Dasineura oleae: morphological and physiological characterization following the midge attack on olive leaves

Journal of Plant Diseases and Protection - Dasineura oleae (Angelini, 1831) (Diptera: Cecidomyiidae), the gall agent of Olea europaea L. leaves, has always been considered just a secondary pest of...     

Causal Role of Xylella fastidiosa in Oleander Leaf Scorch Disease

ABSTRACT A lethal leaf scorch disease of oleander (Nerium oleander) appeared in southern California in 1993. A bacterium, Xylella fastidiosa, was detected by culturing, enzyme-linked immunoassay, and polymerase chain reaction in most symptomatic plants but not in symptomless plants or negative controls. Inoculating oleanders mechanically with X. fastidiosa cultures from diseased oleanders caused oleander leaf scorch (OLS) disease. The bacterium was reisolated from inoculated plants that became diseased. Three species of xylem sap-feeding leafhoppers transmitted the bacterium from oleander to oleander. The bacterium multiplied, moved systemically, and caused wilting in Madagascar periwinkle (Catharanthus rosea) and leaf scorch in periwinkle (Vinca major) in a greenhouse after inoculation with needle puncture. No bacterium was reisolated from grapevine (Vitis vinifera), peach (Prunus persica), olive (Olea europaea), California blackberry (Rubus ursinus), or valley oak (Quercus lobata) mechanically inoculated with OLS strains of X. fastidiosa. A 500-bp sequence of the 16S-23S ribosomal intergenic region of oleander strains showed 99.2% identity with Pierce's disease strains, 98.4% identity with oak leaf scorch strains, and 98.6% identity with phony peach, plum leaf scald, and almond leaf scorch strains.     

Relationship of genetic structure of Pseudomonas savastanoi pv. savastanoi populations from Italian olive trees and patterns of host genetic diversity

A total of 360 Pseudomonas savastanoi pv. savastanoi isolates obtained from 11 Italian olive ( Olea europaea ) cultivars grown in different provinces were assessed with repetitive PCR using short interspersed elements of the bacterial genome as primers (ERIC, BOX and REP primer sets). The population structure of the isolates was determined by using three different hierarchical clustering algorithms: UPGMA, single-link and complete-link methods. REP primers were the most discriminatory. The various fingerprints obtained from the same cultivar and locality persisted over 2 years of knot sampling. Repetitive PCR and UPGMA analysis, using the three data sets combined, revealed 20 patterns with an overall similarity of 81%, with no grouping of the isolates. The resulting dendrogram shows a bush-like topology. Similar results were obtained with the other two clustering methods. In contrast, data obtained from the literature showed that the genetic structure of olive is characterized by bifurcated dendrograms and clear grouping of cultivars. Therefore it appears that the host plant and its pathogen did not cospeciate. The strict adaptation of the bacterium to olive would represent a case of association by colonization.     

Characterisation of Curtobacterium flaccumfaciens Pathovars by AFLP, rep-PCR and Pulsed-Field Gel Electrophoresis

The bacterial species Curtobacterium flaccumfaciens encompasses a group of closely related phytopathogens subdivided into pathovars that exhibit differences in host range. To date, reliable differentiation of pathovars and identification of unknown isolates to the pathovar-level can only be achieved on the basis of host testing. In this study, representative strains from C. flaccumfaciens pathovars and related species were examined using a range of genomic fingerprinting techniques to ascertain their application as additional or potential alternatives to host testing. Amplified fragment length polymorphism (AFLP) and repetitive sequence polymerase chain reaction (rep-PCR) analyses enabled the categorisation of some, but not all strains, in their respective pathovars. In contrast, all strains were correctly assigned to pathovars using HindIII and XbaI macro-restriction digests in conjunction with pulsed-field gel electrophoresis (PFGE). Fingerprints generated by PFGE not only supported the current pathovar rankings within C. flaccumfaciens, they also identified subgroups within pathovars flaccumfaciens, oortii and poinsettiae.     

