Journal of Cereal Research Volume 14 (Spl 1): 17-41
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Drought-Arzoo2022
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2 induced drought priming in wheat Another prevalent cause restricting plant growth and production is drought stress. Sulphur dioxide (SO 2 ) has been shown to boost plants by protecting them from stressful conditions (Corpas and Palma 2020). The impact of SO 2 on the molecular mechanisms and physiological functions of wheat plants at early developmental and growth phases to drought stress was investigated (Li et al., 2021). Under abiotic stresses e.g., drought, pre-treatment of wheat seedlings with 10 mg/m3 SO 2 improved the chances of survival and relative water content (RWC), showing that pre-disposition to an adequate dose of SO 2 might improve plant tolerance towards drought. A recent study found that pre-treatment of foxtail millet seedlings with SO 2 protected these plants against drought stress damage (Han et al., 2019). For a long time, SO 2 was considered to be a prevalent air contaminant with deleterious impacts on the crop (Liu et al., 2017). SO 2 toxicity is primarily caused by oxidative stress, which is regulated by an increase in ROS production, comparable to drought stress. Low concentrations of SO 2 were shown to stimulate transcriptome reprogramming in grape berries, which is linked to oxidative signaling, indicating that SO 2 indeed has a physiologically metabolic role under defensive processes(Xue and Yi 2018). These reactions were linked to the increased proline build- up produced by SO 2 pre-treatment in drought-stricken wheat seedlings. Whilst, in drought-treated wheat seedlings, SO 2 pre-treatment elevated the functions of superoxide dismutase (SOD) and peroxidase (POD) (Corpas and Palma 2020). However, these treatments had significantly lowered the concentration of hydrogen peroxide (H 2 O 2 ) and malondialdehyde (MDA), implying that mitigate drought-induced oxidative injury can be mitigated through SO 2 by bolstering antioxidant processes and pathways in wheat plants (Li et al., 2021). Gene expression analyses of transcription factor NAC, MYB, and ERF in wheat after SO 2 pre-treatment lowered the expression of TaNAC69. Whereas the expression of TaERF1 and TaMYB30 altered a little and remained at elevated amounts in wheat seedlings in drought stress tolerance (Baillo et al., 2019) (Table 1). Interestingly, SO 2 pre-treatment caused a crucial enhancement in hydrogen sulfide (H 2 S) build-up upon exposing juvenile wheat plants to desiccation (Ausma and De Kok 2019). The activities of antioxidant enzymes Abiotic stress tolerance in wheat 31 and TF genes expression were reduced when H2S was scrounged by spraying Hypotaurine (HT), whereas the concentration of H 2 O 2 and MDA enhanced to the level of drought treatment solely, implying a central role in the regulation of SO2-induced H 2 S in plant tolerance to drought stress (Corpas and Palma 2020). Overall, this research found that SO 2 increased drought endurance in wheat seedlings via H 2 S signaling, indicating a novel method for culminating drought tolerance in wheat crops (Li et al., 2021). Table 1. Physiological Alterations upon pretreatment of wheat plants with chemicals to develop drought tolerance Abiotic Stress Pretreatment of wheat seedlings Metabolic Alterations Stress Response Genes Physiological Alterations References Up- Regulation Down- Regulation Drought Stress SO 2 Download 1.6 Mb. Do'stlaringiz bilan baham: 
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