Abstract
Low inorganic phosphate (Pi) availability triggers an array of spatiotemporal adaptive responses in Arabidopsis (Arabidopsis thaliana). There are several reports on the effects of Pi deprivation on the root system that have been attributed to different growth conditions and/or inherent genetic variability. Here we show that the gelling agents, largely treated as inert components, significantly affect morphophysiological and molecular responses of the seedlings to deficiencies of Pi and other nutrients. Inductively coupled plasma-mass spectroscopy analysis revealed variable levels of elemental contaminants not only in different types of agar but also in different batches of the same agar. Fluctuating levels of phosphorus (P) in different agar types affected the growth of the seedlings under Pi-deprivation condition. Since P interacts with other elements such as iron, potassium, and sulfur, contaminating effects of these elements in different agars were also evident in the Pi-deficiency-induced morphological and molecular responses. P by itself acted as a contaminant when studying the responses of Arabidopsis to micronutrient (iron and zinc) deficiencies. Together, these results highlighted the likelihood of erroneous interpretations that could be easily drawn from nutrition studies when different agars have been used. As an alternative, we demonstrate the efficacy of a sterile and contamination-free hydroponic system for dissecting morphophysiological and molecular responses of Arabidopsis to different nutrient deficiencies.
Highlights
Low inorganic phosphate (Pi) availability triggers an array of spatiotemporal adaptive responses in Arabidopsis (Arabidopsis thaliana)
To further address disparities in Pi-starvation responses, we investigated the effects of the elemental composition of different batches and types of agar on morphophysiological and molecular responses of Pideprived Arabidopsis seedlings
We evaluated the effects of short-term Pi deprivation (2 d) on seedlings grown on Pi-deficient medium prepared with four different types of agar: Sigma A-1, Sigma A-2, Sigma E, and Caisson (Fig. 1)
Summary
Low inorganic phosphate (Pi) availability triggers an array of spatiotemporal adaptive responses in Arabidopsis (Arabidopsis thaliana). There are several reports on the effects of Pi deprivation on the root system that have been attributed to different growth conditions and/or inherent genetic variability. We show that the gelling agents, largely treated as inert components, significantly affect morphophysiological and molecular responses of the seedlings to deficiencies of Pi and other nutrients. Fluctuating levels of phosphorus (P) in different agar types affected the growth of the seedlings under Pi-deprivation condition. While the elemental contaminants in gelling agents used with nutrient-rich media may not significantly affect the growth of Arabidopsis seedlings, they could make a significant difference under nutrient-deficient conditions. To further address disparities in Pi-starvation responses, we investigated the effects of the elemental composition of different batches and types of agar on morphophysiological and molecular responses of Pideprived Arabidopsis seedlings. This study highlights the fact that P acts as a contaminant in influencing the responses of seedlings to micronutrient (Fe and Zn) deficiencies
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