Abstract
Selenium (Se) results in primary root shortening and the concomitant induction of lateral roots (LRs) (stress-induced morphogenic response, SIMR). Both ethylene (ET) and nitric oxide (NO) are gasotransmitters interacting with each other during plant growth regulation; however, their involvement and interplay in LR growth have not been examined so far. This study investigates the effect of Se on ET and NO levels and interaction in wild-type (WT) and ET insensitive etr1-1 Arabidopsis. In WT, Se at 15 µM concentration triggered LR emergence (LRem) and slight ET level elevation but in etr1-1 Se-induced LR inhibition was accompanied by four-fold ET level increase which can be associated with the increased expression of ACS2 and ACS8. Treatment with ACC + Se decreased LRem and NO level in WT, whereas AVG + Se in the etr1-1 plants resulted in enhanced LRem and increased NO level indicating that ET may inhibit both NO formation and LR emergence in Se-stressed Arabidopsis. The expression of NO-associated genes (NR1, NR2, GSNOR1, GLB1, GLB2), however, did not correlate with NO levels. Application of GSNO together with Se resulted in enhanced LR outgrowth both in WT and in etr1-1, whereas this effect could be reversed by a NO scavenger which indicates the positive regulatory role of NO during LR emergence. Moreover, GSNO has a clear inhibitory and cPTIO has an inducing effect on ET levels. These data indicate for the first time that the antagonistic interplay between ET and NO regulates the emergence of lateral roots in Arabidopsis under Se stress.
Highlights
Selenium (Se) is a naturally occurring non-metal element which is taken up by plants as selenate or selenite (Sors et al 2005)
Selenite was applied at different concentrations and the number of lateral root primordia and emerged lateral roots were counted in wild-type Arabidopsis
The 5 μM concentration had no effect on lateral roots (LRs) numbers, and 10 μM Se significantly increased only the number of emerged LRs which resulted in unmodified total LR number and a decreased LR primordia:emerged LR ratio (LRprim:LRem)
Summary
Selenium (Se) is a naturally occurring non-metal element which is taken up by plants as selenate or selenite (Sors et al 2005). Due to the chemical similarities with sulphur (S), land plants metabolize Se via S assimilation pathways (Sors et al 2005). Excess Se negatively impacts plants and causes general symptoms including chlorosis, withering, and stunted shoot and root growth. There are several known reasons for Se phytotoxicity like malformation of selenoproteins, impaired primary metabolism, oxidative and nitrosative stress and hormonal imbalance (Kolbert et al 2016). Se was shown to induce a mixed growth response (stress-induced morphogenic response, SIMR, Potters et al 2007) during which the primary root (PR) elongation is inhibited and the lateral root (LR) growth is induced (Kolbert 2016)
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