Immunological Discrimination of Phytophthora cinnamomi from other Phytophthorae Pathogenic on Chestnut

A polyclonal antiserum (A379) against water soluble proteins from Phytophthora cinnamomi mycelium was produced in rabbit. In ELISA, the 1 : 10 000 diluted antiserum revealed only Phytophthora isolates, not allowing a clear‐cut discrimination among congenerous species, in spite of a generally higher reactivity on P. cinnamomi proteins. The antiserum gave positive reactions in Western blot analyses against mycelial proteins from nine species of Phytophthora and Pythium sp. (grown on rich media), but not with Rhizoctonia solani, binucleate Rhizoctonia, Verticillium dahliae, Fusarium oxysporum and Cryphonectria parasitica. All Phytophthora species showed common epitopes on proteins of molecular masses 77, 66, 51 and 48 kDa. However, a species‐specific protein of 55 kDa was immunodecorated only in P. cinnamomi samples, thus allowing univocal identification of this species. When tested against total proteins from the same fungi grown on water, the antibody revealed diagnostic bands of 55 and 51 kDa in P. cinnamomi only. The antiserum is therefore suitable for the specific identification of P. cinnamomi emerging in distilled water from infected tissues of chestnut, blueberry and azalea.     

A five-minute DNA extraction method for expedited detection of Phytophthora ramorum following prescreening using Phytophthora spp. lateral flow devices

In a direct comparison with established methods for Phytophthora ramorum detection (isolation followed by morphological identification, or conventional DNA extraction followed by TaqMan real-time PCR) a rapid, simplified detection method in which membranes of lateral flow devices (LFDs) are added directly to TaqMan real-time PCR reactions was used to test 202 plant samples collected by plant health inspectors in the field. P. ramorum prevalence within the 202 samples was approximately 40% according to routine testing by isolation or TaqMan real-time PCR. The diagnostic sensitivity and specificity of the rapid detection method were 96.3% and 91.2%, respectively. This method can be used in conjunction with Phytophthora spp. lateral flow devices to reduce the number of samples requiring testing using more laborious conventional methods. The effect of combining prescreening for Phytophthora spp. with P. ramorum-specific tests is discussed in terms of the positive and negative predictive values of species-specific detection when testing samples collected in different inspection scenarios.     

Concerted evolution of a tandemly arrayed family of mating-specific genes in Phytophthora analyzed through inter- and intraspecific comparisons

Multigene families are features of most eukaryotic genomes, which evolve through a variety of mechanisms. This study describes the structure, expression, and evolution of a novel family in the oomycete Phytophthora. In the heterothallic species P. infestans, M96 is expressed specifically during sexual sporogenesis, and encodes a low-complexity extracellular protein that may be a component of oospore walls. Intriguingly, M96 exists in P. infestans as 22 relatively homogeneous loci tandemly repeated at a single site, which is partitioned by inversions and retroelements into subclusters exhibiting semi-independent evolution. M96 relatives were detected in other heterothallic and homothallic oomycetes including species closely (P. mirabilis, P. phaseoli) or distantly (P. ramorum, P. sojae) related to P. infestans. Those M96 relatives also exhibit oosporogenesis-specific expression and are arrayed multigene families. Nucleotide changes and repeat expansion diversify M96 in each species, however, paralogues are more related than orthologues. Concerted evolution through gene conversion and not strong purifying selection appears to be the major contributor to intraspecific homogenization. Divergence and concerted evolution was also detected between isolates of P. infestans. The divergence of M96 proteins between P. infestans, P. ramorum, and P. sojae exceeds that of typical proteins, reflecting trends in reproductive proteins from other kingdoms. Sequence data from this article have been deposited with the GenBank Data Libraries under accessions DQ196155 to DQ196175.     

Isolation and characterization of microsatellite markers in Phytophthora ramorum,the causal agent of sudden oak death

We describe specific primers and conditions to amplify two dinucleotide and five trinucleotide microsatellite DNA loci isolated from the oomycete Phytophthora ramorum, the causal agent of sudden oak death. The primer sets were tested on 14–30 isolates from North America and Europe. Seven of 14 loci differentiated between A1 and A2 mating types. All seven loci successfully amplified DNA isolated from infected plant tissue. Four loci may be useful for the diagnosis of P. ramorum because they do not amplify closely related Phytophthora species.     

