Diverse phytoplasmas associated with potato stolbur and other related potato diseases in Russia

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Diverse phytoplasmas associated with potato stolbur and other related potato diseases in Russia

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作者：Natalia V. Girsova ; Kristi D. Bottner-Parker…
关键词：Potato purple top ; Round leaf disease ; Phytoplasma group 16SrXII ; Phytoplasma group 16SrIII ; Phytoplasma group 16SrVI ; Phytoplasma group 16SrI
刊名：European Journal of Plant Pathology
出版年：2016
出版时间：May 2016
年：2016
卷：145
期：1
页码：139-153
全文大小：761 KB
参考文献：Balakishiyeva, G., Danet, J. L., Gurbanov, M., Mamedov, A., Kheyr-Pour, A., & Fossac, X. (2010). First report of phytoplasma infections in several temperate fruit trees and vegetable crops in Azerbaijan. Journal of Plant Pathology, 92(4 Supplement), S115.
Bogoutdinov, D. Z. (2000). Phytoplasma diseases of potato and methods of their study. Samara: Samara State Agricultural Academy (In Russian).
Bogoutdinov, D. Z. (2006). Evolutionary aspects of appearance of phytoplasma diseases in nature. Proceedings of the Whorkshop on Plant Virus Diseases. (devoted to the 75-year anniversary of Yu.I. Vlasov) (pp. 44–51). St-Petersburg-Pushkin: VIZR. (In Russian).
Bogoutdinov, D. Z., Valiunas, D., Navalinskene, M., & Samuitene, M. (2008). Identification of phytoplasma species, causative agents of solanaceae crop diseases. Agricultural Biology, 1, 77–80 (In Russian).
Deng, S., & Hiruki, C. (1991). Amplification of 16S rRNA genes from culturable and non-culturable mollicutes. Journal of Microbiological Methods, 14, 53–61.CrossRef
Ember, I., Acs, Z., Munyaneza, J. E., Crosslin, J. M., & Kolber, M. (2011). Survey and molecular detection of phytoplasmas associated with potato in Romania and southern Russia. European Journal of Plant Pathology, 130, 367–377.CrossRef
Eristavi, E. M., Sakvaremidze, N. A., & Titvinidze, S. S. (1952). Tomato stolbur in Georgia. Works of Institute for Plant Protection of Georgian SSR Academy of Science, 8, 111–141 (In Russian).
Girsova, N., Bottner, K. D., Mozhaeva, K. A., Kastalyeva, T. B., Owens, R. A., & Lee, I.-M. (2008). Molecular detection and identification of group 16SrI and 16SrXII phytoplasmas associated with diseased potatoes in Russia. Plant Disease, 92(4), 654.CrossRef
Goldin, M. I., & Bagdasaryan, A. E. (1969). Tomato stolbur in Azerbaijan. Plant Protection, 2, 22–23 (In Russian).
Goldin, M. I., & Parievskaya, A. P. (1950). Materials on the stolbur of tomatoes in the Crimea. Microbiology, 19, 527–531 (In Russian).
Goldin, M. I., & Yurchenko, M. A. (1961). Tomato stolbur and some other virus diseases look like yellows in Alma-Ata Region. Works of Institute for Microbiology and Virology of Kazakh SSR Academy of Science, 5, 139–147 (In Russian).
Green, M. J., Thompson, D. A., & MacKenzie, D. J. (1999). Easy and efficient DNA extraction from woody plants for the detection of phytoplasmas by polymerase chain reaction. Plant Disease, 83, 482–485.CrossRef
Guclu, S., & Ozbek, H. (1991). Studies on the vectors of MLOs caused stolbur disease of potatoes in Erzurum. Atatürk Üniversitesi Ziraat Fakültesi Dergisi, 22, 35–42.
Gundersen, D. E., & Lee, I.-M. (1996). Ultrasensitive detection of phytoplasmas by nested-PCR assays using two universal primer pairs. Phytopathologia Mediterranea, 35, 144–151.
Isamukhamedov, M. Z. (1969). Stolbur of Solanaceae in Uzbekistan. Uzbek Biological Journal, 3, 13–15 (In Russian).
