Abiotic Stress in Crop Production
TL;DR: In this article , the authors focus on current findings in plant resistance to four cardinal abiotic stressors (drought, heat, salinity, and low temperatures) and focus on the importance of primary and secondary metabolites, including carbohydrates, amino acids, phenolics, and phytohormones.
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Abstract: The vast majority of agricultural land undergoes abiotic stress that can significantly reduce agricultural yields. Understanding the mechanisms of plant defenses against stresses and putting this knowledge into practice is, therefore, an integral part of sustainable agriculture. In this review, we focus on current findings in plant resistance to four cardinal abiotic stressors—drought, heat, salinity, and low temperatures. Apart from the description of the newly discovered mechanisms of signaling and resistance to abiotic stress, this review also focuses on the importance of primary and secondary metabolites, including carbohydrates, amino acids, phenolics, and phytohormones. A meta-analysis of transcriptomic studies concerning the model plant Arabidopsis demonstrates the long-observed phenomenon that abiotic stressors induce different signals and effects at the level of gene expression, but genes whose regulation is similar under most stressors can still be traced. The analysis further reveals the transcriptional modulation of Golgi-targeted proteins in response to heat stress. Our analysis also highlights several genes that are similarly regulated under all stress conditions. These genes support the central role of phytohormones in the abiotic stress response, and the importance of some of these in plant resistance has not yet been studied. Finally, this review provides information about the response to abiotic stress in major European crop plants—wheat, sugar beet, maize, potatoes, barley, sunflowers, grapes, rapeseed, tomatoes, and apples.
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A calcium-binding protein, rice annexin OsANN1, enhances heat stress tolerance by modulating the production of H2O2
Bei Qiao,Qian Zhang,Dongliang Liu,Haiqi Wang,Jingya Yin,Rui Wang,Mengli He,Meng Cui,Zhonglin Shang,Dekai Wang,Zhengge Zhu +10 more
TL;DR: It is reported that OsANN1 confers abiotic stress tolerance by modulating antioxidant accumulation under abiotics stress by interacting with OsCDPK24, and yeast two-hybrid and bimolecular fluorescence complementation (BiFC) assays demonstrated that Osann1 interacts withOsCDPk24, suggesting that cross-talk may provide additional layers of regulation in the abioticstress response.
Durum wheat seedling responses to simultaneous high light and salinity involve a fine reconfiguration of amino acids and carbohydrate metabolism
Pasqualina Woodrow,Loredana F. Ciarmiello,Maria Grazia Annunziata,Severina Pacifico,Federica Iannuzzi,Antonio Mirto,Luisa D'Amelia,Emilia Dell’Aversana,Simona Piccolella,Amodio Fuggi,Petronia Carillo,Petronia Carillo +11 more
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Transcriptionally and post-transcriptionally regulated microRNAs in heat stress response in barley
Katarzyna Kruszka,Andrzej Pacak,Aleksandra Swida-Barteczka,Przemyslaw Nuc,Sylwia Alaba,Zuzanna Wroblewska,Wojciech M. Karlowski,Artur Jarmolowski,Zofia Szweykowska-Kulinska +8 more
TL;DR: Summary Selected barley miRNAs and their targets are regulated upon heat stress and Splicing of introns carrying miRNA was induced by heat and correlated with the accumulation of mature miRNA.