Abstract

Although boron (B) is an element that has long been assumed to be an essential plant micronutrient, this assumption has been recently questioned. Cumulative evidence has demonstrated that the players associated with B uptake and translocation by plant roots include a sophisticated set of proteins used to cope with B levels in the soil solution. Here, we summarize compelling evidence supporting the essential role of B in mediating plant developmental programs. Overall, most plant species studied to date have exhibited specific B transporters with tight genetic coordination in response to B levels in the soil. These transporters can uptake B from the soil, which is a highly uncommon occurrence for toxic elements. Moreover, the current tools available to determine B levels cannot precisely determine B translocation dynamics. We posit that B plays a key role in plant metabolic activities. Its importance in the regulation of development of the root and shoot meristem is associated with plant developmental phase transitions, which are crucial processes in the completion of their life cycle. We provide further evidence that plants need to acquire sufficient amounts of B while protecting themselves from its toxic effects. Thus, the development of in vitro and in vivo approaches is required to accurately determine B levels, and subsequently, to define unambiguously the function of B in terrestrial plants.

Highlights

  • Greice Leal Pereira, João Antonio Siqueira, Willian Batista-Silva, Flávio Barcellos Cardoso, Adriano Nunes-Nesi and Wagner L

  • We summarize compelling evidence supporting the essential role of B in mediating plant developmental programs

  • This implies that combining B tolerance alleles with the level of B in the soil is important for mediating plant developmental programs

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Summary

THE COMPLEXITY THAT LIES BEHIND THE ELEMENT BORON

Boron (B) was first described in the 1920s by a demonstration wherein Vicia faba L. (field bean) and other plants exhibited reduced root growth in the absence of B, but this could partially be rescued following the resupply of B (Warington, 1923). Boron (B) was first described in the 1920s by a demonstration wherein Vicia faba L. (field bean) and other plants exhibited reduced root growth in the absence of B, but this could partially be rescued following the resupply of B (Warington, 1923). It was suggested that B might play a pivotal role during the transition from aquatic to terrestrial environments, driving this evolutionary transition in plants (Lewis, 1980). Studies on the first vascular plant Zosterophyllum shengfengense suggested that B is primordial and originated in the root system in the terrestrial environment (Lewis, 1980)

On the Essentiality of Boron
BORON DYNAMICS AND TRANSPORT INSIDE PLANTS
BORON TRANSLOCATION AND DISTRIBUTION
BORON MEDIATING DEVELOPMENTAL TRANSITIONS IN BOTH SHOOTS AND ROOTS
CONCLUSION AND FUTURE PERSPECTIVES

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