PECULIARITIES OF PATHOGENESIS DUE TO INFECTION OF POTATOES BY PATHOTYPES OF WART SYNCHYTRIUM ENDOBIOTICUM (SCHILBERSKY) PERCIVAL

Authors

  • A.G. ZELYA Ukrainian Scientific Research Plant Quarantine Station Institute of Plant Protection of NAAS Author
  • T.Yo. MAKAR Ukrainian Scientific Research Plant Quarantine Station Institute of Plant Protection of NAAS Author
  • G.V. ZELYA Ukrainian Scientific Research Plant Quarantine Station Institute of Plant Protection of NAAS Author

DOI:

https://doi.org/10.31861/biosystems2024.01.014

Keywords:

potato, wart, pathogenesis, protein composition, redox enzymes, activity, identification, pathotypes

Abstract

The process of infection of potato varieties with different resistance to wart by zoospores of the causative agent of the disease was studied. Experients  carried out in laboratory conditions  in artificial infectious background for the damage of the Poliska rozheva potato variety (susceptible to all pathotypes of potato wart) and  Slovyanka (resistant to the common pathotype and  susceptible to all pathotypes of the causative agent of potato wart existing  in Ukraine by summer zoospores of the pathotypes of the causative agent of the disease . Determination of the content of total proteins was carried out according to the Marion Bradford’s method. Determination of peroxidase et polyphenoloxidase activity was determined according to the method of Kabar A. M., ZaikoG. A., Liholat T. Yu. et Tsivinska M. V., Antonyuk V. O., Stoika R.S. As a result of studies conducted to determine the pathogenesis of potato wart in the plant-host-pathogen system, in Poliska rozheva potato variety (susceptible to all wart pathotypes), soruses with zoospores of the wart pathogen observed on the affected sprouts, in potato variety Slovyanka, soruses with zoospores observed for lesions of aggressive pathotypes. When affected by the common pathotype of the causative agent of wart, soruses of the pathogen absent. Cells of the epidermis are necrotic. In the case of damage to susceptible potato varieties by pathotypes of the causative agent of wart, the content of total proteins increased. It varied between 0.221-0.262 mg/ml for the Poliska rozheva variety and 0.225-0.260 for the Slavyanka variety. The activity of peroxidase redox enzymes during affection by pathotypes was 0.046-0.053 μmol per minute, polyphenoloxidase – 0.050-0.057.

Thus, in the pathogenesis of the plant-host-pathogen for damage to potatoes by pathotypes of the potato wart pathogen Synchytrium endobioticum (Schilbersky) Percival, deviations in the development of structural proteins of the epidermis and different activity of oxidative enzymes were found. Based on these biochemical indicators, biochemical methods of identification of potato cancer pathotypes that exist in Ukraine have been developed and patented.

References

Bondarchuk, A. A., Koltunov, V. A., Oliinyk, T. M., Boroday V. V., Zacharciuc, N. A., Vichnevska O. V. Furdiga M. M. (2021). Potato study; methods of quality evaluation. [Kartopliarstvo: metody otsinky yakosti]. Nilan – LTD.

Buzduha, I. M., Volkov R. A. & Panchuk I. I. (2017). Effect of germination temperature and sucrose on ascorbate peroxidase activator in Arabidopsis thaliana under conditions of heat stress. [Vplyv temperatury vyroshchuvannia ta sakharozy na aktyvnist askorbat-peroksydazy u Arabidopsis thaliana v umovakh teplovoho stresu]. Nauk. Zap. Ternopilskoho ped. instytutu. Ser. Biolohiia. 4(71), 59-64.

Buzduha, I. M., Volkov R. A. & Panchuk I. I. (2018). Metabolic compensation in Arabidopsis thaliana mutants with lost catalase activity. [Metabolichna kompensatsiia u mutantiv Arabidopsis thaliana iz vtrachenoiu aktyvnistiu katalazy]. Tsitolohiia i henetyka, 52(1), .41-51.

Hoiko O. V. & Mohnaciov S. I. (2012). Analysis of modern software for statistical processing and analysis of biomedical research. [Analiz suchasnoho prohramnoho zabezpechennia dlia statystychnoho obroblennia y analizu biomedychnykh doslidzhen]. Medychna informatyka ta inzheneriia, 4, 49–52.

