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K. Kocheva, T. Kartseva, S. Landjeva, G. Georgiev (2009)
Physiological Response of Wheat Seedlings to Mild and Severe Osmotic StressCereal Research Communications, 37
V. Alexieva, I. Sergiev, S. Mapelli, E. Karanov (2001)
The effect of drought and ultraviolet radiation on growth and stress markers in pea and wheatPlant Cell and Environment, 24
J. Flintham, M. Gale (1982)
The Tom Thumb dwarfing gene, Rht3 in wheat, I. Reduced pre-harvest damage to breadmaking qualityTheoretical and Applied Genetics, 62
Devarshi Selote, R. Khanna-Chopra (2006)
Drought acclimation confers oxidative stress tolerance by inducing co‐ordinated antioxidant defense at cellular and subcellular level in leaves of wheat seedlingsPhysiologia Plantarum, 127
L. Bates, R. Waldren, I. Teare (1973)
Rapid determination of free proline for water-stress studiesPlant and Soil, 39
H. Aebi (1983)
Methods of Enzymatic Analysis
J. Hoogendoorn, J. Rickson, M. Gale (1990)
Differences in Leaf and Stem Anatomy Related to Plant Height of Tall and Dwarf Wheat (Triticum aestivum L.)Journal of Plant Physiology, 136
A. Blum, C. Sullivan, H. Nguyen (1997)
The effect of plant size on wheat response to agents of drought stress. II. Water deficit, heat and ABAAustralian Journal of Plant Physiology, 24
P. Achard, J. Renou, R. Berthomé, N. Harberd, P. Genschik (2008)
Plant DELLAs Restrain Growth and Promote Survival of Adversity by Reducing the Levels of Reactive Oxygen SpeciesCurrent Biology, 18
A. Börner, V. Korzun, A. Worland (2004)
Comparative genetic mapping of loci affecting plant height and development in cerealsEuphytica, 100
I. Cakmak, W. Horst (1991)
Effect of aluminium on lipid peroxidation, superoxide dismutase, catalase, and peroxidase activities in root tips of soybean (Glycine max)Physiologia Plantarum, 83
Bok-Rye Lee, Kil‐Yong Kim, W. Jung, J. Avice, A. Ourry, Tae-Hwan Kim (2007)
Peroxidases and lignification in relation to the intensity of water-deficit stress in white clover (Trifolium repens L.).Journal of experimental botany, 58 6
Jinrong Peng, D. Richards, N. Hartley, G. Murphy, K. Devos, J. Flintham, J. Beales, L. Fish, A. Worland, F. Pelica, D. Sudhakar, P. Christou, J. Snape, M. Gale, N. Harberd (1999)
‘Green revolution’ genes encode mutant gibberellin response modulatorsNature, 400
Matysik J.Alia, B. Bhalu, P. Mohanty (2002)
MOLECULAR MECHANISMS OF QUENCHING OF REACTIVE OXYGEN SPECIES BY PROLINE UNDER STRESS IN PLANTSCurrent Science, 82
M. Hanin, F. Brini, C. Ebel, Y. Toda, S. Takeda, K. Masmoudi (2011)
Plant dehydrins and stress tolerance: versatile proteins for complex mechanisms, 6
P. Achard, F. Gong, Soizic Cheminant, Malek Alioua, P. Hedden, P. Genschik (2008)
The Cold-Inducible CBF1 Factor–Dependent Signaling Pathway Modulates the Accumulation of the Growth-Repressing DELLA Proteins via Its Effect on Gibberellin Metabolism[W]The Plant Cell Online, 20
N. Verbruggen, C. Hermans (2008)
Proline accumulation in plants: a reviewAmino Acids, 35
P. Hedden (2003)
The genes of the Green Revolution.Trends in genetics : TIG, 19 1
P. Achard, Huiyuan Cheng, Liesbeth Grauwe, J. Decat, Hermien Schoutteten, T. Moritz, D. Straeten, Jinrong Peng, N. Harberd (2006)
Integration of Plant Responses to Environmentally Activated Phytohormonal SignalsScience, 311
Y. Nakano, K. Asada (1987)
Purification of ascorbate peroxidase in spinach chloroplasts; its inactivation in ascorbate-depleted medium and reactivation by monodehydroascorbate radicalPlant and Cell Physiology, 28
J. Bai, C. Gong, Kang Chen, Hong Kang, G. Wang (2009)
Examination of Antioxidative System’s Responses in the Different Phases of Drought Stress and During Recovery in Desert Plant Reaumuria soongorica (Pall.) MaximJournal of Plant Biology, 52
N. Harberd (2003)
Relieving DELLA RestraintScience, 299
