1 nucleotide difference within the total 2,660 bp sequenced from each strain was observed in 2 of 29 strains; multiple sequence differences were observed between the Michigan strains and E. amylovora control strains isolated in the western United States or from Rubus spp. Alterations in virulence observable using an immature pear fruit assay were detected in three of eight Sm(R) strains examined. Our current genetic data indicate that only two Sm(R) strain genotypes (strains containing pEA29::Tn5393 with Tn5393 inserted at either nucleotide position 1,515 or 17,527 on the plasmid) are responsible for the dissemination of Tn5393-encoded streptomycin resistance in Michigan, and that the Sm(R) and Sm(S) strains in Michigan compose a homogenous group.     

Identification of a nonpathogenic Erwinia amylovora guaB mutant

A nonpathogenic Erwinia amylovora transposon mutant that has an insertion in the gua B gene was isolated. The mutation results in a nutritional requirement for guanine or xanthine, and loss of ability to produce ooze on immature pear fruit and to cause symptoms in the apple seedling assay. The mutant expressed other known virulence determinants including extracellular polysaccharide and had an intact hrp/dsp cluster. In addition it was able to grow in host tissue, although the population size in planta was maintained at a considerably lower level than that seen with the parent strain. The inability of the Erwinia amylovora gua B mutant to cause disease indicates that levels of guanine in plant tissue are likely to be insufficient to maintain optimal growth via the purine salvage pathway. This, in turn, appears to compromise the ability of the mutant to develop a sufficiently large population size in planta to overcome host defence mechanisms and cause disease symptoms. This indicates that a functional de novo guanine synthetic pathway is important for Erwinia amylovora to grow on plant tissue and cause disease.     

Serological Differences among Erwinia amylovora Biovars

Serological properties were compared among four biovars of Erwinia amylovora. Two biovars (bvs. 1 and 2) from Maloideae sources outside of Japan, one (bv. 3) from Rubus idaeus and one causing bacterial shoot blight of pear (bv. 4) had different reactions in Ouchterlony double diffusion tests using living cells and lipopolysaccharides (LPS) as antigens. These findings indicate that E. amylovora can be classified into three serotypes; i.e., bvs. 1 and 2, bv. 3 and bv. 4. From results of Ouchterlony double diffusion tests and immunoblots, the specific antigen of the three serotypes may each exist in the LPS of E. amylovora strains. Received 27 March 2002/ Accepted in revised form 2 July 2002     

Phoma–Didymella complex on hybrid arctic bramble with wilting symptoms

Pycnidia containing conidia characteristic of Phoma spp. and pseudothecia containing ascospores characteristic of Didymella applanata were isolated from edges of expanding stem lesions and dead stems of wilted cultivated hybrid arctic bramble plants ( Rubus arcticus nothossp. stellarcticus ) in Sweden in 1998 and 1999. The fungi were morphologically similar when grown on culture media, but some differences in growth rate were observed. They were also similar to the reference isolates of D. applanata (anamorph Phoma argillacea ). However, they were different from an isolate of Phoma sp. (HPP 38) isolated from cultivated arctic bramble ( R. arcticus ssp. arcticus ) in Finland in 1980, and from reference isolates of Phoma glomerata isolated from other hosts. Multivariate analysis of growth rate data and conidial dimensions measured in vitro indicated that the fungi isolated from hybrid arctic bramble in Sweden were not distinguishable from D. applanata , but were clearly distinct from P. glomerata and P. exigua. Furthermore, they had identical ITS1 and ITS2 sequences, and were placed in a phylogenetic clade very closely related to the clade that contained isolates of D. applanata isolated from raspberry ( Rubus idaeus ). In contrast, isolate HPP 38 from Finland was placed in a clade with P. exigua. These data indicate that the Swedish isolates infecting arctic bramble belong to a strain of D. applanata that differs from the isolate infecting raspberry only by two common nucleotide substitutions in ITS2. Fungi of the Phoma–Didymella complex on wild and cultivated arctic bramble (a total of 291 plants showing symptoms sampled from 37 sites) were detected by a PCR-based assay and found to be common in northern Sweden, but rare, albeit widely distributed, in Finland.     