Phytophthora captiosa sp. nov. and P. fallax sp. nov. causing crown dieback of Eucalyptus in New Zealand

A locally severe crown disease of exotic plantation Eucalyptus trees has been recorded periodically in New Zealand since 1986. Symptoms include leaf spots, petiole infection and twig and small branch lesions. Outbreaks of disease are episodic and individual trees may show marked variation in crown symptoms ranging from unaffected to total defoliation. Two previously unknown species of Phytophthora are associated with the disease. These are described and formally designated here as P. captiosa, from Eucalyptus botryoides and E. saligna; and P. fallax, from E. delegatensis, E. fastigata, E. nitens and E. regnans. Both P. captiosa and P. fallax have non-papillate, non-caducous sporangia and both are self-fertile. Phylogenetic analysis on the basis of ITS rDNA sequence data indicates they are closely related to each other but evolutionarily distant from the majority of described Phytophthora taxa. They share a common ancestor with another assemblage of Phytophthora lineages that includes P. insolita, P. macrochlamydospora and P. richardiae. Sporulation of P. captiosa and P. fallax has not been observed in the field. The mode of infection and spread of these non-caducous Phytophthora species in the eucalypt tree canopy remains unknown. This issue, and the possible geographic origins of these two Phytophthora species are discussed.     

Ectopic expression of <Emphasis Type="Italic">Dahlia merckii</Emphasis> defensin <Emphasis Type="Italic">DmAMP</Emphasis>1 improves papaya resistance to <Emphasis Type="Italic">Phytophthora palmivora</Emphasis> by reducing pathogen vigor

Phytophthora spp., some of the more important casual agents of plant diseases, are responsible for heavy economic losses worldwide. Plant defensins have been introduced as transgenes into a range of species to increase host resistance to pathogens to which they were originally susceptible. However, the effectiveness and mechanism of interaction of the defensins with Phytophthora spp. have not been clearly characterized in planta. In this study, we expressed the Dahlia merckii defensin, DmAMP1, in papaya (Carica papaya L.), a plant highly susceptible to a root, stem, and fruit rot disease caused by Phytophthora palmivora. Extracts of total leaf proteins from transformed plants inhibited growth of Phytophthora in vitro and discs cut from the leaves of transformed plants inhibited growth of Phytophthora in a bioassay. Results from our greenhouse inoculation experiments demonstrate that expressing the DmAMP1 gene in papaya plants increased resistance against P. palmivora and that this increased resistance was associated with reduced hyphae growth of P. palmivora at the infection sites. The inhibitory effects of DmAMP1 expression in papaya suggest this approach has good potential to impart transgenic resistance against Phytophthora in papaya.     

Phytophthora Species Infecting Hardy Ornamentals in Nurseries and the Managed Environment in Scotland

Between 2002 and the end of 2009, more than 4000 samples from hardy ornamental plants, collected in surveys for Phytophthora ramorum, were examined to establish the occurrence and diversity of Phytophthora species in Scotland. The samples were gathered from more than 77 plant genera in nurseries, gardens and amenity landscapes. Fifteen different Phytophthora spp. were isolated and identified either by polymerase chain reaction (PCR) or by sequencing of the ITS1, 5.8S subunit and ITS2 region of the ribosomal RNA gene. The most widespread Phytophthora spp. were P. ramorum and P. syringae, followed by P. cactorum, P. kernoviae, P. plurivora, P. cambivora, P. citrophthora, P. taxon ‘Pgchlamydo’, P. pseudosyringae and some single isolates of P. cinnamomi, P. cryptogea, P. gonapodyides, P. nicotianae and P. hibernalis. One isolate did not match any known species. In relation to the number of samples, Phytophthora was found more frequently in trade premises than in gardens or amenity landscapes and the species diversity was higher, highlighting the risks involved in plant trade.     

Distribution of Phytophthora citrophthora R.E. Sm. and E.H. Sm. and P. parasitica Dastur within citrus orchards in Kerman province,Iran

In this research, distribution of Phytophthora species were determined in Kerman Province (Bam, Shahdad and Arzuiyeh) during 2004–2007. The Phytophthora species were isolated from infected root, crown and soil. Root and crown pieces were washed and cultured on a CMA-PARPH medium. The isolation from infected soil was performed by bating method using citrus leaves. It was identified by morphological and several physiological characteristics. Distribution of species was determined by recording the number of isolates recovered from samples from each city. In this study, from 220 soil samples collected from 52 citrus orchards, 80 isolates of Phytophthora were recovered. Among of all isolates of Phytophthora, P. parasitica and P. citrophthora were the most important species of causal agent of gummosis on Citrus sp. Distribution of P. citrophthora was highest in Arzuiyeh and lowest in Bam and Shahdad cities, while distribution of P. parasitica was highest in Bam and Shahdad cities. The majority of soil samples contained only P. parasitica, but a few of percentage samples containing P. citrophthora alone and both of fungi in cites samples.     

