Створення селекційного матеріалу пшениці м’якої ярої з пшенично-житніми транслокаціями

С. О. Хоменко; В. А. Власенко; Т. В. Чугункова; І. В. Федоренко; Д. Ю. Березовський; Т. А. Данюк

doi:10.21498/2518-1017.15.1.2019.162477

Authors

С. О. Хоменко The V. M. Remeslo Myronivka Institute of Wheat, NAAS of Ukraine, Ukraine https://orcid.org/0000-0002-6047-7711
В. А. Власенко The V. M. Remeslo Myronivka Institute of Wheat, NAAS of Ukraine, Ukraine https://orcid.org/0000-0002-5535-6747
Т. В. Чугункова The V. M. Remeslo Myronivka Institute of Wheat, NAAS of Ukraine, Ukraine https://orcid.org/0000-0002-8945-0854
І. В. Федоренко The V. M. Remeslo Myronivka Institute of Wheat, NAAS of Ukraine, Ukraine https://orcid.org/0000-0001-5471-6475
Д. Ю. Березовський The V. M. Remeslo Myronivka Institute of Wheat, NAAS of Ukraine, Ukraine https://orcid.org/0000-0002-8867-555X
Т. А. Данюк Ukrainian Institute for Plant Variety Examination, Ukraine https://orcid.org/0000-0001-9454-9640

DOI:

https://doi.org/10.21498/2518-1017.15.1.2019.162477

Keywords:

spring bread wheat, varieties, hybridization, wheat-rye translocation, electrophoresis

Abstract

Purpose. Creation of bread spring wheat varieties using domestic and foreign varieties as carriers of wheat-rye translocation.

Меthods. Field, laboratory, statistical.

Results. The creation of varieties with wheat-rye translocation 1AL.1RS is the perspective direction of breeding, which allows to significantly improve the gene pool of bread spring wheat. The paper covers outputs of long-term breeding studies conducted at the V. M. Remeslo Myronivka Institute of Wheat of the National Academy of Agrarian Sciences of Ukraine (MIW) for obtaining bread wheat varieties with wheat-rye translocation 1AL.1RS. As the initial breeding material varieties and lines of domestic and foreign breeding were used, in particular, the ‘TAM 107’ variety (USA) with wheat-rye translocation 1AL.1RS. During realization of the scientific breeding program, the bread winter wheat variety ‘Ekspromt’ (1AL.1RS), as well as the bread spring wheat varieties ‘Struna myronivska’ (1AL.1RS) and ‘MІP Solomіia’ (1AL.1RS) have been created. As evidenced by the analysis of the spectrum of storage proteins, the varieties ‘Struna myronivska’ and ‘MIP Solomiіa’ contain wheat-rye translocation 1AL.1RS in their genomes. The variety ‘MIP Solomiіa’ inherited it from the variety of bread spring wheat ‘Struna myronivska’. The bread spring wheat new variety ‘MІP Solomiia’ is characterized by high yielding capacity, adaptability, resistance to powdery mildew, fusarium head blight, common bunt and high indices of grain quality.

Conclusions. By long-term single crossing foreign varieties and domestic breeding material when using the pedigree method, bread wheat varieties with wheat-rye translocation 1AL.1RS have been created. The bread spring wheat variety ‘MІP Solomiia’ submitted for the State Variety Testing in 2017, is characterized by high yielding capacity, lodging resistance, low incidence of fungal diseases, resistance to common bunt, adaptability. The presence of wheat-rye translocation in spring wheats varieties of Myronivka breeding ‘Struna myronivska’ and ‘MІP Solomіia’ has been confirmed by analyzing the spectrum of storage proteins during polyacrylamide gel electrophoresis.