M. Hanin, F. Brini, C. Ebel, Y. Toda, S. Takeda, K. Masmoudi (2011)
Plant dehydrins and stress tolerancePlant Signaling & Behavior, 6
R. Saville, N. Gosman, C. Burt, J. Makepeace, A. Steed, M. Corbitt, E. Chandler, James Brown, Margaret Boulton, Paul Nicholson (2011)
The ‘Green Revolution’ dwarfing genes play a role in disease resistance in Triticum aestivum and Hordeum vulgareJournal of Experimental Botany, 63
H. Chen, J. G. Jing (2010)
Osmotic adjustment and plant adaptation to environmental changes related to drought and salinity, 18
S. Evett (2008)
Field Estimation of Soil Water Content. A Practical Guide to Methods, Instrumentation and Sensor Technologies
Stephen Pearce, R. Saville, S. Vaughan, P. Chandler, E. Wilhelm, C. Sparks, N. Al-Kaff, Andrey Korolev, M. Boulton, A. Phillips, P. Hedden, P. Nicholson, Stephen Thomas (2011)
Molecular Characterization of Rht-1 Dwarfing Genes in Hexaploid Wheat12[C][W][OA]Plant Physiology, 157
Wen Wen, Qingyan Deng, H. Jia, Lingzhu Wei, Jing Wei, H. Wan, Liming Yang, Wenjin Cao, Zhengqiang Ma (2013)
Sequence variations of the partially dominant DELLA gene Rht-B1c in wheat and their functional impactsJournal of Experimental Botany, 64
Hannes Claeys, D. Inzé (2013)
The Agony of Choice: How Plants Balance Growth and Survival under Water-Limiting Conditions1Plant Physiology, 162
K. Forrest, M. Bhave (2007)
Major intrinsic proteins (MIPs) in plants: a complex gene family with major impacts on plant phenotypeFunctional & Integrative Genomics, 7
L. Gara, V. Locato, S. Dipierro, M. Pinto (2010)
Redox homeostasis in plants. The challenge of living with endogenous oxygen productionRespiratory Physiology & Neurobiology, 173
M. Farooq, Muhammad Irfan, T. Aziz, Ibrar Ahmad, S. Cheema (2013)
Seed Priming with Ascorbic Acid Improves Drought Resistance of WheatJournal of Agronomy and Crop Science, 199
J. Flintham, A. Börner, A. Worland, M. Gale (1997)
Optimizing wheat grain yield: effects of Rht (gibberellin-insensitive) dwarfing genesThe Journal of Agricultural Science, 128
S. Landjeva, V. Korzun, E. Stoimenova, B. Truberg, G. Ganeva, A. Börner (2007)
The contribution of the gibberellin-insensitive semi-dwarfing (Rht) genes to genetic variation in wheat seedling growth in response to osmotic stressThe Journal of Agricultural Science, 146
P. Achard, W. Vriezen, D. Straeten, N. Harberd (2003)
Ethylene Regulates Arabidopsis Development via the Modulation of DELLA Protein Growth Repressor Function Article, publication date, and citation information can be found at www.plantcell.org/cgi/doi/10.1105/tpc.015685.The Plant Cell Online, 15
A. Börner, A. Worland, J. Plaschke, E. Schumann, C. Law (1993)
Pleiotropic Effects of Genes for Reduced Height (Rht) and Day‐Length Insensitivity (Ppd) on Yield and its Components for Wheat Grown in Middle EuropePlant Breeding, 111
Sondeep Singh, A. Gupta, N. Kaur (2012)
Differential Responses of Antioxidative Defence System to Long‐Term Field Drought in Wheat (Triticum aestivum L.) Genotypes Differing in Drought ToleranceJournal of Agronomy and Crop Science, 198
A. Blum, A. Ebercon (1981)
Cell Membrane Stability as a Measure of Drought and Heat Tolerance in Wheat1Crop Science, 21
E. Yemm, E. Cocking, R. Ricketts (1955)
The determination of amino-acids with ninhydrinAnalyst, 80
D. Lawlor, W. Tezara (2009)
Causes of decreased photosynthetic rate and metabolic capacity in water-deficient leaf cells: a critical evaluation of mechanisms and integration of processes.Annals of botany, 103 4
R. Sairam, D. Saxena (2000)
Oxidative Stress and Antioxidants in Wheat Genotypes: Possible Mechanism of Water Stress ToleranceJournal of Agronomy and Crop Science, 184
G. Ashwell (1966)
New colorimetric methods of sugar analysis, VI. The phenol‐sulfuric acid reaction for carbohydrates, 8
S. Landjeva, T. Karceva, V. Korzun, G. Ganeva (2011)