Evaluation of several commercial biocontrol products on European and North American populations of Phytophthora ramorum

Five commercially available biological control products were tested in vitro with seven isolates of Phytophthora ramorum from North American (NA1, NA2), and European (EU1) populations. The in vitro tests included dual culture methods and detached leaf assays on wounded Rhododendron and Camellia leaves. Variability in response to biocontrol agents among isolates of P. ramorum from North American and European populations was examined. In dual culture tests, both Bacillus subtilis products (Companion® and Serenade®) resulted in better inhibition of the NA1 group than NA2 and EU1. Actinovate® (Streptomyces lydicus) was the least effective of the three bacterial biocontrol agents and there was no difference in percent inhibition among P. ramorum lineages. Two products containing Trichoderma spp. were tested: Plant Helper® (T. atroviride) caused 100% inhibition of all lineages of P. ramorum, while SoilGard? (T. virens) was only about 30% effective. There was great variability among P. ramorum isolates in their response to biocontrol agents. All treatments reduced P. ramorum lesion size on both Rhododendron and Camellia. Combined treatments of Actinovate® with one other BCA did not perform as well as either treatment used individually. Best results were obtained with Serenade® on Rhododendron and Camellia foliage, especially against the NA1 group. Lack of a linear relationship between percent inhibition of P. ramorum by BCAs in vitro and foliar treatments on detached Rhododendron and Camellia leaves indicates that in vitro testing is a poor predictor of BCA performance on plant material.     

Strategies of attack and defense in plant–oomycete interactions, accentuated for Phytophthora parasitica Dastur (syn. P. Nicotianae Breda de Haan)

Oomycetes from the genus Phytophthora are fungus-like plant pathogens that are devastating for agriculture and natural ecosystems. Due to their particular physiological characteristics, no efficient treatments against diseases caused by these microorganisms are presently available. To develop such treatments, it appears essential to dissect the molecular mechanisms that determine the interaction between Phytophthora species and host plants. Available data are scarce, and genomic approaches were mainly developed for the two species, Phytophthora infestans and Phytophthora sojae. However, these two species are exceptions from, rather than representative species for, the genus. P. infestans is a foliar pathogen, and P. sojae infects a narrow range of host plants, while the majority of Phytophthora species are quite unselective, root-infecting pathogens. To represent this majority, Phytophthora parasitica emerges as a model for the genus, and genomic resources for analyzing its interaction with plants are developing. The aim of this review is to assemble current knowledge on cytological and molecular processes that are underlying plant–pathogen interactions involving Phytophthora species and in particular P. parasitica, and to place them into the context of a hypothetical scheme of co-evolution between the pathogen and the host.     

进境德国云杉原木中夹带栎树猝死病菌的检疫鉴定

[目的] 检测自德国进境云杉原木夹杂的水青冈植物叶片上是否携带栎树猝死病菌。[方法] 采用磁珠法提取水青冈植物叶片DNA,根据巢式PCR方法和DNA序列测定分析方法,进行栎树猝死病菌的检测。[结果] 采用巢式PCR方法,能够扩增出约280 bp的特异性条带;DNA序列测定表明,该DNA序列与GenBank中多个栎树猝死病菌分离物DNA序列相似性达99%,位于同一个发育分支。[结论] 样品中检出栎树猝死病菌,这是我国口岸首次从进境德国云杉原木中截获栎树猝死病菌。     

Behaviour of Phytophthora citrophthora and P. nicotianae var. in soil, and Differences in Their Tolerance to Antimicrobial Components of Selective Media Used for Isolation of Phytophthora spp.

Phytophthora citrophthora was inhibited to a greater extent than P. nicotianac var. parasitica by chloramphenicol, hymexazol, PCNB and pimaricin at concentrations used in selective media for the isolation of Phytophthora spp. Reduced concentrations of the antimicrobial components of the selective media to tolerant levels for P. citrophthora markedly increased the recovery of the two brown rot pathogens from soil. Mycelium of both Phytophthora spp. survived in air-dried soil for at least 5 months while mycelium of most Phytophthora spp. do not survive in dry soil. In moist soil, P. nicotianae var. parasitica produced hyphal swellings, sporangia and chlamydospores. P. citrophthora produced hyphal swellings and sporangia, but no chlamydospores. No oospores were produced, even in pairing cultures on agar plates with isolates obtained from several locations of citrus groves andfruits by both species. Sporania were obtained in both species in citrus groves on mycelium mats, in the rhizosphere, in infected leaves and fruits buried at soil depths of 5–35 cm. Numbers of propagules declined during the incubation period, but conside, rable numbers survived throughout the experimental period (6 months). Although P. nicotianae var. parasitica produced chlamydospores while P. citrophthora did not, numbers of surviving propagules recovered from soil after 6 months were comparable with both species. The brown rot pathogens survived in soil both as colonizers of detached leaves and fruits and as parasites in living root tissues.     

