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Transport and regulatory mechanisms of boron in plants

Dan Zhou, Rui Luo, Bojun Ma, Xifeng Chen

2025Frontiers in Plant Science5 citationsDOIOpen Access PDF

Abstract

Boron (B) is a vital micronutrient necessary for the proper development of plants. However, B exhibits a very narrow concentration range between deficiency and toxicity in plants, making precise regulatory control over its uptake, translocation, and cellular efflux critical for maintaining overall B homeostasis. Genetic analyses of Arabidopsis thaliana show that boron uptake and translocation are mediated by two families of transmembrane transporter proteins: NIPs (nodulin-26-like intrinsic proteins), which facilitate the permeation of boric acid, and BORs, responsible for exporting borate from cells. Importantly, the identification and characterization of NIPs and BORs have been essential for elucidating B homeostasis and its physiological roles not only in Arabidopsis but also in diverse plant species. Furthermore, the homeostasis of B is maintained by multi-level regulation of its transport proteins, including transcriptional modulation, mRNA stability, translational repression, and endocytic degradation. Moreover, modulating B transport gene expression to enhance tolerance to B deficiency or toxicity can improve plant growth under unfavorable B nutrient conditions. Therefore, generating B-efficient or B-tolerant plants is a cost-effective and sustainable agricultural strategy. In this review, we discuss the physiological roles of B transport proteins and their regulatory mechanisms, focusing on intracellular localization and abundance.

Topics & Concepts

ArabidopsisCell biologyIntracellularTransport proteinArabidopsis thalianaTransporterBiologyChemistryEffluxBiochemistryMembrane transportTransmembrane proteinChromosomal translocationRegulation of gene expressionGeneGene expressionEndosomeCompartmentalization (fire protection)VacuoleSubcellular localizationTransgeneHeterologous expressionMembrane transport proteinHomeostasisBiophysicsApoplastMicronutrientPlant cellAquaporinYeastCytosolBoronSolute carrier familyPlant Micronutrient Interactions and EffectsPlant nutrient uptake and metabolismPotato Plant Research
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