Results 301 to 310 of about 270,818 (335)
DRB1, DRB2 and DRB4 Are Required for an Appropriate miRNA-Mediated Molecular Response to Osmotic Stress in Arabidopsis thaliana. [PDF]
Int J Mol SciPegler JL +3 more
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Dynamic Localization of Paraspeckle Components under Osmotic Stress. [PDF]
Noncoding RNAYucel-Polat A +3 more
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GA-sensitive Rht13 gene improves root architecture and osmotic stress tolerance in bread wheat. [PDF]
BMC Genom DataKhalid MA +8 more
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Sodium transport and redox regulation in Saccharomyces cerevisiae under osmotic stress depending on oxygen availability. [PDF]
Sci RepShirvanyan A, Trchounian K.
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EcoSal Plus, 2009
Escherichia coli and Salmonella encounter osmotic pressure variations in natural environments that include host tissues, food, soil, and water. Osmotic stress causes water to flow into or out of cells, changing their structure, physics, and chemistry in ways that perturb cell functions.
Karlheinz, Altendorf +5 more
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Escherichia coli and Salmonella encounter osmotic pressure variations in natural environments that include host tissues, food, soil, and water. Osmotic stress causes water to flow into or out of cells, changing their structure, physics, and chemistry in ways that perturb cell functions.
Karlheinz, Altendorf +5 more
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Auxin response under osmotic stress
Plant Molecular Biology, 2016The phytohormone auxin (indole-3-acetic acid, IAA) is a small organic molecule that coordinates many of the key processes in plant development and adaptive growth. Plants regulate the auxin response pathways at multiple levels including biosynthesis, metabolism, transport and perception.
Victoria, Naser, Eilon, Shani
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Science Signaling, 2000
Plants can adapt to osmotic stress by rapidly expressing genes that will counter imbalances in ions, cell volume, and turgor pressure. Hoyos and Zhang show that two kinases are rapidly expressed and activated upon exposure to high salt conditions. One kinase appears to be a MAP kinase family member that was previously identified as a salicylic acid ...
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Plants can adapt to osmotic stress by rapidly expressing genes that will counter imbalances in ions, cell volume, and turgor pressure. Hoyos and Zhang show that two kinases are rapidly expressed and activated upon exposure to high salt conditions. One kinase appears to be a MAP kinase family member that was previously identified as a salicylic acid ...
openaire +2 more sources
Responses of Microorganisms to Osmotic Stress
Annual Review of Microbiology, 2019The cytoplasm of bacterial cells is a highly crowded cellular compartment that possesses considerable osmotic potential. As a result, and owing to the semipermeable nature of the cytoplasmic membrane and the semielastic properties of the cell wall, osmotically driven water influx will generate turgor, a hydrostatic pressure considered critical for ...
Erhard, Bremer, Reinhard, Krämer
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