{"title":"特异于 Phytophthora 和 P. nicotianae 的多重 PCR 与植物内部 DNA 对照,用于日本 Phytophthora 物种的有效检疫","authors":"Kayoko Otsubo, Mingzhu Li, Auliana Afandi, Haruhisa Suga, Koji Kageyama, Ayaka Hieno","doi":"10.1007/s10327-024-01179-z","DOIUrl":null,"url":null,"abstract":"<p>To prevent threats from pathogens such as <i>Phytophthora</i> species from international plant trade, molecular identification techniques are needed for rapid, accurate quarantine inspection. Here, for quarantine control in Japan, we developed a simple DNA extraction for plants and a practical detection method that combines multiplexed PCR using primers specific for <i>Phytophthora</i> species, for <i>P. nicotianae</i>, which is the only non-quarantine <i>Phytophthora</i> species, and as internal controls, for plants. For the new genus-level primer set, we modified previously reported genus-specific primers to improve detectability. The new primers were able to detect mycelial DNA of 155 taxa among <i>Phytophthora</i> clades 1–10, with a sensitivity of 100 fg/µL for three representative species, <i>P. ramorum</i>, <i>P. kernoviae</i> and <i>P. nicotianae</i>. In the PCRs using DNA from non-target species, amplification was observed for only three taxa, and for some strains, four taxa in a closely related genus. Duplex and triplex PCR of the genus-specific primers combined with previously reported plant primers verified the success of DNA extraction and PCR detection from diseased plant samples, and in the triplex PCR, whether the pathogen was diagnosed as <i>P. nicotianae</i> or not by the species-specific primer. The new method detected the pathogen in naturally infected and inoculated plants. The amplicons using the genus-specific primer have enough variation to be sequenced to identify the species. This new method can be used immediately for detecting <i>Phytophthora</i> species and for quarantine control in Japan.</p>","PeriodicalId":15825,"journal":{"name":"Journal of General Plant Pathology","volume":"42 1","pages":""},"PeriodicalIF":1.0000,"publicationDate":"2024-05-13","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Multiplex PCR specific for genus Phytophthora and P. nicotianae with an internal plant DNA control for effective quarantine of Phytophthora species in Japan\",\"authors\":\"Kayoko Otsubo, Mingzhu Li, Auliana Afandi, Haruhisa Suga, Koji Kageyama, Ayaka Hieno\",\"doi\":\"10.1007/s10327-024-01179-z\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>To prevent threats from pathogens such as <i>Phytophthora</i> species from international plant trade, molecular identification techniques are needed for rapid, accurate quarantine inspection. Here, for quarantine control in Japan, we developed a simple DNA extraction for plants and a practical detection method that combines multiplexed PCR using primers specific for <i>Phytophthora</i> species, for <i>P. nicotianae</i>, which is the only non-quarantine <i>Phytophthora</i> species, and as internal controls, for plants. For the new genus-level primer set, we modified previously reported genus-specific primers to improve detectability. The new primers were able to detect mycelial DNA of 155 taxa among <i>Phytophthora</i> clades 1–10, with a sensitivity of 100 fg/µL for three representative species, <i>P. ramorum</i>, <i>P. kernoviae</i> and <i>P. nicotianae</i>. In the PCRs using DNA from non-target species, amplification was observed for only three taxa, and for some strains, four taxa in a closely related genus. Duplex and triplex PCR of the genus-specific primers combined with previously reported plant primers verified the success of DNA extraction and PCR detection from diseased plant samples, and in the triplex PCR, whether the pathogen was diagnosed as <i>P. nicotianae</i> or not by the species-specific primer. The new method detected the pathogen in naturally infected and inoculated plants. The amplicons using the genus-specific primer have enough variation to be sequenced to identify the species. 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引用次数: 0
摘要
为防止国际植物贸易中的病原体(如疫霉菌)造成威胁,需要采用分子鉴定技术进行快速、准确的检疫检验。在此,为了在日本进行检疫控制,我们开发了一种简单的植物 DNA 提取方法和一种实用的检测方法,该方法结合了多重 PCR,使用了针对疫霉菌属、尼古丁疫霉菌属(唯一未检疫的疫霉菌属)的特异性引物,以及作为内部对照的植物引物。对于新的属级引物集,我们修改了之前报告的属特异性引物,以提高检测能力。新引物能够检测 1-10 支系中 155 个类群的噬菌体菌丝 DNA,对三个代表性物种(P. ramorum、P. kernoviae 和 P. nicotianae)的灵敏度为 100 fg/µL。在使用非目标物种 DNA 的 PCR 中,只对三个类群进行了扩增,某些菌株还对密切相关属中的四个类群进行了扩增。种属特异性引物与之前报道的植物引物相结合的双链和三链 PCR 验证了从患病植物样本中提取 DNA 和进行 PCR 检测的成功率,而且在三链 PCR 中,无论种属特异性引物是否将病原体诊断为烟草病菌,都能成功检测到病原体。新方法能在自然感染和接种的植物中检测到病原体。使用种属特异性引物的扩增子有足够的变异,可以通过测序来确定物种。在日本,这种新方法可立即用于检测疫霉菌种和检疫控制。
Multiplex PCR specific for genus Phytophthora and P. nicotianae with an internal plant DNA control for effective quarantine of Phytophthora species in Japan
To prevent threats from pathogens such as Phytophthora species from international plant trade, molecular identification techniques are needed for rapid, accurate quarantine inspection. Here, for quarantine control in Japan, we developed a simple DNA extraction for plants and a practical detection method that combines multiplexed PCR using primers specific for Phytophthora species, for P. nicotianae, which is the only non-quarantine Phytophthora species, and as internal controls, for plants. For the new genus-level primer set, we modified previously reported genus-specific primers to improve detectability. The new primers were able to detect mycelial DNA of 155 taxa among Phytophthora clades 1–10, with a sensitivity of 100 fg/µL for three representative species, P. ramorum, P. kernoviae and P. nicotianae. In the PCRs using DNA from non-target species, amplification was observed for only three taxa, and for some strains, four taxa in a closely related genus. Duplex and triplex PCR of the genus-specific primers combined with previously reported plant primers verified the success of DNA extraction and PCR detection from diseased plant samples, and in the triplex PCR, whether the pathogen was diagnosed as P. nicotianae or not by the species-specific primer. The new method detected the pathogen in naturally infected and inoculated plants. The amplicons using the genus-specific primer have enough variation to be sequenced to identify the species. This new method can be used immediately for detecting Phytophthora species and for quarantine control in Japan.
期刊介绍:
The Journal of General Plant Pathology welcomes all manuscripts dealing with plant diseases or their control, including pathogen characterization, identification of pathogens, disease physiology and biochemistry, molecular biology, morphology and ultrastructure, genetics, disease transmission, ecology and epidemiology, chemical and biological control, disease assessment, and other topics relevant to plant pathological disorders.