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1.
Takayuki Matsuura Hirosuke Shinohara Yasuhiro Inoue Koji Azegami Seiya Tsushima Takanori Tsukamoto Akifumi Mizuno 《Journal of General Plant Pathology》2007,73(1):53-58
The phylogenetic relationships among Erwinia amylovora biovar 4 (the pathogen of bacterial shoot blight of pear in Japan), other biovars of E. amylovora, and Erwinia pyrifoliae were investigated using the sequences of 16S rRNA, gyrB, and rpoD genes. The tested isolates formed two distinct monophyletic groups in the phylogenetic trees constructed based on the gyrB gene, rpoD gene, or a combination of the three genes: group 1 contained E. amylovora biovars 1, 2, and 3; group 2 contained E. amylovora bv. 4 and E. pyrifoliae. This phylogenetic analysis showed that E. amylovora bv. 4 was more closely related to E. pyrifoliae than to other biovars of E. amylovora.
The nucleotide sequence data reported are available in the DDBJ/EMBL/GenBank databases under the accession numbers AB242876
to AB242925. 相似文献
2.
J. Blom J. Cabrefiga A. Goesmann B. Duffy E. Montesinos T. H. M. Smits M. M. López 《Plant pathology》2013,62(4):786-798
Erwinia piriflorinigrans is a newly described pathogen causing necrosis of pear blossoms. Complete sequencing of the 37‐kb plasmid pEPIR37 common to 27 E. piriflorinigrans strains revealed homology to sequences of the ubiquitous plasmids pEA29 of the fire blight pathogen E. amylovora, plasmid pEP36 of E. pyrifoliae, plasmid pEJ30 of Erwinia sp. from Japan, and genomic regions of the related Rosaceae epiphytic Erwinia species E. tasmaniensis and E. billingiae. A second 5·5‐kb cryptic plasmid pEPIR5, found in 12 E. piriflorinigrans strains, was also sequenced revealing mobilization and replication proteins with similarities to many small ColE1‐type plasmids in Erwinia spp. and other enterobacteria. Functional analyses of pEPIR37 introduced into a strain of E. amylovora cured of pEA29 plasmid, which has a reduced virulence, showed a role in increasing symptom development similar to that observed in E. amylovora carrying plasmid pEA29. 相似文献
3.
Shulamit Manulis D. Zutra Frida Kleitman Orit Dror I. David Miriam Zilberstaine E. Shabi 《Phytoparasitica》1998,26(3):223-230
Following failure in control of fire blight with streptomycin, the distribution of streptomycin-resistant strains ofErwinia amylovora in Israel was surveyed. During 1994–1997 109 pear, apple, loquat and quince orchards were monitored. Streptomycin-resistant
strains ofE. amylovora were recovered from flowers and from infected branches collected at 18 locations in the Sharon, Galilee and Golan Heights
regions. In the Sharon region all the isolated strains ofE. amylovora were streptomycin-resistant, whereas in the Galilee and Golan Heights, resistant as well as sensitiveE. amylovora strains were recovered at different locations. In the southern coastal plain no resistance could be detected. Streptomycin-resistant
strains ofE. amylovora did not hybridize with the DNA probe SMP3, and resistance could not be transferred by mating to a sensitive strain, suggesting
that streptomycin resistance in Israel is not plasmid-mediated. Fire blight symptoms were observed, for the first time, on
pear blossoms during the autumn of 1994. A high population of 2x 106-6x 107 CFU/flower in the autumn of 1995 and of 1996 was correlated with the appearance of blossom blight symptoms. 相似文献
4.