Effect of nectar on microbial antagonists evaluated for use in control of fire blight of pome fruits

ABSTRACT Under warm, dry conditions, Erwinia amylovora can become established in relatively high populations on apple (Malus domestica) or pear (Pyrus communis) flower stigmas, and subsequent wet conditions facilitate its movement to the flower hypanthium where infection generally is initiated through the nectarthodes. Research on biological control of fire blight has focused mainly on the flower stigma, and knowledge is lacking regarding the effect of nectar on microbial antagonists in the flower hypanthium. The biocontrol agents Pseudomonas fluorescens strain A506 and Pantoea agglomerans strain C9-1 were cultured in a basal liquid medium with various concentrations (0 to 50% total sugar) of sucrose or synthetic nectar (sucrose/glucose/fructose, 2:1:1). Strain A506 showed less growth and lower survival than strain C9-1 at high sugar levels, and A506 was less effective than C9-1 as a preemptive antagonist of E. amylovora in high-sugar media. Both antagonist strains were less tolerant to high sugar levels than E. amylovora (strain Ea153). The same bacteria were cultured in a medium with 25% total sugar consisting of various proportions of sucrose, glucose, and fructose, and growth response correlated strongly with solute potential. When 28 microbial strains were cultured in synthetic nectar (25% total sugar) and ranked based on growth, strains clustered according to taxonomic group. Yeasts were most osmotolerant, followed by strains of E. amylovora, Pantoea agglomerans, Bacillus spp., and Pseudomonas spp. Further studies done in planta are necessary to determine whether osmotolerance of antagonists is advantageous in the biological control of fire blight.     

An Indigenous Virulent Strain of Erwinia amylovora Lacking the Ubiquitous Plasmid pEA29

ABSTRACT An atypical strain of Erwinia amylovora was isolated near an outbreak of fire blight at a nursery in Spain in 1996. It was obtained from a Crataegus plant showing typical symptoms and was identified as E. amy-lovora by biochemical tests and enrichment-enzyme-linked immuno-sorbent assay, but not by polymerase chain reaction using primers based on the pEA29 sequence. Nevertheless, with primers from chromosomal regions, the isolate gave the expected amplification band. This strain carries one plasmid of approximately 70 kb, with no homology with the 29-kb plasmid common to all pathogenic strains, or with a large plasmid present in some E. amylovora strains. Growth of the strain in minimal medium without thiamine was slower compared with cultures in the same medium with thiamine, a characteristic typical of strains cured of the 29-kb plasmid. Nevertheless, aggressiveness assays on pear, apple, and Pyracantha plants and in immature pear fruit showed that this strain exhibited a virulence level similar to other strains containing pEA29. To the best of our knowledge, this is the first report of the isolation from naturally infected plant material of a pathogenic strain of E. amylovora without pEA29, but with a plasmid of approximately 70 kb not previously described.     

产harpin的成团泛菌工程菌的构建

 梨火疫病菌(Erwinia amylovora)产生的胞外蛋白harpin是引发其非寄主植物过敏反应的因子。harpin蛋白还具有诱导植物抗性的功能。成团泛菌(Pantoea agglomerans)308R对链格胞属(Alternaria)的真菌具有拮抗活性,是一株抗利福霉素的自发突变株,对壮观霉素敏感。本文通过电击转化法将带有梨火疫病菌hrp基因簇的重组质粒pCPP430导入308R。所得转化子具有pCPP430的壮观霉素抗药性标记,在番茄上引起过敏反应;从转化子中提取到与pCPP430大小一样的质粒,其酶切物理图谱也与pCPP430完全相同;用地高辛标记的harpin的结构基因hrpN为探针对转化子中的质粒进行Southern blotting分析,结果在转化子中得到信号明显的杂交片段,而受体菌308R中未出现杂交信号;提取细菌的外壁的蛋白质进行PAGE分析,在大约44 kd的位置上308R(pCPP430)比308R明显多出1条带。这些结果表明成团泛菌能够表达梨火疫病菌的hrp基因簇,所产harpin蛋白也是有活性的。     

