Nitric oxide and hydrogen peroxide are important signals mediating the allelopathic response of Arabidopsis to p‐hydroxybenzoic acid

Both nitric oxide (NO) and hydrogen peroxide (H₂O₂) are important signals that mediate plant response to environmental stimulation. Their role in plants' allelopathic interactions has also been reported, but the underlying mechanism remains little understood. p‐Hydroxybenzoic acid (pHBA) has been proposed to be an allelopathic chemical. Here, we found that pHBA at 0.4 mM efficiently suppressed Arabidopsis growth. Meanwhile, pHBA rapidly induced the accumulation of NO and H₂O₂, where such effect could be reversed by NO or H₂O₂ metabolism inhibitors or scavengers. Also, pHBA‐induced NO and H₂O₂ could be compromised in NO synthesis mutants noa1, nia1 and nia2, or H₂O₂ metabolism mutant rbohD/F, but suppressing NO accumulation with a NO synthesis inhibitor or using NO synthesis‐related mutants did not reduce pHBA‐induced H₂O₂ accumulation. Furthermore, we found that the effect of pHBA on allelopathic inhibition of growth was aggravated in NO/H₂O₂ metabolism‐related mutants or reducing NO/H₂O₂ by different inhibitors, whereas the addition of an NO/H₂O₂ donor could partly relieve the inhibitory effect of pHBA on the growth of wild type. However, adding only an NO donor, but not low concentration of H₂O₂ as the donor, could relieve the inhibitory effect of pHBA on root growth in NO metabolism mutants. On the basis of these results, we propose that both NO and H₂O₂ are important signals that mediate Arabidopsis response to the allelopathic chemical pHBA, where during this process H₂O₂ may work upstream of the NO signal.