Akifumi Mizuno Takanori Tsukamoto Yoshiaki Shimizu Hitoshi Ooya Takayuki Matsuura Norihiko Saito Shigeyoshi Sato Shigemi Kikuchi Tsuneyasu Uzuki Kouji Azegami 《Journal of General Plant Pathology》2010,76(1):43-51
Black lesions on shoots of European pear trees observed in an orchard in Yamagata Prefecture in May 2007 were suspected to
be caused by a bacterial pathogen. The surface of the colonies isolated on a high sucrose medium did not have the crater morphology
that is characteristic of E. amylovora bvs. 1–3, and a specific DNA fragment was amplified from the isolates in the PCR using the EprpoD primer set. The partial
sequences of the 16S rRNA gene placed the isolates in the genus Erwinia. The isolates differed serologically from E. amylovora biovars and E. pyrifoliae in an Ouchterlony double-diffusion test although their bacterial properties suggested that they are closely related to E. amylovora biovars and E. pyrifoliae. In a DNA–DNA hybridization test, the relatedness between the isolates and E. amylovora biovars or E. pyrifoliae did not exceed 70% level, indicating that they are independent species. Thus, the isolates belongs to the genus Erwnia but are not E. amylovra or E. pyrifoliae. After succulent pear shoots were injected with bacterial suspensions (109, 108, 107 and 106 cfu/ml) of the isolates, lesions formed with 109 and 108 cfu/ml, but the disease incidence with 108 cfu/ml was much lower than with E. amylovora and E. pyrifoliae. Virulence of the present isolates is thus thought to be very weak. On the basis of these results, we consider that this
is a new shoot disease of European pear. In the 2007 season, all affected trees were pulled out after harvest. No symptoms
have been observed in field surveys since the fruitlet season in 2007. 相似文献
5.
The non‐protein amino acid 3,4‐dehydro‐l ‐proline (DHP) significantly reduced the incidence of fire blight infection on immature pear fruits infected with wildtype Erwinia amylovora. DHP also inhibited biofilm formation in both streptomycin‐sensitive and ‐resistant strains of E. amylovora and induced dispersal of preformed biofilms in the streptomycin‐sensitive strain. The investigations shed light on the hitherto undiscovered ability of DHP to inhibit bacterial biofilms and its potential as a chemical control option for fire blight. 相似文献
6.
Malgorzata Waleron Krzysztof Waleron Joanna Kamasa Wlodzimierz Przewodowski Ewa Lojkowska 《European journal of plant pathology / European Foundation for Plant Pathology》2011,131(2):341-354
The utility of polymorphism analysis was determined for differentiation of the following subspecies of the Gram-positive plant
pathogenic bacterium, Clavibacter michiganensis: C. m. subsp. michiganensis, C. m. subsp. sepedonicus, C. m. subsp. insidiosus C. m. subsp. nebraskensis, and C. m. subsp. tessellarius. Specific primers designed for amplification of the housekeeping genes recA, rpoB, and rpoD generated 827-, 1037-, and 862-bp DNA fragments, respectively. PCR products obtained from 40 C. michiganensis strains were analysed using RFLP with four restriction endonucleases, and those PCR products with specific RFLP patterns
were sequenced. The genotypes discriminated after PCR–RFLP were specific for each subspecies and also allowed for differentiation
of C. m. subsp. michiganensis strains. Sequence analysis of the recA, rpoB, and rpoD gene fragments also distinguished C. michiganensis subspecies and was useful for phylogenetic analysis of all subspecies. For rapid, inexpensive, and effective differentiation
of the five subspecies in this research, we recommend the amplification of recA and/or rpoD gene fragments and digestion of the PCR products with the restriction endonuclease FnuDII. 相似文献
7.
