Such details can be used for the production of plants with higher tolerance to such stresses.M.MiransariB.RangbarK.KhajehM.M.TehranchiR.RustaAzadF.NagafiR.RahnemaieMiransari, M., et al., 2013a. Salt stress and
This book will shed light on the effect of salt stress on plants development, proteomics, genomics, genetic engineering, and plant adaptations, among other topics Understanding the molecular basis will be helpful in developing selection strategies for improving salinity tolerance The book will cover aro...
However, salt stress severely damages photosynthesis and hormone metabolism, nutritional balances, and results in ion toxicity in plants. To better understand the mechanisms of salt-induced growth inhibition in Chinese cabbage, RNA-seq and physiological index determination were conducted to explore the ...
Chapter 7, salt stress and MAPK signaling in plants. Pathak RK, Taj G, Pandey D, Arora S, Kumar A. Modeling of the MAPK machinery activation in response to various abiotic and biotic stresses in plants by a system biology approach. Bioinformation. 2013;9:443–9. Article PubMed PubMed ...
stresses,particularlyoxidativestress,inplants.Therefore, toadapttosaltstress,plantsrelyonsignalsandpathways thatre-establishcellularionic,osmotic,andreactive oxygenspecies(ROS)homeostasis.Overthepasttwo decades,geneticandbiochemicalanalyseshaverevealed severalcorestresssignalingpathwaysthatparticipate ...
High salt content in soils severely hampers plant growth and crop yields. Many transcription factors in plants play important roles in responding to various stresses, but their molecular mechanisms remain unclear. WRKY transcription factors are one of th
3.1 Osmoregulation and osmoprotection Crop plants adopt a common strategy to lessen the negative effects of osmotic stress during phase I of salt stress, known as osmoregulation (Farooq et al., 2015). During osmoregulation, the water potential of a cell decreases without any fall in cell turgor...
Evidence from transgenic plants has demonstrated that GhWRKY39-1 and GhDREB1 genes could function as positive regulators to enhance abiotic stress tolerance11,12. In addition, over-expression of the rice NAC gene, SNAC1, could also improve salt tolerance in transgenic cotton13. Key regulators ...
Plant biostimulants are widely applied in agriculture for their ability to improve plant fitness. In the present work, the impact of Graminaceae-derived protein hydrolysate (P) and its lighter molecular fraction F3 (< 1 kDa) on lettuce plants,
salt tolerance in transgenic upland cotton by involving in ROS scavenging and MAPK signaling pathways Ying Su1, Anhui Guo1, Yi Huang2, Yumei Wang3 and Jinping Hua1* Abstract Background: Salt stress is one of the most damaging abiotic stresses in production of Upland cotton (Gossypium hirsutum...