Masako Senda scite author profile

The objective of this study was to develop multiplex PCR detection method for five Pythium species associated with turfgrass diseases, Pythium aphanidermatum, Pythium arrhenomanes, Pythium graminicola, Pythium torulosum and Pythium vanterpoolii. Species-specific primers and two common primers were designed based on the sequences of the internal transcribed spacer region of ribosomal DNA. Another primer set by which all organisms would be amplified in 18S rDNA was used as a positive control. When these total nine primers were applied to the multiplex PCR, all species were individually discriminated in the mixture of five species culture DNA. Furthermore, all five Pythium species were detected in naturally infected plants using the multiplex PCR.

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Two new species ofPythium,P. senticosumandP. takayamanum, isolated from cool-temperate forest soil in Japan

Senda¹,

Kageyama

Suga

et al. 2009

Mycologia

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Pythium senticosum and P. takayamanum spp. nov. were isolated from cool-temperate forest soil in Japan. P. senticosum can grow at 5 C and is fast growing at 25 C with a radial growth of 22.2 mm 24 h(-1). The species is morphologically characterized by ovoid to ellipsoid sporangia with apical papilla, ornamented oogonia with acute conical spines, and antheridia with broad attachment to oogonia. P. takayamanum is very different and can grow at 35 C. This species is morphologically characterized by its wavy antheridial stalks and ellipsoidal oogonia with constricted areas. Phylogenetic analyses of the ITS rDNA region and the partial COX2 gene showed that the two species are genetically distinct from each other and from their closest relatives. P. senticosum is closely related to P. dimorphum and P. undulatum whereas P. takayamanum is closely related to P. rhizosaccharum and P. parvum.

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Phytophthora chrysanthemi sp. nov., a new species causing root rot of chrysanthemum in Japan

et al. 2010

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A new species of Phytophthora was isolated from stem and root rot of chrysanthemum in the Gifu and Toyama prefectures of Japan. The species differs from other Phytophthora species morphologically, and is characterized by nonpapillate, noncaducous sporangia with internal proliferation, formation of both hyphal swellings and chlamydospores, homothallic nature, distinctive intercalary antheridia, and funnel-shaped oogonia. The new species can grow even at 35°C, with an optimum growth temperature of 30°C in V8 juice agar medium. In phylogenetic analyses based on five nuclear regions (LSU rDNA; genes for translation elongation factor 1α, β-tubulin, 60 S ribosomal protein L10, and heat shock protein 90), the isolates formed a monophyletic clade. Although the rDNA ITS region shows a high resolution and has proven particularly useful for the separation of Phytophthora species, it was difficult to align the sequences for phylogenetic analysis. Therefore, ITS region analysis using related species as defined by the multigene phylogeny was performed, and the topology of the resulting tree also revealed a monophyletic clade formed by the isolates of the species. The morphological characteristics and phylogenetic relationships indicate that the isolates represent a new species, Phytophthora chrysanthemi sp. nov. In pathogenicity tests, chrysanthemum plants inoculated with the isolates developed lesions on stems and roots within 3 days, and the symptoms resembled the ones originally observed. Finally, the pathogen's identity was confirmed by reisolation from lesions of infected plants.

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Development of real-time PCR technique for the estimation of population density of Pythium intermedium in forest soils

Senda

Komatsu³

et al. 2010

Microbiological Research

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Pythium intermedium is known to play an important role in the carbon cycling of cool-temperate forest soils. In this study, a fast, precise and effective real-time PCR technique for estimating the population densities of P. intermedium from soils was developed using species-specific primers. Specificity was confirmed both with conventional PCR and real-time PCR. The detection limit (sensitivity) was determined and amplification standard curves were generated using SYBR Green II fluorescent dye. A rapid and accurate assay for quantification of P. intermedium in Takayama forest soils of Japan was developed using a combination of a new DNA extraction method and PCR primers were developed for real-time PCR. And the distribution of P. intermedium in forest soil was investigated with both soil plating method and the developed real-time PCR technique. This new technique will be a useful tool and can be applied to practical use for studying the role of Pythium species in forest and agricultural ecosystems.

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Masako Senda

Intra-isolate heterogeneity of the ITS region of rDNA in Pythium helicoides

Development of Multiplex PCR to Detect FivePythiumSpecies Related to Turfgrass Diseases

Two new species ofPythium,P. senticosumandP. takayamanum, isolated from cool-temperate forest soil in Japan

Phytophthora chrysanthemi sp. nov., a new species causing root rot of chrysanthemum in Japan

Development of real-time PCR technique for the estimation of population density of Pythium intermedium in forest soils

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