Bacterial wilt is one of the most destructive diseases affecting a wide range of crops in the Cucurbits family including muskmelon (Cucumis melo), cucumber (Cucumis sativus), and squash (Cucubita pepo). The disease is caused by Erwinia tracheiphila, a Gram-negative and xylem-inhabiting species of Erwinia, which pathogenic mechanism is poorly understood. Many Gram-negative phytobacteria induce hypersensitive response (HR) in non-host plants, an immunity reaction triggered by pathogen recognition. With some exemptions, Erwinia species—notably E. amylovora, the causative agent of fire blight of rosaceous crops, and the reclassified soft rot pathogens, Pectobacterium and Dickeya species (formerly E. carotovora and E. chrysanthemi)—have been known to elicit HR in tobacco. However, concerning its pathogenic mechanism, the elicitation of classic HR has not been reported for some less-studied Erwinia species including E. tracheiphila. We characterized the induction of HR by the bacterial wilt pathogen in tobacco (Nicotiana tabacum cultivar ‘Xanthi’) using visual and physiological methods. We surveyed 21 E. tracheiphila strains and found that all of them elicited programmed cell death. Three strains (HCa1-5, UnisCu1-1, and MISpSq) fluorescently labeled with GFP could be visualized in the infiltrated leaves. We aligned the sequences of their HR-inducing protein, harpin (HrpN), predicted the secondary structures, and located the position of putative HR elicitors. We discovered differences between Cucurbita and Cucumis strains and found a close association of E. tracheiphila HrpN with those of Pantoea sp., Erwinia piriflorinigrans, and Erwinia pyrifoliae. Pre-infiltration of tobacco leaves with a lower cell population prevented HR following a subsequent challenge at the same area with HR-inducing levels of inoculum. The selected strains induced leaf conductivity levels similar to the HR-inducing E. amylovora strain E9, and their populations in the leaves decreased days after infiltration. Our results indicate that E. tracheiphila induces a classic HR in tobacco just like other HR-inducing Erwinia species. 相似文献
8.
Dong Liu Zhiwei Qin Yanju Zhang Xiuyan Zhou Ming Xin 《European journal of plant pathology / European Foundation for Plant Pathology》2017,147(2):455-461
Erwinia amylovora is the causative agent of fire blight, which is a destructive bacterial disease of rosaceous plants. In Hungary Erwinia amylovora (Burrill) Winslow et al. was first detected in 1996. Since the appearance of fire blight, E. amylovora samples have been collected from different host plats from various geographic locations. A motif of eight nucleotides (ATTACAGA) is repeated 3–15 times in the PstI fragment of the pEa29 plasmid in Erwinia amylovora strains, and represents a valuable tool for strain classification. The number of short-sequence DNA repeats in plasmid pEa29 of 30 Hungarian isolates were determined by PCR assays and they ranged from five to ten. The SSR test is suitable for distinguishing the individual strains between the E. amylovora isolates. The examined isolates showed high pathogenicity on immature pear fruits. Several biochemical techniques, such as miniaturized API 20E, were applied on the samples. Differences were also revealed in microbiological assays like levan formation and colony morphology on semi-selective media. Examining the Hungarian Erwinia amylovora population by molecular analysis we can draw the conclusion that the population consists of different strains, which shows great diversity. E. amylovora is a widespread pathogen in Hungary, which is supported by the 30 strains isolated from various host plants from many parts of the country. The phenotypic diversity-evaluation of the E. amylovora strains showed, that they differ metabolically, like other plant pathogenic bacteria as reported by several authors. This is the first report on the diversity of E. amylovora strains isolated from Hungary. 相似文献
9.
Rosemary Shrestha Kenichi Tsuchiya Su Jin Baek Hu Nam Bae Ingyu Hwang Jang Hyun Hur Chun Keun Lim 《Journal of General Plant Pathology》2005,71(3):211-220
Erwinia pyrifoliae, the causal pathogen of shoot blight in the Asian pear tree (Pyrus pyrifolia cv. Singo), is host-specific and endemic to Korea. To identify the genes associated with the hypersensitive response (HR) and pathogenicity, a genomic library of E. pyrifoliae WT3 was constructed, and the cosmid clone Escherichia coli (pCEP33) was selected. Sequence analysis of 19.7-kb pCEP33 determined disease-specific (dsp) region homolog and approximately 40% of the hrp genes, which included hrpW, hrpNEp, hrpV, hrpT, hrcC, hrpG, hrpF, and partial hrpE homologs, with respect to the cluster of Erwinia amylovora. Additionally, two open reading frames, ORFD and ORFE, were found downstream of the dspEF region. The results of the sequence analysis showed that the pCEP33 did not contain any hrp regulatory genes or most of the genes encoding components of the Hrp protein secretion system. The hrpNEp gene of E. pyrifoliae contained five intergenic nucleotide fragment insertions (INFIs) and produced the HR elicitor protein harpinEp, with a molecular mass of approximately 44kDa. The purified HrpNEp protein elicited faster and stronger HR when infiltrated into tobacco leaves than did HrpNEa from E. amylovora. To observe the role of the hrpL gene in the expression of HrpNEp, the pEL2 containing hrpL was used to transform E. coli (pCEP33). Expression of HrpNEp in E. coli (pCEP33 + pEPL2) was detected with an immunoblot using antiserum raised against HrpNEp, indicating a role of hrpL gene in enhancing the expression of HrpNEp. 相似文献
10.