Jakovljević, M., Jović, J., Mitrović, M., Krstić, O., Kosovac, A., Toševski, I., & Cvrković, T. (2015). Euscelis incisus (Cicadellidae, Deltocephalinae), a natural vector of 16DrIII-B phytoplasma causing multiple inflorescence disease of Cirsium arvense. Annals of Applied Biology. doi:10.1111/aab.12236 .
Khachatryan, G. A. (1950). Potato stolbur wilt in Armenia and its transmission by grafting. News of Academy of Sciences of Armenian SSR, 3, 1113–1120 (In Russian).
Korachevskiy, I. K. (1936). Stolbur disease of plants. In M. S. Dunin (Ed.), Virus diseases of plants, 5 (pp. 99–111). Moscow: VASKHNIL (In Russian).
Korachevskiy, I. K., & Semenkova, A. V. (1938). On the susceptibility of solanaceae and convolvulaceae plants to big bud disease. Plant Virus Diseases., 2, 118–124 (In Russian).
Lee, I.-M., Hammond, R. W., Davis, R. E., & Gundersen, D. E. (1993). Universal amplification and analysis of pathogen 16S rDNA for classification and identification of mycoplasmalike organisms. Phytopathology, 83, 834–842.CrossRef
Lee, I.-M., Gundersen-Rindal, D. E., Davis, R. E., & Bartoszyk, I. M. (1998). Revised classification scheme of phytoplasmas based on RFLP analyses of 16S rRNA and ribosomal protein gene sequences. International Journal of Systematic Bacteriology, 48, 1153–1169.CrossRef
Lee, I.-M., Davis, R. E., & Gundersen-Rindal, D. E. (2000). Phytoplasma: phytopathogenic mollicutes. Annual Review of Microbiology, 54, 221–555.CrossRef PubMed
Lee, I.-M., Bottner, K. D., Munyaneza, J. E., Secor, G. A., & Gudmestad, N. C. (2004a). Clover proliferation group (16SrVI) subgroup A (16SrVI-A) phytoplasma is a probable causal agent of potato purple top disease in Washington and Oregon. Plant Disease, 88, 429.
Lee, I.-M., Gundersen-Rindal, D. E., Davis, R. E., Bottner, K. D., Marcone, C., & Seemüller, E. (2004b). ‘Candidatus Phytoplasma asteris’, a novel phytoplasma taxon associated with aster yellows and related disease. International Journal of Systematic and Evolutionary Microbiology, 54, 1037–1048.CrossRef PubMed
Lee, I.-M., Martini, M., Marcone, C., & Zhu, S. F. (2004c). Classification of phytoplasma strains in the elm yellows group (16SrV) and proposal of ‘Candidatus phytoplasma ulmi’ for the phytoplasma associated with elm yellows. International Journal of Systematic and Evolutionary Microbiology, 54(Pt 2), 337–47.CrossRef PubMed
Lee, I.-M., Bottner, K. D., Munyaneza, J. E., Davis, R. E., Crosslin, J. M., du Toit, L. J., & Crosby, T. (2006). Carrot purple leaf: a new spiroplasmal disease associated with carrots in Washington State. Plant Disease, 90(8), 989–993.CrossRef
Mikec, I., Križanac, I., Budinščak, Ž., Šeruga, M. M., Krajačić, M., & Škorić, D. (2006). Phytoplasmas and their potential vectors in vineyards of indigenous Croatian varieties. In Extended abstracts 15th meeting of the ICVG (pp. 255–257). Stellenbosch: South African Society for Enology and Viticulture.
Milkus, B., Clair, D., Idir, S., Habili, N., & Boudon-Padieu, E. (2005). First detection of stolbur phytoplasms in grapevines (Vitis vinifera cv. Chardonnay) affected with grapevine yellows in the Ukraine. Plant Pathology, 54(2), 236.CrossRef
Najet, N., Vadamalai, G., Davis, R. E., Harrison, N. A., Sijam, K., Dickinson, M., Abdullah, S. N. A., & Zhao, Y. (2013). ‘Candidatus phytoplasma malaysianum’, a novel taxon associated with virescence and phyllody of Madagascar periwinkle (Catharanthus roseus). International Journal of Systematic and Evolutionary Microbiology, 63, 540–548.CrossRef
Poner, V. M. (1941). On varietal susceptibility of Solanaceae to stolbur (big bud) disease. In V. L. Ryzhkov (Ed.), Proceedings of the workshop ‘plant virus diseases and their control’ (pp. 245–254). Moscow-Leningrad: Academy of Science of the USSR (In Russian).