Seedling growth under osmotic stress and agronomic traits in Bulgarian semi-dwarf wheat: comparison of genotypes with Rht8 and/or Rht-B1 genesCrop & Pasture Science, 62
P. Achard, P. Genschik (2009)
Releasing the brakes of plant growth: how GAs shutdown DELLA proteins.Journal of experimental botany, 60 4
B. Chance, A. Maehly (1955)
Methods in Enzymology
J. Kaiser, Yilin Hu, J. Wiig, D. Rees, M. Ribbe (2011)
Structure of Precursor-Bound NifEN: A Nitrogenase FeMo Cofactor Maturase/InsertaseScience, 331
M. Bradford (1976)
A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding.Analytical biochemistry, 72
F. Alghabari, M. Lukac, H. Jones, M. Gooding (2017)
Effect of Rht alleles on the tolerance of wheat grain set to high temperature and drought stress during booting
G. Ashwell (1966)
[6] New colorimetric methods of sugar analysisMethods in Enzymology, 8
A. Blum (2011)
Plant Breeding for Water‐Limited Environments
N. Harberd, E. Belfield, Yuki Yasumura (2009)
The Angiosperm Gibberellin-GID1-DELLA Growth Regulatory Mechanism: How an “Inhibitor of an Inhibitor” Enables Flexible Response to Fluctuating EnvironmentsThe Plant Cell Online, 21
F. Alghabari, M. Lukac, H. E. Jones, M. J. Gooding (2013)
Effect of Rht alleles on the tolerance of wheat grain set to high temperature and drought stress during booting and anthesis
Chunrong Wang, A. Yang, Haiying Yin, Juren Zhang (2008)
Influence of water stress on endogenous hormone contents and cell damage of maize seedlings.Journal of integrative plant biology, 50 4
K. Apel, H. Hirt (2004)
Reactive oxygen species: metabolism, oxidative stress, and signal transduction.Annual review of plant biology, 55
G. Noctor, S. Veljović-Jovanović, S. Driscoll, L. Novitskaya, C. Foyer (2002)
Drought and oxidative load in the leaves of C3 plants: a predominant role for photorespiration?Annals of botany, 89 Spec No
I. Sperdouli, Michael Moustakas (2012)
Interaction of proline, sugars, and anthocyanins during photosynthetic acclimation of Arabidopsis thaliana to drought stress.Journal of plant physiology, 169 6
Feng Qin, K. Shinozaki, K. Yamaguchi-Shinozaki (2011)
Achievements and challenges in understanding plant abiotic stress responses and tolerance.Plant & cell physiology, 52 9
Water deficiency is a major constraint to wheat productivity in drought prone regions. The wheat DELLA‐encoding height‐reducing genes (Rht) are associated with significant increase in grain yield. However, the knowledge of their benefit in dry environments is insufficient. The objective of the study was to examine the effect of induced drought on leaf water content, level of oxidative stress, cell membrane stability, accumulation of osmoprotectants and activity of some antioxidant enzymes in wheat near‐isogenic lines carrying the alleles Rht‐B1b (semidwarfing) and Rht‐B1c (dwarfing) in comparison with the tall control Rht‐B1a. Six‐day‐long water deprivation was imposed at seedling stage. Plants carrying Rht‐B1c and, to a lesser extent, those carrying Rht‐B1b performed better under stress compared with Rht‐B1a in terms of more sustained membrane integrity, enhanced osmoregulation and better antioxidant defence. These differential responses could reflect pleiotropic effects of the Rht‐B1 gene associated with the accumulation of the mutant gene product, that is, altered DELLA proteins, or might be related to allelic variations at neighbouring loci carrying candidate genes for proteins with a major role in plant water regulations and stress adaptation. These findings might be of importance to breeders when introducing Rht‐B1 alleles into wheat cultivars designed to be grown in drought liable regions.
Journal of Agronomy and Crop Science – Wiley
Published: Jan 1, 2014
Keywords: ; ; ; ; ; ;
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