A collection of 205 strains ofErwinia amylovora isolated in Israel over a period of 12 years has been established. The strains were isolated from different varieties of
pear, apple, loquat and quince grown in Israel, and collected from different locations in the country. They were characterized
in respect to degree of virulence on several hosts and serological and molecular characters. Pathogenicity tests carried out
on flowering branches of pear and apple, shoots of pears, and on trees of pear and loquat grown in containers outdoors, revealed
no significant differences in the severity of blossom blight or shoot blight among the various strains. ELISA and immunofluorescence
assays revealed no serotypic groups among the Israeli strains. Genomic diversity was studied by random amplified polymorphic
DNA (RAPD) analysis using 24 arbitrary 10-base primers. All the strains examined (45 Israeli and 11 from Egypt, Cyprus and
Greece) produced the same RAPD patterns with each of the primers used. Amplification patterns were indistinguishable from
those produced by strains isolated from the neighboring countries. Results presented in this study suggest that the population
ofE. amylovora in Israel is homogenous. 相似文献
11.
Akifumi MIZUNO Shigeyoshi SATO Akira KAWAI Koushi NISHIYAMA 《Journal of General Plant Pathology》2000,66(1):48-58
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 相似文献
12.
Iliana Atanasova Petia Kabadjova-Hristova Katerina Stefanova Nevena Bogatzevska Penka Moncheva 《European journal of plant pathology / European Foundation for Plant Pathology》2009,124(3):451-456
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. 相似文献
13.
Inoculation of Malus genotypes with a set of Erwinia amylovora strains indicates a gene‐for‐gene relationship between the effector gene eop1 and both Malus floribunda 821 and Malus ‘Evereste’ 
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下载免费PDF全文 T.W. Wöhner K. Richter G. W. Sundin Y. Zhao V. O. Stockwell J. Sellmann H. Flachowsky M.‐V. Hanke A. Peil 《Plant pathology》2018,67(4):938-947
The Gram‐negative bacterium Erwinia amylovora, causal agent of fire blight disease in pome fruit trees, encodes a type three secretion system (T3SS) that translocates effector proteins into plant cells that collectively function to suppress host defences and enable pathogenesis. Until now, there has only been limited knowledge about the interaction of effector proteins and host resistance presented in several wild Malus species. This study tested disease responses in several Malus wild species with a set of effector deletion mutant strains and several highly virulent E. amylovora strains, which are assumed to influence the host resistance response of fire blight‐resistant Malus species. The findings confirm earlier studies that deletion of the T3SS abolished virulence of the pathogen. Furthermore, a new gene‐for‐gene relationship was established between the effector protein Eop1 and the fire blight resistant ornamental apple cultivar Evereste and the wild species Malus floribunda 821. The results presented here provide new insights into the host–pathogen interactions between Malus sp. and E. amylovora. 相似文献
14.
M. Mohammadi E. Moltmann W. Zeller K. Geider 《European journal of plant pathology / European Foundation for Plant Pathology》2009,124(2):293-302
Erwinia amylovora, the causal agent of fire blight, carries the common plasmid pEA29 of 29 kb. To screen for occurrence of natural strains
without plasmid pEA29, we applied PCR analysis with primers from the plasmid and the chromosomal ams region. In addition, a described TaqMan probe from pEA29 and newly designed primers from the ams-region were used for identification by real-time PCR. One strain isolated in Iran, one strain from Spain and two strains
from Egypt lacked plasmid pEA29. From a recent screening series in southern Germany, in 123 E. amylovora strains from necrotic fire blight host plants, one strain was found without the common plasmid. The strains without pEA29
were virulent in assays with immature pears and on apple seedlings, but showed a reduced growth level in minimal medium without
amino acids and thiamine. Transposon-labelled pEA29 was transformed into the plasmid-free strains resulting in restoration
of this growth deficiency. The plasmid was stably maintained in these E. amylovora cells. The newly designed chromosomal primers for conventional and for real-time PCR identified E. amylovora strains in field samples lacking pEA29. These variants are apparently rare, but were detected in isolates from different
regions in the world with fire blight. 相似文献
15.