Genetic Diversity of Xanthomonas campestris pv. vitians, the Causal Agent of Bacterial Leafspot of Lettuce

ABSTRACT Bacterial leafspot of lettuce (BLS), caused by Xanthomonas campes-tris pv. vitians, has become more prevalent in many lettuce-growing areas of the world over the past decade. To gain insight into the nature of these outbreaks, the genetic variation in X. campestris pv. vitians strains from different geographical locations was examined. All strains were first tested for pathogenicity on lettuce plants, and then genetic diversity was assessed using (i) gas-chromatographic analysis of bacterial fatty acids, (ii) polymerase chain reaction analysis of repetitive DNA sequences (rep-PCR), (iii) DNA sequence analysis of the internal transcribed spacer region 1 (ITS1) of the ribosomal RNA, (iv) restriction fragment length polymorphism (RFLP) analysis of total genomic DNA with a repetitive DNA probe, and (v) detection and partial characterization of plasmid DNA. Fatty acid analysis identified all pathogenic strains as X. campestris, but did not consistently identify all the strains as X. campestris pv. vitians. The rep-PCR fingerprints and ITS1 sequences of all pathogenic X. campestris pv. vitians strains examined were identical, and distinct from those of the other X. campestris pathovars. Thus, these characteristics did not reveal genetic diversity among X. campestris pv. vitians strains, but did allow for differentiation of X. campestris pathovars. Genetic diversity among X. campestris pv. vitians strains was revealed by RFLP analysis with a repetitive DNA probe and by characterization of plasmid DNA. This diversity was greatest among strains from different geographical regions, although diversity among strains from the same location also was detected. The results of this study suggest that these X. campestris pv. vitians strains are not clonal, but comprise a relatively homogeneous group.     

Differentiation of three species of Xanthomonas and Stenotrophomonas maltophilia using cellular fatty acid analyses

Five hundred eighty-eight strains, representing Xanthomonas albilineans, X. fragariae, ten pathovars of X. campestris, and Stenotrophomonas maltophilia from ornamentals, were subjected to fatty acid methyl ester (FAME) analyses. Quantitative variance among FAME profiles enabled identification of the four species with 100% accuracy. Dendrogram cluster analysis placed strains of X. albilineans remotely from those of the other two Xanthomonas species and S. maltophilia. Whereas some profiles of pathovars of X. campestris were distinct, strains within X. albilineans, X. fragariae, and S. maltophilia were homogeneous by their conserved FAME ratios. Pathovars of X. campestris that had conserved profiles were fittonia, hederae, malvacearum, pelargonii, and zinniae. FAME profiles of X. campestris pathovars begoniae, dieffenbachiae, fici, maculifoliigardeniae, and poinsettiicola were, however, quantitatively diverse. These pathovars did not form discrete subgroups, and intercalated randomly with one another on the dendrogram. Certain species or pathovars of X. campestris which have homogeneous FAME profiles can easily be identified with fatty acid analysis; however, pathovars of X. campestris with heterogeneous profiles are not readily identified by fatty acid analysis.     

Parasitic weeds of the Orobanchaceae family and their natural hosts in Jordan

A field survey of the Orobanchaceae family members and their hosts in Jordan was carried out from 2003 to 2007. The intensity of parasite infection on different hosts and the severity of the infestation were evaluated. The results showed the presence of seven species of Orobanche and three species of Cistanche . The Orobanche species were found parasitizing 86 plant species belonging to 24 botanical families. Most of the species attacked by Orobanche were from the Compositae (20 species), Solanaceae (11 species), Leguminosae (nine species), Umbelliferae (seven species), Cruciferae (seven species), Cucurbitaceae (four species), Labiatae (four species), and Rosaceae (four species) families. Other families were represented by one-to-three species. Cistanche attacked 20 species of forage wild shrubs, fruit trees, and forest trees of seven families, mostly belonging to the Chenopodiaceae (seven species) and Leguminosae (three species) families. Previously unreported hosts for both genera include: Amygdalus communis , Olea europaea , and Quercus coccifera , which were parasitized by Orobanche palaestina ; A. communis , O. europaea , Prunus armeniaca , and Prunus persica , which were parasitzed by Orobanche cernua ; O. europaea and A. communis , which were parasitzed by Orobanche schultzii ; Haloxylon persicum , which was parasitzed by Cistanche lutea ; Punica granatum , Alhagi maurorum , Casuarina equisetifolia , Centaurea postii , and Prosopis farcta , which were parasitzed by Cistanche tubulosa ; and Achillea spp., Anabasis syriaca , H. persicum , Haloxylon salicornicum, Suaeda spp., and Zilla spinosa , which were parasitzed by Cistanche salsa . Certain Orobanche species were completely destructive to the cultivated crops. The results indicated the high potential of both parasitic genera to spread and to attack new hosts, while the threat they impose to agriculture in Jordan will probably result from poor management and deficiences in farmers' training.     

