Scaling‐up biofortified beans high in iron and zinc through the school‐feeding program: A sensory acceptance study with schoolchildren from two departments in southwest Colombia.Provitamin A Carotenoids in Grain Reduce Aflatoxin Contamination of Maize While Combating Vitamin A DeficiencyCorrigendum: Pathway Editing Targets for Thiamine Biofortification in Rice GrainsBiofortified Maize Can Improve Quality Protein Intakes among Young Children in Southern EthiopiaCharacterization of Bioactive Compounds, Mineral Content, and Antioxidant Activity in Bean Varieties Grown with Traditional Methods in Oaxaca, MexicoIdentification of Enzymatic Cleavage Products of β-Carotene-Rich Extracts of Kale and Biofortified MaizeA Randomized Feeding Trial of Iron-Biofortified Beans on School Children in MexicoNutritional potential of wild sorghum: Grain quality of Sudanese wild sorghum genotypes ( L. Moench)Changes in Iron Status Are Related to Changes in Brain Activity and Behavior in Rwandan Female University Students: Results from a Randomized Controlled Efficacy Trial Involving Iron-Biofortified BeansPromoting rapid and sustained adoption of biofortified crops: What we learned from iron-biofortified bean delivery approaches in RwandaImproving wheat as a source of iron and zinc for global nutritionBiofortification of Six Varieties of Lettuce ( L.) With Iodine and Selenium in Combination With the Application of Salicylic AcidGenome-Wide Association Mapping of Grain Micronutrients Concentration inAhNRAMP1 Enhances Manganese and Zinc Uptake in PlantsImproved folate accumulation in genetically modified maize and wheatBiotechnological Approaches for Generating Zinc-Enriched Crops to Combat MalnutritionCarotenoids retention in biofortified yellow cassava processed with traditional African methods
P921
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P921
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