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Dithiothreitol and PEG Induced Combined Stress May Affect the Expressions of ABA Aldehyde Oxidase,Sucrose Synthase and Proline Metabolic Genes in Maize Seedlings
Authors:Cansu Altuntaş  Rabiye Terzi
Affiliation:1 Karadeniz Technical University, Department of Biology, Faculty of Science, Trabzon, 61080, Turkey
Abstract:The endoplasmic reticulum (ER) is an organelle in the cell where proteins are created and folded. Folding is a very elaborate process that is often interrupted by various biotic and abiotic stresses, leading to the formation of unfolded and misfolded proteins called ER stress. Dithiothreitol (DTT)-induced unfolded protein response (UPR) in endoplasmic reticulum (ER) has been recently reported in plants. Also, previous studies demonstrated that treatment with polyethylene glycol (PEG6000) could stimulate water deficit in crops. However, further researches should be conducted to elucidate the molecular mechanism of ER stress response and the relationship between water deficiency and ER. In this study, we examined the expressions of sucrose synthase (SuS) gene, proline metabolic genes and abscisic aldehyde oxidase (AAO3) gene in maize seedlings that were subjected to DTT and PEG induced combined stresses by using quantitative real-time RT-PCR. Three weeks old detached maize seedlings were treated with or without DTT and PEG6000 for 12 h. The treatment with DTT increased about 2-fold the expression of gene encoding proline synthesis enzyme, pyrroline-5-carboxylate synthetase (P5CS) but no statistically affected the proline catabolism enzyme, proline dehydrogenase (ProDH) in comparison with un-treated seedlings. PEG treatment was also up-regulated P5CS while it was down-regulated ProDH. The relative expression levels of SuSand AAO3 genes statistically enhanced about 2.5 fold under the DTT-induced ER stress. Likewise, the expression levels of SuS and AAO3 genes were up-regulated in the detached seedlings exposed to PEG-induced water deficit. Conversely, the induced gene expressions were down-regulated under the combined stress, the DTT-induced ER stress and PEG-induced water deficit in comparison with the singular stress responses (DTT or PEG). The results indicated that the expressions of genes, related to the synthesis of some signal osmolyte compounds such as proline and sucrose can be suppressed when ER stress occurred under water deficiency in maize seedlings. The changes in the expressions of genes involved in osmolyte and ABA metabolism can be related to ER stress response as well as variations in water status.
Keywords:ER stress  water deficit  sucrose  proline  metabolism  ABA synthesis  gene expression
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