Protsenko, А. Е. (1974). Areal of plant viruses and phytopathogenic mycoplasmas and their control. Works of All-Union Institute for Plant Protection, 41, 7–12 (In Russian).
Razvyazkina, G. M. (1950). On the dissemination of the stolbur virus in the wild. Microbiology, 19, 256–259 (In Russian).
Ryzhkov, V. L., & Korachevskiy, I. K. (1934). Experiments on the artificial transmission of virus diseases of the tomato. In V. L. Ryzhkov (Ed.), Virus diseases of plants in the Crimea and the Ukraine (pp. 7–30). Simferopol: State Publishing House of Crimean ASSR (In Russian).
Samsonova, L. N. (1979). Mycoplasma-like nature of potato witches’-broom. In Y. I. Vlasov (Ed.), The works of the Russian research institute for plant protection (pp. 43–47). Leningrad: VIZR (In Russian).
Samsonova, L. N., & Bogoutdinov, D. Z. (1993). Role of mixed infections in tomato stolbur disease. In Y. I. Vlasov (Ed.), Viral epidemics and ways to prevent them (pp. 49–54). St. Petersburg: VIZR (In Russian).
Samsonova, L. N., Larina, E.I., & Gerasenkova, Е. А. (1979). Damage of potato by mycoplasma-like disease in Leningradskaya oblast. Ibid. (pp. 48–51). (In Russian).
Samsonova, L. N., Vlasov, Y. I., & Bogoutdinov, D. Z. (1991). About complex study of mycoplasma-like disease (methodology). St. Petersburg: VIZR (In Russian).
Samudzheva, E. M. (1949). Some data on study of tomato stolbur vectors in Georgia. Works of Institute for Plant Protection of Georgian SSR Academy of Science, 6, 161–162 (In Russian).
Samudzheva, E. M. (1953). Study of biological properties of stolbur vector, leafhopper Hyalesthes mlokosiewiczi Sign. Works of Institute for Plant Protection of Georgian SSR Academy of Science, 9, 15–28 (In Russian).
Schneider, B., Ahrens, U., Kirkpatrick, B. C., & Seemüller, E. (1993). Classification of plant-pathogenic mycoplasma-like organisms using restriction-site analysis of PCR amplified 16S rDNA. Journal of General Microbiology, 139, 519–527.CrossRef
Serbinov, B. I. (1941). Measures for tomato stolbur disease control in Moldavian SSR. In V. L. Ryzhkov (Ed.), Proceedings of the workshop ‘plant virus diseases and their control’ (pp. 264–268). Moscow-Leningrad: Academy of Science of the USSR (In Russian).
Sukhov, K. C., & Razvyazkina, G. M. (1955). Biology of viruses and virus diseases of plants. Moscow: Soviet Science.
Sukhov, K. C., & Vovk, A. M. (1946a). Leafhopper Hyalesthes obsoletus as a vector of stolbur of solanaceae. Reports of USSR Academy of Science, 53(2), 153–156 (In Russian).
Sukhov, K. C., & Vovk, A. M. (1946b). Potato stolbur. Reports of All-Union Academy of Agricultural Sciences., 1–2, 24–29 (In Russian).
Sukhov, K. C., & Vovk, A. M. (1947). Virus of stolbur as a causative agent of mass wilt of pepper, eggplant and potato in the South. Reports of USSR Academy of Science, 58(2), 319–321 (In Russian).
Sukhov, K. C., & Vovk, A. M. (1949). Stolbur of solanaceae. Мoscow-Leningrad: USSR Academy of Science (In Russian).
Sukhov, K. C., & Vovk, A. M. (1950). Distinguishing between north and south potato stolbur. The Works of Institute of Genetics of USSR Academy of Science, 17, 236–238 (In Russian).