Classification and Identification of Xanthomonas translucens Isolates, Including Those Pathogenic to Ornamental Asparagus

ABSTRACT In order to confirm and refine the current classification scheme of Xanthomonas translucens and to identify novel strains from ornamental asparagus, a collection of field and reference strains was analyzed. Rep-polymerase chain reaction (PCR) genomic fingerprint profiles were generated from 33 isolates pathogenic to asparagus as well as 61 X. trans-lucens reference strains pathogenic to cereals and grasses. Amplified ribo-somal gene restriction analysis profiles were obtained from most of these and 29 additional Xanthomonas reference strains. Rep-PCR genomic fingerprint profiles of all strains were compared with those in a large Xanthomonas database using computer-assisted analysis. Rep-PCR ge-nomic fingerprinting facilitated the characterization and discrimination of X. translucens, including the pathovars arrhenatheri, graminis, phlei, phleipratensis, and poae, as well as a number of strains received as X. translucens pv. cerealis. Strains received as pathovars hordei, secalis, translucens, undulosa, and other cerealis strains were grouped in two subclusters that correspond to the recently redefined pathovars X. trans-lucens pvs. undulosa and translucens. All 33 novel isolates from ornamental asparagus (tree fern; Asparagus virgatus) were identified as X. translucens pv. undulosa. Moreover, a unique amplified small subunit ribosomal gene MspI/AluI restriction profile specific for all X. translucens strains tested, including those pathogenic to asparagus, allowed discrimination from all other Xanthomonas spp. Although phage tests were inconclusive, the classification of the asparagus strains within the X. translucens complex was supported by pathogenicity assays in which all the isolates from ornamental asparagus induced watersoaking on wheat. Surprisingly, several X. translucens reference strains affected asparagus tree fern as well. That the novel asparagus isolates belong to X. translucens pv. undulosa is extraordinary because all hosts of X. translucens pathovars described to date belong only to the families Gramineae and Poaceae, whereas asparagus belongs to the phylogenetically distant family Liliaceae.     

油橄榄孔雀斑病研究:1、病原菌生物学特性

 1974年,在重庆油橄榄园初次发生油橄榄孔雀斑病,病原菌为环黑星霉属的Spilocaea oleaginea(Cast.) Hugh.(Cycloconium oleaginum Cast.)。分生孢子梗烧瓶状,基部膨大,颈端有圆柱状环痕,灰褐至深褐色;分生孢子黄褐色,短倒棒状,典型双胞,截形基部,大于20.36×9.33微米。
分生孢子萌发进程较长。在水滴中萌发仅6.48%;1%菊萄糖液滴萌发最高,为57.55%。     

Grouping of Xanthomonas campestris pathovars of cereals and grasses by fatty acid profiling1

Fatty acid profiles were prepared for a range of strains representing all 14 Xanthomonas campestris pathovars from the Gramineae. Profiles were complex, containing up to 40 acids, most of which were iso- and anteiso-branched acids. Grouping of profile types generally correlated with pathovar, although pvs translucens, hordei, cerealis, secalis and undulosa could not be differentiated. Pvs graminis, arrhenatheri, poae and phlei formed another profile type although there were some differences between the pathovars. These graminis and translucens groups had similar profiles but could usually be differentiated by the ratios of 15:0 iso/16:0 iso and 15:0 iso/15:0 anteiso fatty acid methyl esters. The other pathovars each had a very different profile type. Pvs oryzae and oryzicola had profiles which were very different from all others. Pv. vasculorum comprised at least two distinct profile types. This did not correlate with host species or geographic distribution. Fatty acid profiling can be used to identify strains of X. campestris pathovars from Gramineae.     