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Author Biographies

С. О. Хоменко, The V. M. Remeslo Myronivka Institute of Wheat, NAAS of Ukraine

Svitlana Khomenko

В. А. Власенко, The V. M. Remeslo Myronivka Institute of Wheat, NAAS of Ukraine

Volodymyr Vlasenko

Т. В. Чугункова, The V. M. Remeslo Myronivka Institute of Wheat, NAAS of Ukraine

Tetiana Chugunkova

І. В. Федоренко, The V. M. Remeslo Myronivka Institute of Wheat, NAAS of Ukraine

Iryna Fedorenko

Д. Ю. Березовський, The V. M. Remeslo Myronivka Institute of Wheat, NAAS of Ukraine

Denys Berezovskyi

Т. А. Данюк, Ukrainian Institute for Plant Variety Examination

Tamara Daniuk

References

Graybosch, R. A., Peterson, C. J., Hansen, L. E., Worrall, D., Shelton, D. R., & Lukaszewski, A. (1993). Comparative flour quality and protein characteristics of 1BL/1RS and 1AL/1RS wheat-rye translocation lines. J. Cereal Sci., 17(2), 95–106. doi: 10.1006/jcrs.1993.1010

Rabinovich, S. V. (1998). Importance of wheat-rye translocations for breeding modern cultivars of Triticum aestivun L. Euphytica, 100(1–3), 323–340. doi: 10.1023/A:1018361819215

Kozub, N. O., Sozinov, I. O., Koluchiy, V. T., Vlasenko, V. A., Sobko, T. O., & Sozinov, O. O. (2005). Identification of 1AL/1RS translocation in winter common wheat varieties of Ukrainian breeding. Tsitol. Genet., 39(4), 20–24. [in Ukrainian]

Singh, N. K., Shepherd, K. W., & McIntosh, R. A. (1990). Linkage mapping of genes for resistance to leaf, stem and stripe rust and ω-secalins on the short arm of rye chromosome 1R. Theor. Appl. Genet., 80(5), 609–616. doi: 10.1007/BF00224219

Melz, G., Schlegel, R., & Thiele, V. (1992). Genetic linkage map of rye (Secale cereale L.). Theor. Appl. Genet., 83(1), 33–45. doi: 10.1007/BF00223842

Hoffmann, B. (2008). Alteration of drought tolerance of winter wheat caused by translocation of rye chromosome segment 1R. Cereal Res. Commun., 36(2), 269–278. doi: 10.1556/CRC.36.2008.2.7

Kim, W., Johnson, J. W., Baenziger, P. S., Lukaszewski, A. J., & Gaines, C. S. (2004). Agronomic effect of wheat-rye translocation carrying rye chromatin (1R) from different sources. Crop Sci., 44(4), 1254–1258. doi: 10.2135/cropsci2004.1254

Sebesta, E. E., & Wood, E. A. (1978). Transfer of greenbug resistance from rye to wheat with X-rays. Agron. Abstr. (pp. 61–62). Madison, Wisconsin: American Society of Agronomy.

Rabinovich, S. V., Raupp, W. J., Markova, T. Yu., Boguslavskiy, R. L., & Chernyaeva, I. N. (2001). Introgression lines of pest and disease resistance genes developed at the Wheat Genetics Resources Center, USA. In Geneticheskie resursy kul’turnykh rasteniy. Problemy mobilizatsii, inventarizatsii, sokhraneniya i izucheniya genofonda vazhneyshykh sel’skokhozyaystvennykh kulʹtur dlya resheniya prioritetnykh zadach selektsii: tez. dokl. Mezhdunar. nauch.-prakt. konf. [Genetic Resources of Cultivated Plants. Problems of Mobilization, Inventory, Preservation and Study of Gene Pool of the Most Important Agricultural Crops for the Solution of Priority Tasks of Breeding: abstracts of Int. Conf.] (pp. 387–390). Nov. 13–16, 2001, St. Petersburg, Russia. [in Russian]

Vlasenko, V. A., Koliuchyi, V. T., Chebakov, M. P., Kolomiiets, L. A., & Kozub, N. O. (2005). Use of rye genetic components in breeding of Myronivka bread winter wheat varieties. Zbirnyk naukovykh prats Umanskoho derzhavnoho ahrarnoho universytetu [Collection of Scientific Papers of Uman State Agrarian University], 60, 54–63. [in Ukrainian]