Tanne, E., Boudon-Padieu, E., Clair, D., Davidovich, M., Melamed, S., & Meir, K. (2001). Detection of phytoplasma by polymerase chain reaction of insect feeding medium and its use in determining vectoring ability. Phytopathology, 91, 741–746.CrossRef PubMed
Tsyplenkov, A. E., & Fedotina, V. L. (1973). About nature and classification of two forms of stolbur. Biological Sciences, 5, 100–106 (In Russian).
Vlasov, Y. I., Larina, E. I., & Teploukhova, T. N. (1972). Tomato virus disease in Central Asia and their control. Bulletin of All-Union Institute for Plant Protection, 24, 58–62 (In Russian).
Vlasov, Y. I., Samsonova, L. N., & Bogoutdinov, D. Z. (1992). Contemporary view on tomato stolbur circulation in Chechnya and Ingushetiya. Reports of All-Union Agricultural Academy of Sciences., 4, 23–24 (In Russian).
Wei, W., Davis, R. E., Lee, I.-M., & Zhao, Y. (2007). Computer-simulated RFLP analysis of 16S rRNA genes: identification of ten new phytoplasma groups. International Journal of Systematic and Evolutionary Microbiology, 57, 1855–1867.CrossRef PubMed
Yachevskiy, A. A. (1926). Potato witches’-broom. Materials on Mycology and Phytopathology, 5(2), 1–12 (In Russian).
Yemelyanov A. F. (1964). Suborder Cicadinea (Auchenorrhyncha). In: The Determinant of Insects in the European Part of the USSR. 1, 337–437. (In Russian).
Zhao, Y., Wei, W., Lee, I.-M., Shao, J., Suo, X., & Davis, R. E. (2009). Construction of an interactive online phytoplasma classification tool, iPhyClassifier, and its application in analysis of the peach X-disease phytoplasma group (16SrIII). International Journal of Systematic and Evolutionary Microbiology, 59, 2582–2593.CrossRef PubMed PubMedCentral
作者单位：Natalia V. Girsova (1)
Kristi D. Bottner-Parker (2)
Damir Z. Bogoutdinov (3)
Yuri I. Meshkov (1)
Karina A. Mozhaeva (1)
Tatyana B. Kastalyeva (1)
Ing Ming Lee (2)

1. Russian Research Institute of Phytopathology, 143050, Bolshie Vyaziomy, Moscow oblast, Russia
2. USDA/ARS, Molecular Plant Pathology Laboratory, Beltsville, MD, USA
3. Samara State Agricultural Academy, 446442, Kinel, Samara oblast, Russia
刊物类别：Biomedical and Life Sciences
刊物主题：Life Sciences
Plant Pathology
Plant Sciences
Ecology
出版者：Springer Netherlands
ISSN：1573-8469

文摘

A large scale survey on diseased potato plants that exhibited symptoms similar to those of stolbur, potato purple top wilt, potato witches’-broom, and potato round-leaf in eight Economical Regions of Russia was conducted from 2006 to 2012. A total of 1228 potatoes were collected and the associated phytoplasmas were identified. Phytoplasmas belonging to five 16S rRNA (16Sr) phytoplasma groups (16SrI, 16SrII, 16SrIII, 16SrVI, and 16SrXII) and at least eight subgroups (16SrI-B, 16SrI-C, 16SrI-P, 16SrII-A, 16SrIII-B, 16SrVI-A, 16SrVI-C, and 16SrXII-A) were identified. To our knowledge, subgroup 16SrIII-B and 16SrVI-C phytoplasmas have not been reported to infect potatoes. Based on the results of the survey, the percentages of infection caused by various phytoplasmas were: 40.2 % (16SrXII), 25.5 % (16SrIII), 20.9 % (16SrI), 12.4 % (16SrVI), and 1.2 % (16SrII). The results also indicated potato diseases exhibiting stolbur or similar symptoms could be caused by stolbur phytoplasma (16SrXII-A) alone or by other phytoplasma groups (e.g., 16SrI and 16SrIII). A survey on potential insect vectors was conducted from 2009 to 2012 in the Moscow oblast of the Central Region. A total of 23 different species of Hemiptera insects were screened for the presence of phytoplasmas. Eight leafhopper and three froghopper species carried phytoplasmas. Euscelis incisus and Macrosteles laevis were the most prevalent. The other species were present in very low populations.