Genetic, phenotypic and pathogenic diversity among xanthomonads isolated from pistachio (Pistacia vera) in Australia

Repetitive extragenic palindromic polymerase chain reaction (rep-PCR), sequencing of the 16S−23S rDNA internal transcribed spacer (ITS), biochemical and physiological tests, the Biolog microplate system, polyacrylamide gel electrophoresis (PAGE) of whole-cell proteins, and pathogenicity tests were used to characterize variability among xanthomonads isolated from pistachio trees suffering from bacterial dieback in four regions of Australia. ITS sequencing and rep-PCR revealed two distinct genotypes among the strains. The ITS sequencing suggested that the pistachio strains were closely related to Xanthomonas translucens pathovars, in particular X. translucens pv . poae . Results of physiological and biochemical tests, as well as Biolog microplate analysis and protein profiling, confirmed the existence of two groups. Furthermore, pathogenicity and host-range studies indicated that the two groups were biologically different. There was an association between the two groups and the geographical origin of the strains.     

Protein electrophoresis and DNA:DNA hybridizations of xanthomonads from grasses and cereals1

More than 120 Xanthomonas campestris strains pathogenic for grasses and cereals were compared by polyacrylamide gel electrophoresis (SDS-PAGE) of their whole-cell proteins. Genotypic relationships between representative strains of the electrophoretic groups were determined by DNA:DNA hybridizations. Two major groups of bacteria were delineated. The first included X. campestris pv. graminis, pv. arrhenatheri and some isolates from Bromus, which could be differentiated from each other by their protein fingerprints, and also the following pathovars which it was impossible to differentiate by SDS-PAGE: cerealis, hordei, poae, secalis, translucens and undulosa. DNA:DNA hybridizations indicated that significant degrees of DNA-binding (>60% D) exist between all these pathovars. In the second group, strains of X. campestris pv. holcicola, pv. vasculorum and pv. oryzae were related at 40–45% DNA-binding, while strains of pv. oryzae and pv. oryzicola were genotypically highly related (85% D). All the pathovars of this second group could be differentiated from each other by their protein electrophoretic fingerprints.     

Pseudomonas syringae pv. coryli, the Causal Agent of Bacterial Twig Dieback of Corylus avellana

ABSTRACT Thirty-eight bacterial strains isolated from hazelnut (Corylus avellana) cv. Tonda Gentile delle Langhe showing a twig dieback in Piedmont and Sardinia, Italy, were studied by a polyphasic approach. All strains were assessed by fatty acids analysis and repetitive sequence-based polymerase chain reaction (PCR) fingerprinting using BOX and ERIC primer sets. Representative strains also were assessed by sequencing the 16S rDNA and hrpL genes, determining the presence of the syrB gene, testing their biochemical and nutritional characteristics, and determining their pathogenicity to hazelnut and other plants species or plant organs. Moreover, they were compared with reference strains of other phytopathogenic pseudomonads. The strains from hazelnut belong to Pseudomonas syringae (sensu latu), LOPAT group Ia. Both fatty acids and repetitive-sequence-based PCR clearly discriminate such strains from other Pseudomonas spp., including P. avellanae and other P. syringae pathovars as well as P. syringae pv. syringae strains from hazelnut. Also, the sequencing of 16S rDNA and hrpL genes differentiated them from P. avellanae and from P. syringae pv. syringae. They did not possess the syrB gene. Some nutritional tests also differentiated them from related P. syringae pathovars. Upon artificial inoculation, these strains incited severe twig diebacks only on hazelnut. Our results justify the creation of a new pathovar because the strains from hazelnut constitute a homogeneous group and a discrete phenon. The name of P. syringae pv. coryli is proposed and criteria for routine identification are presented.     