Differentiation of <Emphasis Type="Italic">Erwinia amylovora</Emphasis> strains from Bulgaria by PCR-RFLP analysis

Fifty strains of Erwinia amylovora isolated in Bulgaria from different host plants and locations as well as in different years were analysed by RFLP analysis of the pEA29 PstI amplified fragment with HpaII. All the strains formed three well-resolved fragments (large—from 365 to 440 bp, medium—about 341 bp and small—about 180 bp).The strains were classified into three RFLP groups based on the polymorphism in the length of the largest fragment. This fragment was of intermediate size for 63% of the strains, and it was the longest (from 410 to 440 bp) for 29% of the strains. The variable region was sequenced for five strains. The DNA sequence analysis confirmed the different size of the largest fragment. Ten or more than ten SSRs were found for the strains in the group with the largest size of the largest fragment. Some correlation between the RFLP profiles and the origin of the strains was revealed. The RFLP profiles displayed stability in certain strains isolated from the same trees and orchards, but in different years. The number of SSRs was different in strains isolated from one and the same host plant, orchard and year, and also in strains isolated from the same host plant and orchard, but in different years. This could indicate that under natural conditions the fire blight symptoms might be caused by a mixture of E. amylovora strains with different SSR numbers, and so coexistence of distinguishable strains or a change in the population could be assumed.     

Phenotypic and genetic characterization of Erwinia carotovora from mulberry (Morus spp.)

Phenotypic and genetic characteristics of nine bacterial strains isolated from mulberry ( Morus spp.), which were originally described as Erwinia carotovora ssp. carotovora (Ecc), were investigated. Based on the results of biochemical tests, these bacterial strains were divided into two different types, type 1 and type 2. Two strains of type 1 were similar to Ecc, whereas seven strains of type 2 were distinct from Ecc. A polyphasic study that included serological assay, specific PCR assay for E. carotovora ssp. atroseptica (Eca), PCR-RFLP of a pectate lyase ( pel ) gene and RAPD-PCR was performed on the type 2 strains, and the data were compared with those of related E. carotovora subspecies. The results of serological and specific PCR assays for Eca showed that the type 2 strains were distinct from Eca. In RFLP analysis of the pel gene using Sau 3AI, the type 2 strains showed a unique RFLP pattern. On the basis of RAPD analysis, similarity of RAPD patterns within the type 2 strains was very high. A unique RAPD fragment was isolated from the type 2 strains and used as a probe for Southern hybridization. This probe hybridized only with PCR products from the type 2 strains. Based on phenotypic, serological and genetic characteristics, the type 2 strains isolated from mulberry may belong to a distinct E. carotovora subspecies other than Eca or Ecc.     

Analysis of Variable Short-sequence DNA Repeats on the 29 kb Plasmid of Erwinia amylovora Strains

The fire blight pathogen Erwinia amylovora has been specifically and sensitively detected by PCR assays with primers derived from plasmid pEa29. The amplified fragment of approximately 1kb can vary in length for individual strains, easily seen in a digest with restriction enzymes Sau3A or HpaII. DNA fragments from this variable region were cloned and DNA sequence analysis revealed short-sequence DNA repeat (SSR) motifs which were reiterated to various extents. The SSR units consisted of eight nucleotides (ATTACAGA), and terminated with ATTA which is part of an SSR. The shortest repetition consisted of four units and the longest one in Austrian E. amylovora strains was 15 units. The number of SSR units was remarkably stable during propagation of strains, but was occasionally changed when a strain was stressed by exposure to antibiotics, copper sulphate or storage at low temperature. Changes in the SSR number could be due to adjustment in bacterial fitness to environmental pressure. We designed oligonucleotide PCR primers from DNA sequences adjacent to the SSR region of pEA29 for rapid analysis of SSR length variations. With this PCR assay, more than 130 strains were classified into at least 11 types based on the number of repeats. E. amylovora strains isolated in Germany carried mostly six repeats in pEA29, which never changed under laboratory conditions. E. amylovora strains from Hungary and the Netherlands were quite divergent for the SSRs and further changes were sometimes observed after plating on agar medium. Homology search of nucleotide sequence data libraries revealed similarities of the SSR motif to partition functions of low copy number plasmids. Amino acid homology searches showed similarity of the deduced amino acid sequence in the ORF adjacent to the SSR motif to replication proteins of plasmids. The SSR may play a role in regulation of plasmid replication and partition as assumed for iterons.     

