Sources of resistance to brown rust pathogen and their use in the development of soft wheat varieties

Authors

DOI:

https://doi.org/10.21498/2518-1017.13.4.2017.117742

Keywords:

soft spring wheat, resistance genes, Lr-genes, brown rust pathogen, gene pool, source of resistance

Abstract

Purpose. To select alien genes among those identified and described in special literature that are resistant to brown rust and introgressed in Triticum aestivum L. sources, determine their origin and prospects of use in breeding practice.

Results. Soft spring wheat as the basic cereal crop belongs to the group of plants cultivated in controlled conditions for a long time. During the vegetation period it can be adversely affected by pathogens, so the search for sources of resistance to them is a priority task of breeding. Brown rust is one of the most widespread and harmful diseases of wheat. It causes significant yield losses and deterioration of grain quality. The population of the pathogen Puccinia recondita is highly adaptive. High variability of the fungus virulence leads to the accumulation of pathogens which can destroy genes of wheat resistance. The most environmentally safe method to control disease is creating resistant varieties. The effectiveness of breeding for resistance to brown rust can be increased by using different Lr-genes of resistance. Now in wheat genome and its relatives more than 90 (Lr) genes of resistance to brown rust pathogen are identified and characterized for chromosomal localization and effectiveness. It was found that almost all genes of resistance to brown rust to be effective in Ukraine except Lr10 and Lr23 are alien transferred to Triticum aestivum from other species: Aegilops speltoides – genes Lr28, Lr35, Lr36, Lr47, Lr51, Lr66; Aegilops tauschii – Lr1, Lr21, Lr22a, Lr32, Lr39, Lr42; Triticum timopheevii – Lr18 and Lr50; Thinopyrum elongatum – Lr19, Lr29, Lr24; Secale cereale – Lr25, Lr26 and Lr45; Aegilops umbellulata – Lr9, Lr76; Triticum spelled – Lr44, Lr65, Lr71; Triticum dicoccoides – Lr53, Lr 64; Aegilops triuncilis – Lr58, LrTr; Tr. timopheevii spp. viticulosum – LrTt1; Aegilops ventricosa – Lr37; Aegilops kotschyi – Lr54; Elymus trachycaulis – Lr55; Aegilops sharonensis – Lr56; Aegilops geniculate – Lr57; Aegi­lops peregrine – Lr59; Triticum turgidum – Lr61; Aegilops neglecta – Lr62; Triticum monococcum – Lr63.

Conclusions. The use of cultivars and wildlife species of wheat relatives in crossing will allow to obtain breeding material to be inhomogenous as for resistance to brown rust pathogen.

Downloads

Download data is not yet available.

Author Biographies

Г. М. Ковалишина, National University of Life and Environmental Sciences of Ukraine

Kovalyshyna, H. M.

Ю. М. Дмитренко, National University of Life and Environmental Sciences of Ukraine

Dmytrenko, Yu. M.

References

Gorlenko, M. V. (1973). Kratkiy kurs immuniteta rasteniy k infek­tsionnym boleznyam [Short course of plant immunity to infectious diseases]. (3rd ed., rev.). Moscow: Vysshaya shkola. [in Russian]

Babaiants, O. V. (2011). Imunolohichna kharakterystyka roslynnykh resursiv pshenytsi ta obgruntuvannia henetychnoho zakhystu vid zbudnykiv khvorob hrybnoi etiolohii u Stepu Ukrainy [Immunological characteristics of wheat plant resources and substantiation of genetic protection against pathogens of fungal aetiology in the Steppe region of Ukraine] (Extended Abstract of Dr. Agric. Sci. Diss.). National University of Life and Environmental Sciences of Ukraine, Kуіv, Ukraine. [in Ukrainian]

Lisova, H. M. (2012). Expression of wheat resistance genes to the the brown rust pathogen in the conditions of the Forest-Steppe zone of Ukraine in 2000–2010. Zahist i karantin roslin [Protection and Plant Quarantine], 58, 97–106. [in Ukrainian]

Kovalyshyna, H. M., & Dmytrenko, Yu. M. (2016). Sources of resistance to brown rust pathogen of wheat. In Profesor S. L. Frankfurt (1866–1954) – vydatnyi vchenyi-ahrobioloh, odyn iz diievykh orhanizatoriv akademichnoi nauky v Ukraini (do 150-richchia vid dnia narodzhennia): mater. Mizhnar. nauk.-prakt. konf. [Professor S. L. Frankfurt (1866–1954) – outstanding scientist-agrobiologist, one of the effective organizers of academic science in Ukraine: abstract of Int. Applied Research Conf.] (Vol. 1, pp. 64–66). Nov. 18, 2016, Kyiv, Ukraine. [in Ukrainian]

McIntosh, R. A., Devos, K. M., Dubcovsky, J., & Rogers, W. J. (2004). Сatalogue of gene symbols for wheat: 2004 Supplement. Retrieved from https://shigen.nig.ac.jp/wheat/komugi/genes/macgene/supplement2004.html

McIntosh, R. A., Devos, K. M., Dubcovsky, J., Rogers, W. J., Morris, C. F., Appels, R., & Anderson, O. D. (2005). Сatalogue of gene symbols for wheat: 2005 Supplement. Retrieved from https://shigen.nig.ac.jp/wheat/komugi/genes/macgene/supplement2005.pdf

McIntosh, R. A., Devos, K. M., Dubcovsky, J., Rogers, W. J., Morris, C. F., Appels, R., & Anderson, O. D. (2006). Сatalogue of gene symbols for wheat: 2006 Supplement. Retrieved from https://shigen.nig.ac.jp/wheat/komugi/genes/macgene/supplement2006.pdf

