Drought-tolerant wheat for enhancing global food security

Abdallah NA, Elsharawy H, Abulela HA, Thilmony R, Abdelhadi AA, Elarabi NI (2022) Multiplex CRISPR/Cas9-mediated genome editing to address drought tolerance in wheat. GM Crops Food 6:1–17

Article  Google Scholar 

Abdolshahi R, Safarian A, Nazari M, Pourseyedi S, Mohamadi-Nejad G (2013) Screening drought-tolerant genotypes in bread wheat (Triticum aestivum L) using different multivariate methods. Arch Agron Soil Sci 59:685–704

Article  Google Scholar 

Aberkane H, Payne T, Kishi M, Smale M, Amri A, Jamora N (2020) Transferring diversity of goat grass to farmers’ fields through the development of synthetic hexaploid wheat. Food Secur 12:1017–1033

Article  Google Scholar 

Abid M, Tian Z, Ata-Ul-Karim ST, Liu Y, Cui Y, Zahoor R, Jiang D, Dai T (2016) Improved tolerance to post-anthesis drought stress by pre-drought priming at vegetative stages in drought-tolerant and-sensitive wheat cultivars. Plant Physiol Biochem 106:218–227

Article  CAS  PubMed  Google Scholar 

Abido WAE, Zsombik L (2018) Effect of water stress on germination of some Hungarian wheat landraces varieties. Acta Ecol Sin 38:422–428

Article  Google Scholar 

Abou-Elwafa SF, Shehzad T (2021) Genetic diversity GWAS and prediction for drought and terminal heat stress tolerance in bread wheat (Triticum aestivum L). Genet Resour Crop Evol 68:711–728

Article  CAS  Google Scholar 

Afzal F, Li H, Gul A, Subhani A, Ali A, Mujeeb-Kazi A, Ogbonnaya F, Trethowan R, Xia X, He Z, Rasheed A (2019) Genome-Wide Analyses Reveal Footprints of Divergent Selection and Drought Adaptive Traits in Synthetic-Derived Wheats. G3(Bethesda) G3(Bethesda):1957–1973

Google Scholar 

Aguado A, Capote N, Romero F, Dodd IC, Colmenero-Flores JM (2014) Physiological and gene expression responses of sunflower (Helianthus annuus L) plants differ according to irrigation placement. Plant Sci 227:37–44

Article  CAS  PubMed  Google Scholar 

Alahmad S, El Hassouni K, Bassi FM et al (2019) A Major Root Architecture QTL Responding to Water Limitation in Durum Wheat. Front Plant Sci 10:436

Article  PubMed  PubMed Central  Google Scholar 

Alipour H, Abdi H, Rahimi Y, Bihamta MR (2021) Dissection of the genetic basis of genotype-by-environment interactions for grain yield and main agronomic traits in Iranian bread wheat landraces and cultivars. Sci Rep 11:1–17

Article  Google Scholar 

Amalova A, Abugalieva S, Babkenov A, Babkenova S, Turuspekov Y (2021) Genome-wide association study of yield components in spring wheat collection harvested under two water regimes in Northern Kazakhstan. Peer J 9:11857

Article  Google Scholar 

Aprile A, Mastrangelo AM, De Leonardis AM, Galiba G, Roncaglia E, Ferrari F, De Bellis L, Turchi L, Giuliano G, Cattivelli L (2009) Transcriptional profiling in response to terminal drought stress reveals differential responses along the wheat genome. BMC Genomics 10:279

Article  PubMed  PubMed Central  Google Scholar 

Bacher H, Sharaby Y, Walia H, Peleg Z (2022) Modifying root-to-shoot ratio improves root water influxes in wheat under drought stress. J Exp Bot 73:1643–1654

Article  CAS  PubMed  Google Scholar 

Bajgain P, Rouse MN, Tsilo TJ, Macharia GK, Bhavani S, Jin Y, Anderson JA (2016) Nested association mapping of stem rust resistance in wheat using genotyping by sequencing. PLoS ONE 11:e0155760

Article  PubMed  PubMed Central  Google Scholar 

Ballesta P, Mora F, Del Pozo A (2019) Association mapping of drought tolerance indices in wheat: QTL-rich regions on chromosome 4A. Sci Agric 77:2

Google Scholar 

Bansal R, Pradheep K, Kumari J, Kumar S, Yadav MC, Gurung B, Kumari MKP, Rana JC (2016) Physiological and biochemical evaluation for drought tolerance in wheat germplasm collected from arid western plains of India. Indian J Biochem Biophys 53:212–217

CAS  Google Scholar 

Banerjee K, Krishnan P, Das B (2020) Thermal imaging and multivariate techniques for characterizing and screening wheat genotypes under water stress condition. Ecol Indic 119

Becker SR, Byrne PF, Reid SD, Bauerle WL, McKay JK, Haley SD (2016) Root traits contributing to drought tolerance of synthetic hexaploid wheat in a greenhouse study. Euphytica 207:213–224

Article  CAS  Google Scholar 

Benitez-Alfonso Y, Soanes BK, Zimba S et al (2023) Enhancing climate change resilience in agricultural crops. Curr Biol 33:R1246–R1261

