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Full-Text Articles in Life Sciences
Regulation Of Antioxidant Activity In Maize (Zea Mays L.) By Exogenous Application Of Sulfur Under Saline Conditions, Alia Riffat, Muhammad Sajid Aqeel Ahmad
Regulation Of Antioxidant Activity In Maize (Zea Mays L.) By Exogenous Application Of Sulfur Under Saline Conditions, Alia Riffat, Muhammad Sajid Aqeel Ahmad
Turkish Journal of Botany
One of the major effects of salt stress is high production of reactive oxygen species that adversely affect essential cellular metabolic pathways. To limit the elevated production of reactive oxygen species, plants stimulate various types of antioxidants. In this study, sulfur was used to induce tolerance against oxidative stress through modulation of the activities of various antioxidants. Two maize genotypes (Agatti 2003 and Pak Afgoi 2003) were subjected to different salinity (25 and 75 mM) and sulfur (40 and 80 mM) treatments and a control treatment. Various antioxidants and oxidative stress determinants in maize organs (leaf, shoot, and root) were …
The Endogenous L-Cysteine Desulfhydrase And Hydrogen Sulfide Participate In Supplemented Phosphorus-Induced Tolerance To Salinity Stress In Maize (Zea Mays) Plants, Cengi̇z Kaya, Muhammad Ashraf
The Endogenous L-Cysteine Desulfhydrase And Hydrogen Sulfide Participate In Supplemented Phosphorus-Induced Tolerance To Salinity Stress In Maize (Zea Mays) Plants, Cengi̇z Kaya, Muhammad Ashraf
Turkish Journal of Botany
Although phosphorus supplementation (SP) has been shown to improve salinity tolerance in plants, crosstalk between hydrogen sulfide (H2S) or L-cysteine desulfhydrase (LDES) and SP-induced salinity tolerance needs to be elucidated. Thus, prior to initiation of stress treatment, young seedlings were transferred to aqueous solution containing the scavenger of H2S, 0.1 mM hypotaurine (HT), or the inhibitor of LDES, 0.3 mM DL-propargylglycine (PAG), for 12 h. The plants grown under control (no NaCl added) or salinity stress (SS; 100 mM NaCl) were then supplemented with SP (2.0 mM in total) as KH2PO4 for 5 weeks. SS caused a significant decrease in …
Plant Response To Salinity: An Analysis Of Ros Formation, Signaling, And Antioxidant Defense, Turgut Yi̇gi̇t Akyol, Oğuzhan Yilmaz, Bariş Uzi̇lday, Rengi̇n Özgür Uzi̇lday, İsmai̇l Türkan
Plant Response To Salinity: An Analysis Of Ros Formation, Signaling, And Antioxidant Defense, Turgut Yi̇gi̇t Akyol, Oğuzhan Yilmaz, Bariş Uzi̇lday, Rengi̇n Özgür Uzi̇lday, İsmai̇l Türkan
Turkish Journal of Botany
Reactive oxygen species (ROS) are byproducts of normal plant metabolism and their production is elevated under environmental stresses such as drought, extreme temperature, and salinity. Among these, salinity is a worldwide problem that impacts the fertility of arable lands and sustainability of food security, which is getting more attention due to climate change. Halophytes can survive and reproduce in soils containing high concentrations of salt and have developed adaptation mechanisms at physiological, biochemical, and molecular levels including maintenance of ROS metabolism. In this review, we aim to summarize findings related to ROS production, signaling, scavenging, and especially ROS avoidance mechanisms …