Zelya, A., Gunchak, V., Melnyk, A., Andriiciuk T., Popesku G. & Zadorsky E. (2020). The phytosanitary term of old sources potato wart Synchytrium endobioticum (Schilb.) Perc. in Ukraine. [Fitosanitarnyi stan vohnyshch raku kartopli Synchytrium endobioticum (Schilbersky) Percival v Karpatskomu rehioni Ukrainy]. Karantin I zahyst Roslyn, 4–6 (261), 9–15. https://doi.org/1036495/2312-0614/2020/4-6.9-15

Zelya, G. V., Gunchak, V. M., Zelya, A. H. & Pylypenko L. A. (2015). Methods for evaluation and selection of breeding material for potatoes resistant to wart Synchytrium endobioticum (Schilb.) Perc., harmonized with EU requirements. [Metodyka otsinky ta vidboru selektsiinoho materialu kartopli stiikoho do raku Synchytrium endobioticum (Schilb.) Perc. harmonizovana z vymohamy YeS]. Misto.

Zelya, A. G., Gunchak, V. M., Zelya, G. V.,. Janse, L. A. & Kuchnir, O. V. Method for identifying pathotypes of potato wart Synchytrium endobioticum (Schilb.) Perc. analysis of oxidation enzyme peroxidase. (Patent of Ukraine № 138191) . https://iprop-ua.com/inv/xs3tsjh2/#google_vignette - sposib identyfikatsii patotypiv zbudnyka raku kartopli Synchytrium endobioticum (Schilb.) Perc. analizom okysno-vidnovnoho fermentu peroksydazy.

Kabar , A. M., Zaiko ,G. A. & Liholat ,T. Yu. (2015). Special practicum for plant’s physiology and biochemistry. [Spetspraktykum z fiziolohii ta biokhimii Roslyn]. Lira.

Melnyk, P. O. (2003). Potato wart etiology, bioecological justification of measures, it’s prevention and restriction of development. Etiolohiia raku kartopli, bioekolohichne obhruntuvannia zakhodiv yoho profilaktyky ta obmezhennia rozvytku. Prut.

Review of quarantine pests spread in Ukraine on 01.01.2024. [Ohliad poshyrennia karantynnykh orhanizmiv v Ukraini stanom na 01.01.2024r]. URL: http://www.consumer.gov.ua/ContentPages/Oglyad_Poshirennya_Karantinnikh_Organizmiv_V_Ukraini/224

Rossykhyna-Halycha, H. S., Lykholat, Yu. V., Serha, O. V., & Hryhoriuk , I. P. (2015). Activity of catalase and peroxidase enzymes in leaves and roots of seedlings of maize genotypes under the action of soil herbicides and drought. [Aktyvnist fermentiv katalazy i peroksydazy v lystkakh y koreniakh prorostkiv henotypiv kukurudzy za dii hruntovykh herbitsydiv ta posukhy]. Naukovi dopovidi NUBiP. 2015. https://nd.nubip.edu.ua/2015_6/7.pdf

Sichkar, S. V. & Korobkova K. S. (2011). Activity of oxidative enzymes of plant cells under conditions of experimental mycoplasmosis/. Aktyvnist okysliuvalnykh fermentiv roslynnykh klityn za umov eksperymentalnoho mikoplazmozu. Mikrobiolohichnyi zhurnal. 73(32).

Solohub, O. S., Zelya, A. H., Melnyk, P. O. & Kostyshyn S. S. (2006). Biochemical identification of potato cancer pathotypes Synchytrium endobioticum (Shilbersky) Perсival. [Biokhimichna identyfikatsiia patotypiv raku kartopli Synchytrium endobioticum (Schilbersky) Percival]. Ukrainskyi biokhimichnyi zhurnal, 78 (6), 99-104.

Ali, A., Alexandersson, E., Sandin, M., Resjö, S., Lenman, M., Hedley, P., Levander, F., & Andreasson E. (2014). Quantitative proteomics and transcriptomics of potato in response to Phytophthora infestans in compatible and incompatible interactions. BMC Genom, 15:497. https://doi.org/10.1186/1471-2164-15-497

Baayen, R. P., Cochius, G., Hendriks, H., Meffert, J. P., Bakker, J., Bekker, M., Van den Boogert, P.H.J.F., Stachewicz, H., & Van Leeuwen, G.C.M. (2006). History of potato wart disease in Europe—a proposal for harmonisation in defining pathotypes. European Journal Plant Pathology, 116, 21–31. https://doi.org/10.1007/s10658-006-9039-y

Boberg J., & Björklund N. Synchytrium endobioticum – pathotypes, resistance of Solanum tuberosum and management. Report by Unit for Risk Assessment of Plant Pests at the Swedish University of Agricultural Sciences. URL: https://www.slu.se/globalassets/ew/org/centrb/riskv/pub/rapport-synchytrium-endobioticum_21sept2018.pdf

Bradford M. M. (1976). A rapid and sensitive method for the quantification of microgram quantities of protein utilizing the principle of protein-dye binding. Analyt. Biochem., 72(1- 2), 248–254.

