Comparative physiological and metabolomics analysis of wheat (Triticum aestivum L.) following post-anthesis heat stress
by | ||
PloS one, ISSN 1932-6203, 06/2018, Volume 13, Issue 6, p. e0197919 | ||
Genetic improvement for stress tolerance requires a solid understanding of biochemical processes involved with different physiological mechanisms and their... Agricultural production, Agronomy, Amino acids, Arabidopsis, Bioindicators, Biology and Life Sciences, Biomarkers, Biosynthesis, Climate change, Corn, Correlation, Cultivars, Damage accumulation, Drought, Ecology and Environmental Sciences, Flowers - growth & development, Genetic aspects, Genetic diversity, Genetic variability, Genotypes, Growth, Hardiness, Heat, Heat stress, Heat tolerance, Heat treatment, Heat-Shock Response, High temperature, Leaves, Metabolism, Metabolites, Metabolomics, Nitric oxide, Phenotype, Phenotypes, Physical Sciences, Physiology, Plant hardiness, Plant metabolites, Plants, Properties, Temperature effects, Triticum - growth & development, Triticum - metabolism, Triticum - physiology, Triticum aestivum, tRNA, Tryptophan, Wheat |
||
Journal Article: Full Text Online |