异源Harpin对软腐欧氏杆菌与植物互作关系的影响

 本文通过三亲交配将带有梨火疫欧文氏杆菌功能完整的hrp基因簇的重组粘粒pCPP430转移到了胡萝卜软腐欧氏杆菌(Erwinia carotovora) Se9R中。从接合子中提纯的质粒与pCPP430的大小、酶切图谱相同;以该质粒为模板,用针对hrpN序列的引物经PCR扩增得到与hrpN大小相同的片段;用地高辛标记的hrpN作为探针进行Southern blotting分析,在接合子中的质粒上得到预期的杂交带。接合子可以在烟草叶片上稳定地引起过敏反应。另外,接合子可以在寄主马铃薯叶片上引起过敏反应样枯斑,表明异源harpin的表达及功能不受软腐菌的抑制。该接合子在体外产生的果胶酸裂解酶活性与受体菌Se9R无明显差别。低浓度的接合子在马铃薯块茎上的软腐症状明显低于受体菌Se9R。外源harpin表达可能不改变软腐欧氏杆菌的致病力、而是通过诱导马铃薯抗性达到减轻发病的作用。     

Real-time PCR for detection and quantification of Erwinia amylovora, the causal agent of fireblight

Real-time PCR was used for quantitative detection of Erwinia amylovora , the causative agent of fireblight. Specific primers were created from a DNA fragment of the common plasmid pEA29, successfully used for standard PCR identification of the pathogen. The primers amplified DNA from various E. amylovora strains, but not from other plant-associated bacteria. DNA of E. amylovora was also amplified from field samples and from inoculated apple leaves or flowers. Neither the presence of other bacteria nor low amounts of tissue extracts from bark or leaves changed the signal threshold. Assays with SYBR Green I instead of the Taqman probe showed a similar sensitivity, detecting 50 cells per assay. Real-time PCR could be especially useful for mass screening of commercial products and for resistance studies of transgenic host plants, in breeding experiments and after treatments to control fireblight.     

Polyphasic characterization of xanthomonas strains from onion

ABSTRACT Xanthomonas leaf blight has become an increasingly important disease of onion, but the diversity among Xanthomonas strains isolated from onion is unknown, as is their relationship to other species and pathovars of Xanthomonas. Forty-nine Xanthomonas strains isolated from onion over 27 years from 10 diverse geographic regions were characterized by pathogenicity to onion and dry bean, fatty acid profiles, substrate utilization patterns (Biolog), bactericide resistance, repetitive sequence-based polymerase chain reaction fingerprinting, rDNA internally transcribed spacer (ITS) region, and hrp b6 gene sequencing. Multiplication of onion Xanthomonas strain R-O177 was not different from X. axonopodis pv. phaseoli in dry bean, but typical common bacterial blight disease symptoms were absent in dry bean. Populations from each geographical region were uniformly sensitive to 100 mug of CuSO(4), 100 mug of ZnSO(4), and 100 mug of streptomycin sulfate per ml. Biolog substrate utilization and fatty acid profiles revealed close phenoltypic relatedness between onion strains of Xanthomonas and X. axonopodis pv. dieffenbachiae (57% of strains) and X. arboricola pv. poinsettiicola (37% of strains), respectively. A logistic regression model based on fatty acid composition and substrate utilization classified 69% of strains into their geographical region of origin. Sequencing of a portion of the hrp B6 gene from 24 strains and ITS region from 25 strains revealed greater than 97% sequence similarity among strains. DNA fingerprinting revealed five genotype groups within onion strains of Xanthomonas and a high degree of genetic diversity among geographical regions of origin. Based on pathogenicity to onion, carbon substrate utilization, fatty acid profiles, rDNA genetic diversity, and genomic fingerprints, we conclude that the strains examined in this study are pathovar X. axonopodis pv. allii. Implications of genetic and phenotypic diversity within X. axonopodis pv. allii are discussed in relation to an integrated pest management program.     