Çakir, E., & Demirci F. (2017). A new pathotype of Synchytrium endobioticum in Turkey: Pathotype 2. Bitki koruma bulteni, 57(4), 415–422. https://doi.org/10.16955/bitkorb.34044.

EPPO (2022). EPPO Global Database (available online). URL: https://gd.eppo.int

EPPO Standard PM 7/28/1 Synchytrium endobioticum. (2004). Bulletin OEPP/EPPO Bulletin, 34(2),. 213–218.

EPPO Standard PM 7/28/2 Synchytrium endobioticum. (2017). Bulletin OEPP/EPPO Bulletin, 47(3), 420–440.

Fang, X., Chen, J., Dai, L., Ma, H., Zhang, H., Yan, J., Wang, F.,& Chengqi , Y. (2015) Proteomic dissection of plant responses to various pathogens. Journal Proteomics, 15, 1525–1543. https://doi.org/10.1002/pmic.20140038

Fiers, M., Chatot, C., Edel-Hermann, V., & Le Hingrat Y. (2012). Potato soil-borne diseases. Agronomy for Sustainable Development, 32(1), 93–132. https://doi.org/10.1007/s13593-011-0035-z

Ghoghoberidze, S., Sikharulidze, Z., Tsetskhladze, Ts., Sikharulidze, K., Gargiladze, L., & Papunidze V. (2020). Occurrence of the Pathotype 38 of Synchytrium Endobioticum in Khulo Municipality of Georgia. Bulletin of the Georgian national academy of science, 14(1), 114-119.

González-Fernández, R, Prats, E, & Jorrín-Novo, J.V. (2010). Proteomics of plant pathogenic fungi. Journal of Biomedicine and Biotechnology, https://doi.org/10.1155/2010/932527 (Art. ID 932527)

Mayer, А. M. (2006). Polyphenol oxidases in plants and fungi: going places? A review. Phytochemistry, 67, 2318–2331. https://doi.org/10.1016/j.phytochem.2006.08.006

Potato news today. (2023). https://www.potatonewstoday.com/2023/01/21/global-potato-statistics-latest-fao-data-published

Przetakiewicz, J. (2015). First report of new pathotype 39 (P1) of Synchytrium endobioticum causing potato wart disease in Poland. Plant Disease, 99 (2), 285.2. https://doi.org/10.1094/PDIS-06-14-0636-PDN

Przetakiewicz, J.& Plich, J. (2017). Assessment of the resistance to potato wart disease and pathotype identification Synchytrium endobioticum (Schilb) Perc. in Poland. Plant Breeding and Seed Science, 78, 37-43. https://doi.org/10.1515/plass-2017-00019

Resjö, S., Brus, M., Ali, A., Meijer, HJG, Sandin, M., Govers, F., Levander, F., Grenville-Briggs, L., Andreasson, E. (2017). Proteomic analysis of Phytophthora infestans reveals the importance of cell wall proteins in pathogenicity. Mol Cell Proteom, 16, 1958–1971. https://doi.org/10.1074/mcp.M116.065656

Röhrs, I., Linde, M., Przetakiewicz, J., Zelya, A., Zelya, G., Pucher, A., Tlapák, H., & Debener, T. (2023). Potato Wart Izolates from Europe and Nort America Form Distinct Clusters of Genetic Variation. Life, 13,1883. Basel, Switzerland. https://doi.org/10.3390/life13091883

Szajko, K., Plich, J., Przetakiewicz, J., Soltis-Kalyna, D., & Marczewsky W. (2020). Comparative proteomic analysis of resistant and susceptible potato cultivars during Synchytrium endobioticum infestation. Planta, 251. 4. https://doi.org/10.1007/s00425-019-03306-z

Tsivinska, M. V., Antonyuk, V. O., & Stoika R.S. (2015). Isolation and properties of polyphenol oxidase from basiodiocarps of Lactarius pergamenus Fr. (fr.) fungi. The Ukrainian Biochemical Journal, 87(2), 56-65. doi: http://dx.doi.org/10.15407/ubj87.02.056

Van de Vossenberg, В. T. L. H., Prodhomme, C., Vossen, J. H, & Van der Lee, T. A. (2022). Synchytrium endobioticum, the potato wart disease pathogen. Molecular Plant Pathology, 23(4). 461-474. https://doi.org/10.1111/mpp.13183

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Published

2024-07-24

Issue

Vol. 16 No. 1 (2024)

Section

БІОХІМІЯ, БІОТЕХНОЛОГІЯ, МОЛЕКУЛЯРНА ГЕНЕТИКА