A NAC Gene Regulating Senescence Improves Grain Protein, Zinc, and Iron Content in Wheat
Cristóbal Uauy(United States Department of Agriculture), Assaf Distelfeld(United States Department of Agriculture), Tzion Fahima(United States Department of Agriculture), Ann E. Blechl(United States Department of Agriculture), Jorge Dubcovsky(United States Department of Agriculture)
Cited by 1,588Open Access
Abstract
Enhancing the nutritional value of food crops is a means of improving human nutrition and health. We report here the positional cloning of Gpc-B1, a wheat quantitative trait locus associated with increased grain protein, zinc, and iron content. The ancestral wild wheat allele encodes a NAC transcription factor (NAM-B1) that accelerates senescence and increases nutrient remobilization from leaves to developing grains, whereas modern wheat varieties carry a nonfunctional NAM-B1 allele. Reduction in RNA levels of the multiple NAM homologs by RNA interference delayed senescence by more than 3 weeks and reduced wheat grain protein, zinc, and iron content by more than 30%.
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