McIntosh, R. A., Devos, K. M., Dubcovsky, J., Rogers, W. J., Morris, C. F., Appels, R., Somers, D. J., & Anderson, O. D. (2007). Сatalogue of gene symbols for wheat: 2007 Supplement. Retri­eved from https://shigen.nig.ac.jp/wheat/komugi/genes/macgene/supplement2007.pdf

McIntosh, R. A., Devos, K. M., Dubcovsky, J., Rogers, W. J., Morris, C. F., Appels, R., Somers, D. J., & Anderson, O. D. (2008). Сatalogue of gene symbols for wheat: 2008 Supplement. Retri­eved from https://shigen.nig.ac.jp/wheat/komugi/genes/macgene/supplement2008.pdf

McIntosh, R. A., Dubcovsky, J., Rogers, W. J., Morris, C. F., Appels, R., & Xia, X. C. (2009). Сatalogue of gene symbols for wheat: 2009 Supplement. Retrieved from https://shigen.nig.ac.jp/wheat/komugi/genes/macgene/supplement2009.pdf

McIntosh, R. A., Dubcovsky, J., Rogers, W. J., Morris, C. F., Appels, R., & Xia, X. C. (2010). Сatalogue Сatalogue of gene symbols for wheat: 2010 Supplement. Retrieved from https://shigen.nig.ac.jp/wheat/komugi/genes/macgene/supplement2010.pdf

McIntosh, R. A., Dubcovsky, J., Rogers, W. J., Morris, C. F., Appels, R., & Xia, X. C. (2011). Сatalogue Сatalogue of gene symbols for wheat: 2011 Supplement. Retrieved from https://shigen.nig.ac.jp/wheat/komugi/genes/macgene/supplement2011.pdf

McIntosh, R. A., Dubcovsky, J., Rogers, W. J., Morris, C. F., Appels, R., & Xia, X. C. (2012). Сatalogue Сatalogue of gene symbols for wheat: 2012 Supplement. Retrieved from https://shigen.nig.ac.jp/wheat/komugi/genes/macgene/supplement2012.pdf

McIntosh, R. A. , Dubcovsky, J., Rogers, W. J., Morris, C. F., Appels, R., & Xia, X. C. (2014). Сatalogue Сatalogue of gene symbols for wheat: 2013–2014 Supplement. Retrieved from https://shigen.nig.ac.jp/wheat/komugi/genes/macgene/supplement2013.pdf

McIntosh, R. A., Dubcovsky, J., Rogers, W. J., Morris, C. F., Appels, R., & Xia, X. C. (2016). Сatalogue Сatalogue of gene symbols for wheat: 2015–2016 Supplement. Retrieved from https://shigen.nig.ac.jp/wheat/komugi/genes/macgene/supplement2015.pdf

McIntosh, R. A. Dubcovsky, J., Rogers, W. J., Morris, C., Appels, R., & Xia, X. C. (2017). Сatalogue of gene symbols for wheat: 2017 Supplement. Retrieved from https://shigen.nig.ac.jp/wheat/komugi/genes/macgene/supplement2017.pdf

Wheat Leaf Rust Resistance Genes: Source, Genome Location, Low Infection Type and Tester Lines / United States Department of Agriculture. Retrieved from https://www.ars.usda.gov/ARSUserFiles/50620500/Resistancegenes/Lrgene.xls

The Plant List. Retrieved from http://www.theplantlist.org

Kovalyshyna, H. M. (2013). Genetic diversity of winter wheat varieties for resistance to brown rust. Zahist i karantin roslin [Protection and Plant Quarantine], 59, 137–146. [in Ukrainian]

Pershyna, L. A. (2014). Chromosom engineering of plants – biotechnology direction. Vavilovskii Zhurnal Genetiki i Selekcii [Vavilov Journal of Genetics and Breeding], 18(1), 138–146. [in Russian]

Shchapova, A. I., & Kravtsova, L. A. (1990). Tsitogenetika pshe­nichno-rzhanyih gibridov [Cytogenetics of wheat-rye hybrids]. Novosibirsk: Nauka. [in Russian]

Davoyan R. O., Bebyakina I. V., Davoyan O. R., Zinchenko, A. N., Davoyan, E. R., Kravchenko, A. M., & Zubanova, Y. S. (2012). Use of synthetic forms as a basis for the preservation and use of the gene pool of wild common wheat relatives. Vavilovskii Zhurnal Genetiki i Selekcii [Vavilov Journal of Genetics and Breeding], 16(1), 44–51. [in Russian]

Downloads

Published

2017-12-15

How to Cite

Ковалишина, Г. М., & Дмитренко, Ю. М. (2017). Sources of resistance to brown rust pathogen and their use in the development of soft wheat varieties. Plant Varieties Studying and Protection, 13(4), 379–386. https://doi.org/10.21498/2518-1017.13.4.2017.117742

Issue

Vol. 13 No. 4 (2017)

Section

GENETICS

License

Copyright (c) 2017 Г. М. Ковалишина, Ю. М. Дмитренко

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Our journal abides by the CREATIVE COMMONS copyright rights and permissions for open access journals.

Authors, who are published in this journal, agree to the following conditions:

1. The authors reserve the right to authorship of the work and pass the first publication right of this work to the journal under the terms of a Creative Commons Attribution License, which allows others to freely distribute the published research with the obligatory reference to the authors of the original work and the first publication of the work in this journal.

 2. The authors have the right to conclude separate supplement agreements that relate to non-exclusive work distribution in the form in which it has been published by the journal (for example, to upload the work to the online storage of the journal or publish it as part of a monograph), provided that the reference to the first publication of the work in this journal is included.