Host range of the parasitic weed Osyris alba L. in Jordan

A field survey revealed the presence of Osyris alba L., the root hemi-parasitic weed, with 23 plant species of 14 families found in the central/west parts of the Hashemite Kingdom of Jordan. The host list includes shrubs and fruit and forest trees of high economic value. New hosts were added to the existing list. The most severely attacked fruit trees are Amygdalus communis L., Olea europaea L., and Vitis vinifera L., while the most severely attacked forest trees are Cupressus sempervirens L . , Acacia cyanophylla Lindl. and Rhamnus palaestina Boiss. The distribution and intensity of parasite infection of different hosts were evaluated. This work is the first record of O. alba and its hosts in the Kingdom of Jordan.     

Detection of New Ethylene-Producing Bacteria, Pseudomonas syringae pvs. cannabina and sesami, by PCR Amplification of Genes for the Ethylene-Forming Enzyme

ABSTRACT Strains of Pseudomonas syringae (78 strains and 43 pathovars) and other strains (79) of plant and insect origin were examined for the presence of the ethylene-forming enzyme gene (efe) by polymerase chain reaction (PCR) assay. The sequence of the efe gene of P. syringae pv. phaseolicola PK2 was used to design two primer sets for amplification of the gene. In addition to P.syringae pv. phaseolicola (the "kudzu strain") and P.syringae pv. glycinea, which were efficient ethylene producers, several strains of P.syringae pvs. sesami and cannabina generated PCR products of the predicted size. A DNA probe of the efe gene, isolated from strain PK2, hybridized to these PCR products, indicating homology to the P.syringae pv. phaseolicola efe gene. PCR restriction fragment length polymorphism analyses suggested that these four pathovars harbor a similar efe gene. Furthermore, the probe hybridized to an indigenous plasmid of P.syringae pv. cannabina, suggesting that the efe gene could be located on a plasmid in this pathovar, but did not hybridize to plas-mids of P.syringae pv. sesami strains. P.syringae pvs. sesami and cannabina strains produced ethylene in King's medium B at levels similar to those of P.syringae pvs. phaseolicola and glycinea. Thus, two new ethylene-producing bacteria were detected by the PCR assay.     

来源于同一穗不同稻曲球的稻曲病菌的致病性及遗传多样性

 本研究从源于6穗稻曲病穗的48个稻曲球中分离获得稻曲病菌（Ustilaginoidea virens）48株,从3个稻曲球的不同部位分离获得稻曲病菌23株。用注射接种法将菌株分别接种到水稻品种两优培九（感病品种）、淮稻5号（中抗品种）和武育粳3号（抗病品种）上,结果显示分离的菌株致病力分化较大,而菌株在水稻品种上的致病力强弱与已知水稻品种对稻曲病菌的感、抗性趋势基本一致。相同孢子量接种水稻,不同分离菌株之间仍有致病力分化,生长速率测定也发现菌株之间可能存在差异。利用REP PCR (repetitive extragenic palindromic sequence PCR)技术进行菌株遗传多样性分析表明,同穗不同稻曲球分离的菌株中,1号穗分离的4个菌株聚在同一簇群,其余5穗的菌株分别聚在3～5个簇群;同一稻曲球不同部位分离的菌株中,一个稻曲球分离的8个病菌聚在同一簇群,而其余2个稻曲球分离的病菌则分别聚在2～3个簇群。由此推测同一稻穗上不同稻曲球可能是由来源不同的稻曲病菌侵染所形成;而一个稻曲球可以由同一稻曲病菌引起,也存在多个侵染源共同侵染的可能。     

Comparison of Ethylene Production by Pseudomonas syringae and Ralstonia solanacearum

