Journal article
Hotspots in the genomic architecture of field drought responses in wheat as breeding targets
S Gálvez, R Mérida-García, C Camino, P Borrill, M Abrouk, RH Ramírez-González, S Biyiklioglu, F Amil-Ruiz, G Dorado, H Budak, V Gonzalez-Dugo, PJ Zarco-Tejada, R Appels, C Uauy, P Hernandez
Functional and Integrative Genomics | SPRINGER HEIDELBERG | Published : 2019
Abstract
Wheat can adapt to most agricultural conditions across temperate regions. This success is the result of phenotypic plasticity conferred by a large and complex genome composed of three homoeologous genomes (A, B, and D). Although drought is a major cause of yield and quality loss in wheat, the adaptive mechanisms and gene networks underlying drought responses in the field remain largely unknown. Here, we addressed this by utilizing an interdisciplinary approach involving field water status phenotyping, sampling, and gene expression analyses. Overall, changes at the transcriptional level were reflected in plant spectral traits amenable to field-level physiological measurements, although change..
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Awarded by Junta de Andalucía
Funding Acknowledgements
This work was funded by project P12-AGR-0482 from Junta de Andalucia, Spain (Co-funded by FEDER); projects BIO2011-15237-E, AGL2016-77149-C2-1-P, and CGL2016-79790-P from MINECO (Spanish Ministry of Economy, Industry and Competitiveness); UK Biotechnology and Biological Sciences Research Council (BBSRC) through Designing Future Wheat (BB/P016855/1), GEN (BB/P013511/1), and an Anniversary Future Leaders Fellowship to PB (BB/M014045/1). HB was supported by the Montana Plant Science Endowment fund.