Abstract

Deficits in the mineral Zn are responsible for a sizable proportion of the world's disease burden and child mortality. With the increasing success rate of biofortification in major crops, the development of a genotype with enhanced Zn bioavailability will be an efficient and sustainable solution to nutrient deficiency-related problems. Due to the complex chemistry of the human system, the absorption of Zn from cereals is lower. This complexity is alleviated by phytate, a major phosphorus-storing compound in cereal and legume seeds, which negatively affects Zn binding. The results of recent studies on the distribution of elements and micronutrient speciation in seeds provide strong evidence for the presence of distinct Zn pools. This observation is supported by data from biofortified transgenic plant research. Several studies identify nicotinamide, a metal chelator, as a pivotal molecule. The loading of Zn into grains has been reported to increase with nicotinamide levels, which is a crucial finding. Intestinal Zn absorption can be greatly improved by nicotinamide. Furthermore, bioavailability tests suggest that the use of nano Zn-enabled devices could be an effective strategy to enable plant biofortification, which may significantly boost the Zn content in various cereal crops. This review comprehensively evaluated the scientific publications indexed in WoS, Scopus, and various other reliable databases and explored insights into how nano-enabled technology could be a solution for enhancing Zn content in cereal crops for combating malnutrition in humans.

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