| review article | Q7318358 |
| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/J.TPLANTS.2015.06.008 |
| P698 | PubMed publication ID | 26205171 |
| P50 | author | Christa Testerink | Q55136830 |
| P2093 | author name string | Magdalena M Julkowska | |
| P433 | issue | 9 | |
| P304 | page(s) | 586-594 | |
| P577 | publication date | 2015-07-20 | |
| P1433 | published in | Trends in Plant Science | Q15757515 |
| P1476 | title | Tuning plant signaling and growth to survive salt | |
| P478 | volume | 20 |
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| Q61450771 | A cation diffusion facilitator, GmCDF1, negatively regulates salt tolerance in soybean |
| Q104581360 | All Roads Lead to Auxin: Post-translational Regulation of Auxin Transport by Multiple Hormonal Pathways |
| Q90501808 | An Oxygen Delivery Polymer Enhances Seed Germination in a Mars-like Environment |
| Q42212464 | Arabidopsis RabF1 (ARA6) Is Involved in Salt Stress and Dark-Induced Senescence (DIS). |
| Q48335092 | Arabidopsis phosphoinositide-specific phospholipase C 4 negatively regulates seedling salt tolerance. |
| Q41526624 | Autophagy Is Rapidly Induced by Salt Stress and Is Required for Salt Tolerance in Arabidopsis |
| Q33881892 | BdCIPK31, a Calcineurin B-Like Protein-Interacting Protein Kinase, Regulates Plant Response to Drought and Salt Stress |
| Q92117810 | Calcineurin B-Like Proteins CBL4 and CBL10 Mediate Two Independent Salt Tolerance Pathways in Arabidopsis |
| Q90350084 | Calcium signaling and salt tolerance are diversely entwined in plants |
| Q92513110 | Causal Enzymology and Physiological Aspects May Be Accountable to Membrane Integrity in Response to Salt Stress in Arabidopsis thaliana Lines |
| Q46471867 | Cell-Type-Specific H+-ATPase Activity in Root Tissues Enables K+ Retention and Mediates Acclimation of Barley (Hordeum vulgare) to Salinity Stress. |
| Q51672020 | Cellulose synthesis genes CESA6 and CSI1 are important for salt stress tolerance in Arabidopsis. |
| Q37704779 | EIN3 and SOS2 synergistically modulate plant salt tolerance |
| Q89080997 | EZ-Root-VIS: A Software Pipeline for the Rapid Analysis and Visual Reconstruction of Root System Architecture |
| Q64055002 | Early Crops Responses to Salinity Stress: A Comparative Analysis Between Chinese Cabbage, White Cabbage, and Kale |
| Q47271705 | Effect of salt-stress on gene expression in citrus roots revealed by RNA-seq |
| Q90607350 | Expression levels of the Na+/K+ transporter OsHKT2;1 and vacuolar Na+/H+ exchanger OsNHX1, Na enrichment, maintaining the photosynthetic abilities and growth performances of indica rice seedlings under salt stress |
| Q58737095 | Fast Regulation of Hormone Metabolism Contributes to Salt Tolerance in Rice ( spp. Japonica, L.) by Inducing Specific Morpho-Physiological Responses |
| Q92773171 | Gene networks underlying the early regulation of Paraburkholderia phytofirmans PsJN induced systemic resistance in Arabidopsis |
| Q47371529 | Genetic Components of Root Architecture Remodeling in Response to Salt Stress. |
| Q42055852 | Genetic architecture of plant stress resistance: multi-trait genome-wide association mapping |
| Q36656951 | Genome-wide characterization and analysis of bZIP transcription factor gene family related to abiotic stress in cassava |
| Q90076359 | Genome-wide discovery and functional prediction of salt-responsive lncRNAs in duckweed |
| Q26738481 | Growing Out of Stress: The Role of Cell- and Organ-Scale Growth Control in Plant Water-Stress Responses |
| Q92730330 | Halotropism requires phospholipase Dζ1-mediated modulation of cellular polarity of auxin transport carriers |
| Q90050969 | How Plants Sense and Respond to Stressful Environments |
| Q98394777 | Integrative analyses of transcriptomics and metabolomics upon seed germination of foxtail millet in response to salinity |
| Q64079868 | Modulation of Ethylene and Ascorbic Acid on Reactive Oxygen Species Scavenging in Plant Salt Response |
