Abstract
MicroRNAs are emerging players in plant development and response to stresses, both biotic and abiotic such as micronutrient deficiency. These small RNAs regulate cognate downstream targets either by transcript cleavage or translational inhibition. Micronutrient deficiencies lead to poor quality and yield of crops and impaired human health. Over the years several microRNAs have been identified which regulate expression of genes controlling uptake, mobilization and homeostasis of macronutrients such as nitrogen, phosphorus and sulfur to ensure sufficiency without toxicity. This review attempts to understand the roles played by micro RNAs involved in homeostasis of the micronutrients boron, manganese, zinc, copper, iron, molybdenum and nickel and the cross talk between them upon perception of nutritional stress. Notably and surprisingly, several micro RNAs are not specific for a particular micronutrient stress and the challenge remains to uncover ones (if any) that are directly relevant to the micronutrient. Current findings of this yet infant field could potentiate biotechnological applications towards biofortification, plant innate immunity and remedy heavy metal toxicity.
Keywords: Development, homeostasis, micro RNAs, micronutrients, mutants, overexpression, specificity, transcriptome.
Graphical Abstract