Background:
Micronutrient deficiencies are serious health issues in developing countries of Asia and Africa,
where millions of people are suffering from inadequate micronutrient intake. In Bangladesh, micronutrient deficiencies
are found severe due to low income, food habits, and rice-based staple food consumption, (rice has an insufficiency of
different types of vitamins and minerals). To lessen micronutrient malnutrition, supplementation has been employed but
has not yet reached the goal. Agronomic and genetic biofortification has the potential to address micronutrient
deficiencies. Biofortification in Rice grain is a convenient and affordable way to supply the desired micronutrients. The
development of micronutrient-rich popular rice cultivars through conventional breeding is currently being harnessed for
the limitation of natural resources of the related donor rice cultivars containing the required amount of micronutrients. To
overcome these hurdles of conventional breeding, genetic engineering and genome editing have emerged as promising
tools of micronutrient biofortification in rice.
Methods:
Identify the needs and explore the potential strategies by the search for relevant literature known to the authors
was carried out to complete this review.
Results:
Highlighted here the sources, functions, and requirements of iron, zinc, vitamin A, vitamin B1, vitamin B9, and
betanin in rice and their biofortification through conventional breeding, genetic engineering, and genome editing including
their promises and hindrances.
Conclusion:
New breeding techniques are timely alternatives for developing nutrient-rich rice cultivars to eliminate
hidden hunger and poverty in Bangladesh.