Karen Walters Ali Maroofi Ed Hitchin John Mansfield 《Physiological and Molecular Plant Pathology》1990,36(6)
A genomic library of Erwinia amylovora isolate T was constructed in the cosmid pLAFR3 and maintained in Escherichia coli. Clones were transferred individually by conjugation into the non-pathogenic isolate P66 of E. amylovora. Transconjugants were screened for restoration of pathogenicity to pear by stab inoculation into sections of immature pear fruits. Three clones complemented P66 restoring pathogenicity and ability to cause the hypersensitive reaction (HR) in Phaseolus vulgaris. Restriction mapping and hybridization experiments showed that the three clones had a common 3·7 kb fragment of E. amylovora DNA. Sub-cloning and insertion mutagenesis with Tn5-lac confirmed that a determinant of pathogenicity and ability to cause the HR (hrp gene) was located on a 2·1 kb HindIII/BamHI fragment within the common DNA. Hybridization experiments using the 2·1 kb HindIII/BamHI fragment as a probe demonstrated that the hrp gene was located in the chromosome of isolate T and that homologous sequences were present in the non-pathogenic isolates P66 and S. Clones which restored hrp function did not affect the growth of isolate P66 in minimal or nutrient-rich media. Transconjugants of Pseudomonas syringae pv. phaseolicola race 1 harbouring the hrp gene(s) cloned from E. amylovora did not cause the HR in susceptible cultivars of bean but symptoms developed more slowly than in the absence of the clones or with pLAFR3 alone. 相似文献
16.
Edyta Halupecki Carlo Bazzi Susanne Jock Klaus Geider Damir Đermić Bogdan Cvjetković 《European journal of plant pathology / European Foundation for Plant Pathology》2006,114(4):435-440
Erwinia amylovora is the causative agent of fire blight, a destructive disease of rosaceous plants. The European population can be divided
into several subtypes according to differences in restriction fragment length polymorphism of the XbaI genomic DNA digest analysed with pulsed-field gel electrophoresis. This technique was also used to determine the genetic
relatedness of six Croatian isolates to the E. amylovora types found in the countries surrounding Croatia. The isolates belong to the Pt2 pattern type that is characteristic of the
East Mediterranean basin. All tested isolates gave essentially the same total cell protein pattern in SDS-polyacrylamide gel
electrophoresis. The number of short-sequence DNA repeats in plasmid pEA29 of six isolates was determined by PCR assays and
ranged from four to seven. The isolates examined showed high pathogenicity in immature pear fruits. Differences were also
revealed in microbiological assays such as amylovoran synthesis, levan formation, siderophore production and colour on coliform
medium. 相似文献
17.
Fire blight is an important disease of hawthorn plants. In this study, the level of susceptibility of three hawthorn species
(Crataegus monogyna, Crataegus laevigata, Crataegus persimilis) to the bacterium Erwinia amylovora was investigated. The results showed that all species were highly susceptible to this pathogen. In addition, the relative
virulence of three different E. amylovora strains on the above species was examined. Variability among the strains was found, with strain 3 being the most virulent
and strain 1 the least. 相似文献
18.