ABSTRACT Strains of Pseudomonas syringae pv. pisi and Ralstonia solanacearum produced ethylene at rates 20- and 200-fold lower, respectively, than strains of P. syringae pvs. cannabina, glycinea, phaseolicola, and sesami. In the current study, we investigated which ethylene biosynthetic pathways were used by P. syringae pv. pisi and R. solanacearum. Neither the activity of an ethylene-forming enzyme nor a corresponding efe gene homolog could be detected in R. solanacearum, suggesting synthesis of ethylene via 2-keto-4-methyl-thiobutyric acid. In contrast, 2-oxoglutarate-dependent ethylene formation was observed with P. syringae pv. pisi, and Southern blot hybridization revealed the presence of an efe homolog in this pathovar. The efe genes from P. syringae pvs. cannabina, glycinea, phaseolicola, pisi, and sesami were sequenced. Nucleotide sequence comparisons indicated that the efe gene in pv. pisi was not as highly conserved as it was in other P. syringae pathovars. The pv. pisi efe homolog showed numerous nucleotide substitutions and a deletion of 13 amino acids at the C-terminus of the predicted gene product. These sequence alterations might account for the lower rate of ethylene production by this pathovar. All ethylene-producing P. syringae pathovars were virulent on bush bean plants. The overlapping host range of these pathovars suggests that horizontal transfer of the efe gene may have occurred among bacteria inhabiting the same host.     

Pseudomonas syringae pv. avii (pv. nov.), the Causal Agent of Bacterial Canker of Wild Cherries (Prunus avium) in France

Bacterial strains isolated from cankers of wild cherry trees (Prunus avium) in France were characterized using numerical taxonomy of biochemical tests, DNA–DNA hybridization, repeat sequence primed-PCR (rep-PCR) based on REP, ERIC and BOX sequences, heteroduplex mobility assay (HMA) of internal transcribed spacer (ITS) as well as pathogenicity on wild cherry trees and other species of Prunus. They were compared to reference strains of Pseudomonas syringae pathovars isolated from wild and sweet cherry and various host plants. Wild cherry strains were closely related to P. syringae (sensu lato) in LOPAT group Ia (+ - - - +). Wild cherry strains were pathogenic to wild cherry trees and produced symptoms similar to those observed in orchards. They were pathogenic also, but at a lesser extent, to sweet cherry trees (cv. Napoléon). The wild cherry strains were collected from five different areas in France and appeared to constitute a very homogeneous group. They showed an homogenous profile of a biochemical and physiological characteristics. They were closely related by DNA–DNA hybridization and belonged to genomospecies 3 `tomato'. Rep-PCR showed that wild cherry strains constitute a tight group distinct from P. s. pv. morsprunorum races 1 and 2 and from other P. syringae pathovars. HMA profiles indicated that the ITS of all wild cherry strains were identical but different from P. s. pv. persicae strains since the two heteroduplex bands with reduced mobility were generated by hybridization with the P. s. pv. persicae pathotype strain CFBP 1573. The 8 genomospecies of Gardan et al. (1999) have not been converted into formal species as they cannot be differentiated by biochemical tests. Therefore, the pathovar system within P. syringae was currently used. P. syringae pv. avii is proposed for this bacterium causing a wild cherry bacterial canker and strain CFBP 3846 (NCPPB 4290, ICMP 14479) is designated as the pathotype.     

Specificity of polyclonal antibodies to different antigenic preparations of Pseudomonas syringae pv. pisi strain UQM551 and Pseudomonas syringae pv. syringae strain L

Polyclonal antibodies were produced against sonicated and heat-killed cells of Pseudomonas syringae pv. pisi strain UQM551 and Pseudomonas syringae pv. syringae strain L, and their specificities were compared. Evidence is presented that the serological specificity between these two pathovars lies in surface antigens. Of the surface antigens purified and tested, only flagella and lipopolysaccharide from the cell wall showed no cross-reactivity with heterologous antisera. Antisera to glutaraldehyde-fixed flagella of the two strains showed a high level of specificity. At a species or genus level, antisera prepared from heat-killed cells of P. syringae distinguished this species from all other bacterial species and genera tested, including strains of Pseudomonas fluorescens, Escherichia coli, Agrobacterium and Rhizobium.