Phytophthora quercetorum sp. nov., a novel species isolated from eastern and north-central USA oak forest soils

Isolates belonging to an undescribed Phytophthora species were frequently recovered during an oak forest soil survey of Phytophthora species in eastern and north-central USA in 2004. The species was isolated using an oak leaf baiting method from rhizosphere soil samples collected from Quercus rubra, Q. macrocarpa, and Q. phellos. This species is formally described as P. quercetorum. It is homothallic and has aplerotic oogonia and paragynous antheridia. It produces papillate sporangia (occasionally bipapillate) of ovoid-elongated shapes. Its temperature optimum for growth is ca 22.5 °C with the upper limit of ca 32.5 °C. P. quercetorum differs from the morphologically related P. quercina in producing distinct submerged colony-patterns, different growth-temperature requirements, and oogonial shapes and sizes. Phylogenetic analyses using seven nuclear loci supported P. quercetorum as a novel species within clade 4, closely related to P. arecae, P. palmivora, P. megakarya, and P. quercina.     

The effect of salinity on the survival,growth, sporulation and infection of Phytophthora ramorum

Phytophthora ramorum has been found in waterways outside infested nurseries, but little is known about its behavior in water. This study examined the effect of salinity on survival, growth, sporulation, and infection. P. ramorum survival and growth was negatively correlated with salt concentration (range of 0–45 g l⁻¹), but showed a level of tolerance even at 45 g l⁻¹. No sporangia were observed in cultures with higher than 20 g l⁻¹ of salt and zoospores were not released from sporangia above 14 g l⁻¹. Water sources with different salinity were used to understand the environment where P. ramorum can survive and infect host material. Water from natural bodies and water amended with different salt concentrations were added to P. ramorum-infested sand and baited with rhododendron leaf disks. Infection decreased with increasing salt concentration and increased with higher initial concentration of P. ramorum. This research helps to better understand the effects of water quality on survival and infectivity of P. ramorum, expanding the potential survey range.     

Stromata, sporangiomata and chlamydosori of Phytophthora ramorum on inoculated Mediterranean woody plants

Three types of multihyphal structures, stromata, sporangiomata and chlamydosori, are described for the plant pathogen Phytophthora ramorum. Their morphology, morphogenesis and position on the host organ were observed by dissecting, compound and scanning electron microscopy. Stromata were consistently formed one to two weeks after zoospore inoculation of detached leaves and fruits of an assortment of Mediterranean sclerophyll shrubs. Stroma initials appeared subcuticularly or subepidermally and developed as small hyphal aggregates by repeated branching, budding, swelling and interweaving, eventually forming a prosenchyma. They always emerged through the adaxial side of the leaf by rupture of the overlying host tissue. Occasionally sporangia and chlamydosori (packed clusters of chlamydospores) were formed on the stromata. Sporangiomata bore short sporangiophores and clusters of 20–100 sporangia and resembled sporodochia of the mitosporic fungi. The biological significance of these multihyphal structures is discussed. Some epidemiological aspects were also studied: several understorey species of the holm oak (Quercus ilex) woodland were susceptible to in vitro infection with three isolates of P. ramorum originally collected from different ornamental hosts. The risk of spread to this ecosystem is evaluated.     

Genome-wide identification of laccase gene family in three Phytophthora species

Phytophthora spp. is a primary pathogen in oomycete, causing economically and environmentally devastating epidemics of plants. Laccases have been found in all domains of life but have not been reported in oomycte. In this paper, laccase genes of Phytophthora spp. were identified in three genomes (Phytophthora capsici, Phytophthora sojae and Phytophthora ramorum). 18 laccase genes were identified in total, including four in P. capsici genome, six in P. sojae genome and eight in P. ramorum genome. Most of the predicted gene models shared typical fungal laccase character, possessing three conserved positions with one cysteine and ten histidine residues at these positions. Phylogenetic analysis illustrated that laccases from Phytophthora clustered into four clades, while fungal laccases clustered together. The results provided the theoretical ground for new hypotheses about the roles laccases in oomycetes and may guide the future research of these enzymes.     

