EMS derived wheat mutant BIG8-1 (Triticum aestivum L.)— a new drought tolerant mutant wheat line

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dc.contributor.author Le Roux, Marlon-Schylor L.
dc.contributor.author Burger, Nicolas Francois V.
dc.contributor.author Vlok, Mare
dc.contributor.author Kunert, Karl J.
dc.contributor.author Cullis, Christopher A.
dc.contributor.author Botha, Anna-Maria
dc.date.accessioned 2022-04-11T10:43:36Z
dc.date.available 2022-04-11T10:43:36Z
dc.date.issued 2021-05-18
dc.description.abstract Drought response in wheat is considered a highly complex process, since it is a multigenic trait; nevertheless, breeding programs are continuously searching for new wheat varieties with characteristics for drought tolerance. In a previous study, we demonstrated the effectiveness of a mutant known as RYNO3936 that could survive 14 days without water. In this study, we reveal another mutant known as BIG8-1 that can endure severe water deficit stress (21 days without water) with superior drought response characteristics. Phenotypically, the mutant plants had broader leaves, including a densely packed fibrous root architecture that was not visible in the WT parent plants. During mild (day 7) drought stress, the mutant could maintain its relative water content, chlorophyll content, maximum quantum yield of PSII (Fv/Fm) and stomatal conductance, with no phenotypic symptoms such as wilting or senescence despite a decrease in soil moisture content. It was only during moderate (day 14) and severe (day 21) water deficit stress that a decline in those variables was evident. Furthermore, the mutant plants also displayed a unique preservation of metabolic activity, which was confirmed by assessing the accumulation of free amino acids and increase of antioxidative enzymes (peroxidases and glutathione S-transferase). Proteome reshuffling was also observed, allowing slow degradation of essential proteins such as RuBisCO during water deficit stress. The LC-MS/MS data revealed a high abundance of proteins involved in energy and photosynthesis under well-watered conditions, particularly Serpin-Z2A and Z2B, SGT1 and Calnexin-like protein. However, after 21 days of water stress, the mutants expressed ABC transporter permeases and xylanase inhibitor protein, which are involved in the transport of amino acids and protecting cells, respectively. This study characterizes a new mutant BIG8-1 with drought-tolerant characteristics suited for breeding programs. en_US
dc.description.department Forestry and Agricultural Biotechnology Institute (FABI) en_US
dc.description.department Plant Production and Soil Science en_US
dc.description.librarian am2021 en_US
dc.description.sponsorship The National Research Foundation of South Africa (NRF Competitive Programme for Rated Researchers (CPRR); NRF Incentive Funding for Rated Researchers Programme (IFR) and the Winter Cereal Trust. en_US
dc.description.uri https://www.mdpi.com/journal/ijms en_US
dc.identifier.citation le Roux, M.-S.L.; Burger, N.F.V.; Vlok, M.; Kunert, K.J.; Cullis, C.A.; Botha, A.-M. EMS Derived Wheat Mutant BIG8-1 (Triticum aestivum L.)—A New Drought Tolerant Mutant Wheat Line. International Journal of Molecular Sciences 2021, 22, 5314. https://DOI.org/10.3390/ijms22105314. en_US
dc.identifier.issn 1661-6596 (print)
dc.identifier.issn 1422-0067 (online)
dc.identifier.other 10.3390/ijms22105314
dc.identifier.uri https://repository.up.ac.za/handle/2263/84869
dc.language.iso en en_US
dc.publisher MDPI Publishing en_US
dc.rights © 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license. en_US
dc.subject Water deficit stress en_US
dc.subject Proteome en_US
dc.subject Physiological responses en_US
dc.subject Enhanced water deficit stress tolerance en_US
dc.title EMS derived wheat mutant BIG8-1 (Triticum aestivum L.)— a new drought tolerant mutant wheat line en_US
dc.type Article en_US


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