AUTHOR=Chaiwong Nanthana , Bouain Nadia , Prom-u-thai Chanakan , Rouached Hatem 

TITLE=Interplay Between Silicon and Iron Signaling Pathways to Regulate Silicon Transporter Lsi1 Expression in Rice

JOURNAL=Frontiers in Plant Science

VOLUME=11

YEAR=2020

URL=https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2020.01065

DOI=10.3389/fpls.2020.01065

ISSN=1664-462X

ABSTRACT=<p>Silicon (Si) is not an essential element, but it is a beneficial element for growth and development of many plant species. Nevertheless, how plants regulate the initial uptake of silicon (Si) remains poorly understood. It has been proposed that the regulation of Si uptake is largely regulated by Si availability. However, the current model is clearly reductionist and does not consider the availability of essential micro-elements such as iron (Fe). Therefore, the present study investigates the regulation of the Si transporter <italic>Lsi1</italic>, in three rice varieties grown under different Si and Fe regimes. The <italic>Lsi1</italic> transcript was compared to intracellular concentrations of Si and Fe in roots. The amount of <italic>Lsi1</italic> transcript was mainly altered in response to Si-related treatments. Split-root experiments showed that the expression of <italic>Lsi1</italic> is locally and systemically regulated in response to Si signals. Interestingly, the accumulation of <italic>Lsi1</italic> transcripts appeared to be dependent on Fe availability in root growth environment. Results suggest that the expression of <italic>Lsi1</italic> depends on a regulatory network that integrates Si and Fe signals. This response was conserved in the three rice cultivars tested. This finding is the first step toward a better understanding of the co-regulation of Si homeostasis with other essential nutrients in plants. Finally, our data clearly show that a better understanding of Si/Fe signaling is needed to define the fundamental principles supporting plant health and nutrition.</p>