New Anastomosis Groups, AG-T and AG-U, of Binucleate Rhizoctonia spp. Causing Root and Stem Rot of Cut-Flower and Miniature Roses

ABSTRACT Root and stem rot of cut-flower roses (Rosa spp.) was observed in commercial glasshouse-grown roses in 10 prefectures of Japan from 1998 through 2001. Binucleate-like Rhizoctonia spp. were isolated mainly from the disease plants. In all, 670 isolates were divided into two types based on cultural appearance; 168 isolates of light brown to brown type and 502 isolates of whitish type. A hyphal anastomosis reaction using representative isolates from each type revealed that the light brown to brown type belonged to anastomosis group G (AG-G), whereas the whitish type (AG-CUT) failed to anastomose with tester strains of binucleate Rhizoctonia AG-A through AG-S. Neither isolates of AG-G nor AG-CUT anastomosed with tester strains of a previously reported unknown AG (AG-MIN) of binucleate Rhizoctonia spp. collected from miniature roses. In pathogenicity tests, randomly selected isolates of the three groups caused root and stem rot on cut-flower and miniature roses. To differentiate AG-CUT and AG-MIN from known AGs of binucleate Rhizoctonia spp., restriction fragment length polymorphism (RFLP) and sequence analyses of a ribosomal (r)DNA internal transcribed spacer (ITS) region were conducted. Among the eight restriction enzymes used, HaeIII produced DNA banding patterns for AG-CUT that differed from those of tester strains and AG-MIN. Additionally, restriction profiles of AG-MIN differed from those of all tester strains. AG-G isolates from cut-flower roses had the same RFLP pattern as the tester strains of AG-G. Based on the results of hyphal anastomosis and RFLP and sequence analysis of an rDNA-ITS region, we propose that AG-CUT be designated AG-T and AG-MIN be designated AG-U, two new AGs of binucleate Rhizoctonia spp. The phylogenetic tree based on the sequence data of the rDNA-ITS region showed that isolates of AG-MIN were in a distinct clade from other AGs, whereas isolates of AG-CUT were in the same clade as those of AG-A. More detailed phylogenetic analysis besides rDNA-ITS region might be necessary for AG classification of binucleate Rhizoctonia spp.     

Taxonomic Position of the Causal Pathogen of Bacterial Shoot Blight of Pear

Bacteriological properties and DNA-DNA homology values were compared among the pathogen causing bacterial shoot blight of pear (BSBP) isolated in 1994–1996, Erwinia amylovora isolated outside of Japan, and other Amylovora group bacteria. Bacteriological properties of BSBP strains were identical to those of E. amylovora in the majority of tests, but differed distinctively in several tests, including hydrolysis of esculin and acid production from salicin, etc. BSBP strains differed from the others in the Amylovora group in many other tests. DNA homology among the strains of BSBP ranged from 85 to 103% and from 83 to 110% among strains of E. amylovora. In contrast, the values between BSBP strains and E. amylovora strains were 55 to 81%, while those between BSBP strains and other Amylovora group strains were 42% or less. We consider, therefore, that the BSBP pathogen may well be included in E. amylovora at the species level. E. amylovora, including BSBP strains, however, can be classified into four biovars based on differences in nine tests such as growth factor requirements and crater formation on high sucrose medium. Namely, there are two biovars from Maloideae sources, one from Rubus idaeus, and one from the source of BSBP in Hokkaido. The presence of these biovars suggests a correlation with geographical, serological, and pathogenic differentiations in the species of E. amylovora. The BSBP pathogen in Hokkaido was identified as E. amylovora bv. 4 which is distinct from E. amylovora bv. 1, 2 and 3 isolated in countries outside of Japan. Received 29 July 1999/ Accepted in revised form 12 October 1999