In 1995, a serious necrotic disease appeared in Asian pear trees in the orchards of Chuncheon, South Korea. Large numbers of bacterial samples were collected, and the causative microorganism was identified as a novel pathogen, Erwinia pyrifoliae. Among the samples, four bacterial isolates with atypical characteristics were further analyzed through biochemical tests and 16S rRNA gene sequence analysis. By phenotypic and genetic analysis these isolates were identified as E. rhapontici. Phylogenetic analysis using 16S rRNA sequence data revealed that E. rhapontici forms a discrete clade with high bootstrap value close to the E. amylovora group. Pathogenicity tests on leaves of tobacco plants (Nicotiana tabacum) elicited hypersensitivity responses, but artificial inoculations on immature fruits and shoots of Asian pear (Pyrus pyrifolia) did not show any necrotic symptoms. The developed primers showed no cross reactivity when tested against other phytopathogens and were able to detect E. rhapontici from mixed culture and in planta. 相似文献
19.
F. Kleitman D. Shtienberg D. Blachinsky D. Oppenheim M. Zilberstaine O. Dror S. Manulis 《Plant pathology》2005,54(2):108-115
Oxolinic acid (OA) has been the only bactericide used against fire blight in pear and quince orchards in Israel since 1998. OA-resistant Erwinia amylovora strains (Ea-OAR) were detected in several orchards in two restricted areas in the northern Galilee region during 1999–2001. In the following years, resistant strains could not be detected in some of these locations. Documenting the fate of Ea-OAR strains in commercial orchards at eight sites in northern Israel during 2000/03 revealed that the resistant population appeared irrespective of the number of sprays applied and the severity of the disease. The persistence of the Ea-OAR populations varied from site to site, ranging from 4 to 20 months; these differences could be attributed to the fire blight management activities of growers. Comparative studies on the fitness of Ea-OAR and E. amylovora strains sensitive to OA (Ea-OAS) were conducted in vitro and in planta using two strains of each group. In four of the six comparisons, disease incidence on detached blossoms inoculated with Ea-OAS was significantly higher than that on blossoms inoculated with Ea-OAR. In two experiments conducted on 8-year-old pear trees grown under netting, the colonization of Ea-OAS in blossoms, annual shoots and perennial spurs was significantly higher than that of the Ea-OAR. In two experiments conducted on 2-year-old trees grown under netting in an experimental station, the incidence of shoots exhibiting fire blight symptoms and the rate of symptom progress within the branches were significantly higher in trees inoculated with Ea-OAS than in those inoculated with Ea-OAR. The results of this study suggest that OA-resistant E. amylovora strains have lower fitness than wild-type strains. These findings may have implications for fire blight management. 相似文献
20.
A total of 73 Erwinia amylovora strains obtained from 13 Maloideae host species and from Rubus spp., and isolated from different geographic areas, were assessed using RFLP and DNA sequencing analysis of the 3' hrp N gene and/or of a fragment of 1341 bp of the dsp A/E region. An Erwinia pyrifoliae strain, used as outgroup, was checked in the same way. For the three strains isolated from Rubus spp. and for one strain from Amelanchier sp., RFLP analysis of the hrp N gene using the Rsa I enzyme yielded a PCR product 60 bp smaller than that of all the other strains. Sequence analysis of the gene revealed this was due to the absence of a 60 bp fragment in the noncoding region downstream of the gene. The strain PD 2915, isolated from Amelanchier sp. grown in Canada, showed five same-sense substitutions and one missense substitution at position 868 of the hrp N gene, converting aspartic acid into asparagine. Also, restriction analysis of a fragment of 613 bp of the dsp A/E region with Cfo I revealed an RFLP pattern suitable for differentiating the E. amylovora strains isolated from Rubus spp. and Amelanchier sp. from all the others. In the dsp A/E coding region, the four strains showed 13–14 missense point mutations, in some cases yielding drastic amino acid substitutions. In addition, partial sequencing of the dsp A/E region of PD 2915 from Amelanchier sp. indicated a higher similarity to E. amylovora strains isolated from Rubus spp. than towards strains from other Maloideae hosts. The E. pyrifoliae strain showed 23 single nucleotide substitutions along the hrp N gene and 88% of nucleotide identity with E. amylovora strains in the portion of dsp A/E region. Artificial inoculations on immature pear fruits and young shoots of Maloideae and Ruboideae showed a restricted pathogenicity for the strains from Rubus and Amelanchier , with the latter inciting blight symptoms only on Amelanchier . 相似文献