Sozinov, A. A. (1985). Protein Polymorphism and its Importance for Genetics and Plant Breeding. Moscow: Nauka. [in Russian]

Zaitseva, H. P., Akinina, H. Ye., Tverdokhlib, O. V., & Popov, V. M. (2015). The distribution of wheat-rye translocation in soft winter wheat (Triticum aestivum L.) samples of Ukrainian breeding. Fakt. Eksp. Evol. Org. [Factors in Experimental Evolution of Organisms], 17, 303–307. [in Ukrainian]

Kozub, N. O., Sozinov, I. A., Kyrylenko, V. V., Kochmarskyi, V. S., Gumeniuk, O. V., Dubovyk, N. S., & Vasylkivskyi, S. P. (2015). Detection of perspective winter wheat genotypes by electrophoretic spectra of storage proteins. Mironìvsʹkij vìsnik [Myronivka Bulletin], 1, 105–118.

Topal, M. M. (2012). Identification and agronomy characteristic of bread winter wheat varieties and lines with wheat-rye translocations. In Selektsiia ta henetyka silskohospodarskykh roslyn: tradytsii ta perspektyvy (do 100-richchia SHI–NTsNS): tezy Mizhnarodnoi naukovoi konferentsii [Breeding and Genetics of Crop Plants: Traditions and Perspectives (to the 100-th anniversary of PB&GI–NCSCI: Abstr. Int. Conf.] (pp. 203–204). Oct. 17–19, 2012, Odesa, Ukraine. [in Ukrainian]

Volkodav, V. V. (Ed.). (2000). Metodyka derzhavnoho sortovyprobuvannia silskohospodarskykh kultur. Zahalna chastyna [Methods of state testing of crops. General part]. Kyiv: N.p. [in Ukrainian]

Filatenko, A. A., & Shitova, I. P. (1989). Shirokiy unifitsirovannyy klassifikator SEV roda Triticum L. [CMEA Wide-Range Unified Cassifier of the Genus Triticum L.]. V. A. Korneychuk (Ed.). Leningrad: VIR. [in Russian]

Dospekhov, B. A. (1985). Metodika polevogo opyta (s osnovami statisticheskoy obrabotki rezul’tatov issledovaniy) [Methods of Field Experiment (with the Basics of Statistical Processing of Research Results)]. (5^th ed., rev.). Moscow: Agropromizdat. [in Russian]

Kozub, N. A., Sozinov, I. A., Sobko, T. A., Kolyuchii, V. T., Kuptsov, S. V., & Sozinov, A. A. (2009). Variation at storage protein loci in winter common wheat cultivars of the Central Forest-Steppe of Ukraine. Cytol. Genet., 43(1), 55–62. doi: 10.3103/S0095452709010101

Babayants, L., Mesterhazy, A., Wachter, V., Neklesa, N., Dubinina, L., Omel’chenko, L., & Bartosh, P. (1988). Metody selektsii i otsenki ustoychivosti pshenitsy i yachmenya k boleznyam v stranakh-chlenakh SEV [Methods of Breeding and Evaluating Wheat and Barley for Disease Resistance in COMECON Countries]. Prague: N.p. [in Russian]

Vlasenko, V. A., Molotskyi, M. Ya., Sobko, T. O., Kozub, N. O., & Solona, V. Y. (2005). Breeding value of 1АL.1RS wheat-rye translocation when creating bread spring wheat varieties. Visnyk Bilotserkivskoho derzhavnoho ahrarnoho universytetu [Bulletin of Bila Tserkva State Agrarian University], 35, 30–38. [in Ukrainian]

Chugunkova, T. V., Khomenko, S. O., & Demydov, O. A. (2017). Wheat-rye translocations in wheat breeding. In Realizatsiia potentsialu sortiv zernovykh kultur – shliakh do vyrishennia prodovolchoi bezpeky: materialy Mizhnar. nauk. konf. [Realization of the potential of grain crop varieties – the way to the solution of food security: Proc. Int. scientific-practical. Conf.] (pp. 56–58). Oct. 20, 2017, Tsentralne vil., Ukraine. [in Ukrainian]