Phytophthora cinnamomi in Shanghai and its possible origin

Camellia leaves were most effective for recoveringPhytophthora cinnamomi from soils followed by azalea leaves and cedar needles. A total of 131 isolates ofP. cinnamomi was obtained from soils and roots collected in Shanghai. Among them 125 were A¹ and 6 were A² type. There was little variation in morphological and physiological characteristics among 82 isolates tested. It is suggested that the fungus may have been a recent settler in Shanghai.     

Are the polygenic architectures of resistance to <Emphasis Type="Italic">Phytophthora capsici</Emphasis> and <Emphasis Type="Italic">P. parasitica</Emphasis> independent in pepper?

The pepper accession Criollo de Morelos 334 is the most efficient source of resistance currently known to Phytophthora capsici and P. parasitica. To investigate whether genetic controls of resistance to two Phytophthora species are independent, we compared the genetic architecture of resistance of CM334 to both Phytophthora species. The RIL population F5YC used to construct the high-resolution genetic linkage map of pepper was assessed for resistance to one isolate of each Phytophthora species. Inheritance of the P. capsici and P. parasitica resistance was polygenic. Twelve additive QTLs involved in the P. capsici resistance and 14 additive QTLs involved in the P. parasitica resistance were detected. The QTLs identified in this progeny were specific to these Phytophthora species. Comparative mapping analysis with literature data identified three colocations between resistance QTLs to P. parasitica and P. capsici in pepper. Whereas this result suggests presence of common resistance factors to the two Phytophthora species in pepper, which possibly derive from common ancestral genes, calculation of the colocation probability indicates that these colocations could occur by chance.     

未来气候变化下栎树猝死病菌在中国的适生性分析

基于中国国家有害生物检疫信息平台的有关记录和文献以及WoldClim网站,获取栎树猝死病菌的地理分布数据及气候数据,并用SPSS软件和刀切法筛选主导环境变量。利用MaxEnt生态位模型和ArcGIS软件,对栎树猝死病菌现代和未来情景下在我国的潜在适生区进行预测,并计算和绘制栎树猝死病菌高风险区质心转移轨迹。通过不同年份和不同气候情况下的受试者工作特征曲线(ROC)的训练集和测试集受试者工作特征曲线下面积(AUC)值均大于0.91,说明MaxEnt模型准确并适用于预测栎树猝死病菌在我国的潜在分布,同时结合其主要寄主植物的地理分布进一步增强预测模型的可信度。预测结果表明,最冷季度降水量、最冷季度平均温度、最干季度平均温度和年均降水量是影响栎树猝死病菌分布的主要环境变量。而2030s(2021—2040年)、2050s(2041—2060年)和2070s(2061—2080年)在3种气候情景下(SSP1-2.6、SSP2-4.5、SSP5-8.5),栎树猝死病菌的潜在适生区相较于现代情景下都有所增加。此外,高风险区面积在3个年代3种情景下的面积增长率均高于45%。高风险区质心变化的预测结果表...     

Temperature Effects on the Onset of Sporulation by Phytophthora ramorum on Rhododendron ‘Cunningham's White’

The effect of temperature and moist period on the onset of sporangia production by Phytophthora ramorum on Rhododendron ‘Cunningham's White’ was examined with misted detached leaves held in humid chambers. Following wound inoculation with sporangia, leaves were pre‐incubated at 20°C for either 24 or 72 h prior to placement at six different temperatures (4, 10, 15, 20, 25 and 30°C). The overall mean moist period required for first occurrence of sporulation over all six temperatures was 3.24 days with the 24‐h pre‐incubation time, compared with 1.49 days for the 72‐h pre‐incubation time. Following 24 h pre‐incubation at 20°C and at an incubation temperature of 15°C, sporangia were first collected from leaves following a 24 h incubation. At 10 and 20°C, sporangia were first collected after 48 h, whereas at 4, 25 and 30°C, sporangia were first collected after 3 days. Following 72 h pre‐incubation at 20°C, sporulation generally occurred within 1 day, even at temperatures such at 4 and 30°C that are suboptimal for sporulation. The highest levels of P. ramorum sporulation were observed at 20°C. P. ramorum formed sporangia on host tissue under moist conditions within the same time frame reported for P. phaseoli, P. palmivora and P. nicotianae, but substantially more slowly than certain other species such as P. infestans. Quantifying moisture and temperature conditions for initiation of sporangia production provides knowledge which leads to a greater understanding of the epidemic potential of P. ramorum.