Anthocyanins are induced in plants in response to abiotic stresses such as drought, high salinity, excess light, and cold, where they often correlate with enhanced stress tolerance. Numerous roles have been proposed for anthocyanins induced during abiotic stresses including functioning as ROS scavengers, photoprotectants, and stress signals. We have recently found different profiles of anthocyanins in Arabidopsis (Arabidopsis thaliana) plants exposed to different abiotic stresses, suggesting that not all anthocyanins have the same function. Here, we discuss these findings in the context of other studies and show that anthocyanins induced in Arabidopsis in response to various abiotic stresses have different localizations at the organ and tissue levels. These studies provide a basis to clarify the role of particular anthocyanin species during abiotic stress.Anthocyanins are plant pigments of the flavonoid subclass of phenylpropanoids characterized by a 3,5,7-trihydroxylated flavylium backbone. 1 The red-to-purple color imparted by anthocyanins to flowers, fruits, and seeds act as visual deterrents to herbivores, and attractants to pollinators and seed dispersers. Anthocyanins and other flavonoids also contribute to stress tolerance in plants. There is a growing interest in understanding the mechanisms by which anthocyanins help plants cope with abiotic stress, most importantly in the context of crop yield reduction due to global climate change. Anthocyanins are commonly induced in plant vegetative tissues in response to a number of different abiotic stresses including drought, salinity, excess light, sub-or supra-optimal temperatures, and nitrogen and phosphorous deficiency. 2-8 The proposed roles of anthocyanins during abiotic stresses include quenching of ROS, 9,10 photoprotection, 11,12 stress signaling, 13,14 and xenohormesis (i.e., the biological principle that relates bioactive compounds in environmentally stressed plants and the increase in stress resistance and survival in animals that feed from them). 15,16 Plants as a group produce hundreds of structurally distinct anthocyanin species. Arabidopsis (Arabidopsis thaliana) alone produces more than 20 different types of anthocyanins, but whether they have specific functions is unknown. Whereas all anthocyanins could have identical roles, the high metabolic cost of adding numerous decorations (e.g. sugar and acyl groups) to the flavylium backbone in the different anthocyanin species makes this scenario very unlikely.We recently reported that distinct profiles of anthocyanins are induced in seedlings of Arabidopsis in response to different abiotic stresses. 4 We analyzed seedlings grown in 8 abiotic stress conditions, including high salinity, cold, and an artificial stress medium termed anthocyanin induction condition (AIC), which consists of 3% sucrose and no additional nutrients. The fact that distinct profiles of anthocyanins are induced by different abiotic stresses suggested that different anthocyanins, or profiles of anthocyanins, have different function...