| Q98282971 | Multi-locus genome-wide association studies reveal novel genomic regions associated with vegetative stage salt tolerance in bread wheat (Triticum aestivum L.). |
| Q35923123 | Natural variation in rosette size under salt stress conditions corresponds to developmental differences between Arabidopsis accessions and allelic variation in the LRR-KISS gene |
| Q48226841 | Phosphate-Dependent Root System Architecture Responses to Salt Stress. |
| Q50504668 | Phosphoenolpyruvate carboxylase (PEPC) and PEPC-kinase (PEPC-k) isoenzymes in Arabidopsis thaliana: role in control and abiotic stress conditions. |
| Q43031242 | Phospholipases Dζ1 and Dζ2 have distinct roles in growth and antioxidant systems in Arabidopsis thaliana responding to salt stress |
| Q92322757 | Plant cell-surface GIPC sphingolipids sense salt to trigger Ca2+ influx |
| Q89965996 | Proline Biosynthesis Enzyme Genes Confer Salt Tolerance to Switchgrass (Panicum virgatum L.) in Cooperation With Polyamines Metabolism |
| Q60920840 | Proteomic Analysis of a Rice Mutant Possessing a Novel Allele of Heterotrimeric G Protein Alpha Subunit (RGA1) in Salt Stress with a Focus on ROS Scavenging |
| Q49378378 | Reciprocal Regulation of the TOR Kinase and ABA Receptor Balances Plant Growth and Stress Response |
| Q37694319 | Regulation of mRNA decay in plant responses to salt and osmotic stress. |
| Q60909509 | Root Abscisic Acid Contributes to Defending Photoinibition in Jerusalem Artichoke ( L.) under Salt Stress |
| Q90176843 | Root Tropisms: Investigations on Earth and in Space to Unravel Plant Growth Direction |
| Q38792989 | Root growth restraint can be an acclimatory response to low pH and is associated with reduced cell mortality: a possible role of class III peroxidases and NADPH oxidases |
| Q28070109 | Roots Withstanding their Environment: Exploiting Root System Architecture Responses to Abiotic Stress to Improve Crop Tolerance |
| Q90074744 | Salinity Stress-Mediated Suppression of Expression of Salt Overly Sensitive Signaling Pathway Genes Suggests Negative Regulation by AtbZIP62 Transcription Factor in Arabidopsis thaliana |
| Q99605608 | Salt Stress-Induced Structural Changes Are Mitigated in Transgenic Tomato Plants Over-Expressing Superoxide Dismutase |
| Q33732039 | Salt stress responsiveness of a wild cotton species (Gossypium klotzschianum) based on transcriptomic analysis. |
| Q57791832 | Sensing of Abiotic Stress and Ionic Stress Responses in Plants |
| Q91769891 | Soil Salinity Limits Plant Shade Avoidance |
| Q46243729 | Spliceosomal protein U1A is involved in alternative splicing and salt stress tolerance in Arabidopsis thaliana |
| Q40961675 | The Histone Deacetylase Inhibitor Suberoylanilide Hydroxamic Acid Alleviates Salinity Stress in Cassava. |
| Q46335337 | The physiological and metabolic changes in sugar beet seedlings under different levels of salt stress |
| Q46403389 | The plant perceptron connects environment to development |
| Q36337655 | Thiourea priming enhances salt tolerance through co-ordinated regulation of microRNAs and hormones in Brassica juncea |
| Q88677524 | Transcriptome Analysis in Chinese Cabbage (Brassica rapa ssp. pekinensis) Provides the Role of Glucosinolate Metabolism in Response to Drought Stress |
| Q51738132 | Transcriptome and Cell Physiological Analyses in Different Rice Cultivars Provide New Insights Into Adaptive and Salinity Stress Responses. |
| Q99556457 | Transcriptome profiling at osmotic and ionic phases of salt stress response in bread wheat uncovers trait-specific candidate genes |
| Q92833409 | Transgenic tomatoes for abiotic stress tolerance: status and way ahead |
| Q46010329 | Two NHX-type transporters from Helianthus tuberosus improve the tolerance of rice to salinity and nutrient deficiency stress. |
| Q93140287 | Xyloglucan endotransglucosylase-hydrolase30 negatively affects salt tolerance in Arabidopsis |
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