Article ID Journal Published Year Pages File Type
2014989 Plant Physiology and Biochemistry 2015 12 Pages PDF
Abstract

•Portulaca oleracea can stand severe drought stress and then recover upon rewatering.•We studied the differential transcriptome of stressed and recovered plants.•New players in the drought/recovery response were detected.•Selected drought responsive genes with unknown function responded to other stresses.•Selected genes also respond to stress in Arabidopsis thaliana in different manners.

Portulaca oleracea is one of the richest plant sources of ω-3 and ω-6 fatty acids and other compounds potentially valuable for nutrition. It is broadly established in arid, semiarid and well-watered fields, thus making it a promising candidate for research on abiotic stress resistance mechanisms. It is capable of withstanding severe drought and then of recovering upon rehydration. Here, the adaptation to drought and the posterior recovery was evaluated at transcriptomic level by differential display validated by qRT-PCR. Of the 2279 transcript-derived fragments amplified, 202 presented differential expression. Ninety of them were successfully isolated and sequenced. Selected genes were tested against different abiotic stresses in P. oleracea and the behavior of their orthologous genes in Arabidopsis thaliana was also explored to seek for conserved response mechanisms. In drought adapted and in recovered plants changes in expression of many protein metabolism-, lipid metabolism- and stress-related genes were observed. Many genes with unknown function were detected, which also respond to other abiotic stresses. Some of them are also involved in the seed desiccation/imbibition process and thus would be of great interest for further research. The potential use of candidate genes to engineer drought tolerance improvement and recovery is discussed.

Related Topics
Life Sciences Agricultural and Biological Sciences Plant Science
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