Article  CAS  PubMed  Google Scholar 

Bennett D, Reynolds M, Mullan D, Izanloo A, Kuchel H, Langridge P, Schnurbusch T (2012) Detection of two major grain yield QTL in bread wheat (Triticum aestivum L) under heat drought and high yield potential environments. Theor Appl Genet 125:1473–1485

Article  PubMed  Google Scholar 

Bhandari M, Baker S, Rudd JC, Ibrahim AMH, Chang A, Xue Q, Jung J, Landivar J, Auvermann B (2021) Assessing the effect of drought on winter wheat growth using unmanned aerial system (UAS)-based phenotyping. Remote Sensing 13:1144

Article  Google Scholar 

Bhatta M, Morgounov A, Belamkar V, Baenziger PS (2018) Genome-wide association study reveals novel genomic regions for grain yield and yield-related traits in drought-stressed synthetic hexaploid wheat. Inter J Mol Sci 19:3011

Article  Google Scholar 

Bhat JA, Yu D, Bohra A, Ganie SA, Varshney RK (2021) Features and applications of haplotypes in crop breeding. Communications Biology 4:1266

Article  CAS  PubMed  PubMed Central  Google Scholar 

Bhullar NK, Street K, Mackay M, Yahiaoui N, Keller B (2009) Unlocking wheat genetic resources for the molecular identification of previously undescribed functional alleles at the Pm3 resistance locus. Proc Natl Acad Sci USA 106:9519–9524

Article  CAS  PubMed  PubMed Central  Google Scholar 

Bi H, Luang S, Li Y, Bazanova N, Morran S, Song Z, Perera MA, Hrmova M, Borisjuk N, Lopato S (2016) Identification and characterization of wheat drought-responsive MYB transcription factors involved in the regulation of cuticle biosynthesis. J Exp Bot 67:5363–5380

Article  CAS  PubMed  PubMed Central  Google Scholar 

Bonneau J, Taylor J, Parent B, Bennett D, Reynolds M, Feuillet C, Langridge P, Mather D (2013) Multi-environment analysis and improved mapping of a yield-related QTL on chromosome 3B of wheat. Theor Appl Genet 126:747–761

Article  CAS  PubMed  Google Scholar 

Bonnett D, Li Y, Crossa J et al (2022) Response to Early Generation Genomic Selection for Yield in Wheat. Front Plant Sci 12:718611

Article  PubMed  PubMed Central  Google Scholar 

Bohra A (2013) Emerging paradigms in genomics-based crop improvement. Sci World J 2013:585467

Bouard W, Ouellet F, Houde M (2024) Modulation of the wheat transcriptome by TaZFP13D under well-watered and drought conditions. Plant Mol Biol 114:16

Article  CAS  PubMed  PubMed Central  Google Scholar 

Brini F, Hanin M, Mezghani I, Berkowitz GA, Masmoudi K (2007) Overexpression of wheat Na+/H + antiporter TNHX1 and H+-pyrophosphatase TVP1 improve salt- and drought-stress tolerance in Arabidopsis thaliana plants. J Exp Bot 58:301–308

Article  CAS  PubMed  Google Scholar 

Brinton J, Ramirez-Gonzalez RH, Simmonds J, Wingen L, Orford S, Griffiths S, 10 Wheat Genome Project, Haberer G, Spannagl M, Walkowiak S, Pozniak C, Uauy C (2020) A haplotype-led approach to increase the precision of wheat breeding. Commun Biol 3(1):712

Article  Google Scholar 

Bürling K, Cerovic ZG, Cornic G, Ducruet JM, Noga G, Hunsche M (2013) Fluorescence-based sensing of drought-induced stress in the vegetative phase of four contrasting wheat genotypes. Environ Exp Bot 89:51–59

Article  Google Scholar 

Cataldo E, Salvi L, Mattii GB (2021) Effects of irrigation on ecophysiology sugar content and thiol precursors (3-S-cysteinylhexan-1-ol and 3-S-glutathionylhexan-1-ol) on Vitis vinifera cv Sauvignon Blanc. Plant Physiol Biochem 164:247–259

Article  CAS  PubMed  Google Scholar 

Cheng L, Wang Y, He Q et al (2016) Comparative proteomics illustrates the complexity of drought resistance mechanisms in two wheat (Triticum aestivum L.) cultivars under dehydration and rehydration. BMC Plant Biol 16:188

Choudhary M, Wani SH, Kumar P, Bagaria PK, Rakshit S, Roorkiwal M, Varshney RK (2019) QTLian breeding for climate resilience in cereals: progress and prospects. Funct Integr Genomics 9:685–701

Article  Google Scholar 

Coatsworth P, Gonzalez-Macia L, Collins ASP, Bozkurt T, Güder F (2023) Continuous monitoring of chemical signals in plants under stress. Nat Rev Chem 7:7–25

Article  PubMed  Google Scholar 

Condorelli GE, Maccaferri M, Newcomb M et al (2018) Comparative aerial and ground based high throughput phenotyping for the genetic dissection of NDVI as a proxy for drought adaptive traits in durum wheat. Front Plant Sci 9:893

Article  PubMed  PubMed Central  Google Scholar 

Condorelli GE, Newcomb M, Groli EL et al (2022) Genome Wide Association Study Uncovers the QTLome for Osmotic Adjustment and Related Drought Adaptive Traits in Durum Wheat. Genes (Basel) 13:293

留言 (0)

沒有登入
gif