| scholarly article | Q13442814 |
| P50 | author | Teva Vernoux | Q42416611 |
| Teun Munnik | Q44739235 | ||
| Christa Testerink | Q55136830 | ||
| Magdalena M Julkowska | Q57074438 | ||
| Carlos S Galván-Ampudia | Q79908133 | ||
| P2093 | author name string | Michel A Haring | |
| Essam Darwish | |||
| Geraldine Brunoud | |||
| Jacinto Gandullo | |||
| Ruud A Korver | |||
| P433 | issue | 20 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 2044-2050 | |
| P577 | publication date | 2013-10-03 | |
| P1433 | published in | Current Biology | Q1144851 |
| P1476 | title | Halotropism is a response of plant roots to avoid a saline environment | |
| P478 | volume | 23 |
| Q47816249 | 'Bending' models of halotropism: incorporating protein phosphatase 2A, ABCB transporters, and auxin metabolism |
| Q92971283 | Abscisic Acid Regulates Auxin Distribution to Mediate Maize Lateral Root Development Under Salt Stress |
| Q33363062 | Abscisic Acid: Hidden Architect of Root System Structure |
| Q104581360 | All Roads Lead to Auxin: Post-translational Regulation of Auxin Transport by Multiple Hormonal Pathways |
| Q47342533 | Auxin Information Processing; Partners and Interactions beyond the Usual Suspects |
| Q47851105 | Auxin production as an integrator of environmental cues for developmental growth regulation. |
| Q38799914 | Auxin response under osmotic stress. |
| Q27009524 | Beyond the barrier: communication in the root through the endodermis |
| Q49347389 | Brassinosteroids: A Promising Option in Deciphering Remedial Strategies for Abiotic Stress Tolerance in Rice |
| Q90237773 | Calcium signalling regulates the functions of the bZIP protein VIP1 in touch responses in Arabidopsis thaliana |
| Q91804851 | Canopy Light Quality Modulates Stress Responses in Plants |
| Q35692744 | Capping protein integrates multiple MAMP signalling pathways to modulate actin dynamics during plant innate immunity |
| Q35290747 | Capturing Arabidopsis root architecture dynamics with ROOT-FIT reveals diversity in responses to salinity. |
| Q91868999 | Chemotropic vs Hydrotropic Stimuli for Root Growth Orientation in Microgravity |
| Q47181054 | Coevolving MAPK and PID phosphosites indicate an ancient environmental control of PIN auxin transporters in land plants. |
| Q47630787 | Coordinated Functional Divergence of Genes after Genome Duplication in Arabidopsis thaliana |
| Q64288147 | Drought stress stimulates endocytosis and modifies membrane lipid order of rhizodermal cells of Medicago truncatula in a genotype-dependent manner |
| Q40959867 | Durum Wheat Roots Adapt to Salinity Remodeling the Cellular Content of Nitrogen Metabolites and Sucrose |
| Q50073750 | Elucidating the molecular mechanisms mediating plant salt-stress responses |
| Q90020363 | Exogenous silicon alters ascorbate-glutathione cycle in two salt-stressed indica rice cultivars (MTU 1010 and Nonabokra) |
| Q64971052 | Extracellular Spermine Triggers a Rapid Intracellular Phosphatidic Acid Response in Arabidopsis, Involving PLDδ Activation and Stimulating Ion Flux. |
| Q50102203 | Far-Red Light Detection in the Shoot Regulates Lateral Root Development through the HY5 Transcription Factor. |
| Q58737095 | Fast Regulation of Hormone Metabolism Contributes to Salt Tolerance in Rice ( spp. Japonica, L.) by Inducing Specific Morpho-Physiological Responses |
| Q38822864 | Functions of Nitric Oxide (NO) in Roots during Development and under Adverse Stress Conditions |
| Q47371529 | Genetic Components of Root Architecture Remodeling in Response to Salt Stress. |
| 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 |
| Q42585838 | Light as stress factor to plant roots - case of root halotropism. |
| Q38792262 | Long-Distance Lipid Signaling and its Role in Plant Development and Stress Response |
| Q41285028 | Modeling halotropism: a key role for root tip architecture and reflux loop remodeling in redistributing auxin |
| Q91659380 | Molecular mechanisms mediating root hydrotropism: what we have observed since the rediscovery of hydrotropism |
| Q38555346 | Molecular mechanisms of gravity perception and signal transduction in plants |
| Q55335290 | Molecular response of canola to salt stress: insights on tolerance mechanisms. |
| 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 |
| Q58776500 | Out of Shape During Stress: A Key Role for Auxin |
| Q92637406 | Overexpression of Rice Expansin7 (Osexpa7) Confers Enhanced Tolerance to Salt Stress in Rice |
| Q38325635 | PIN-dependent auxin transport: action, regulation, and evolution |
| Q48226841 | Phosphate-Dependent Root System Architecture Responses to Salt Stress. |
| Q26998772 | Phosphatidic acid, a versatile water-stress signal in roots |
| Q43031242 | Phospholipases Dζ1 and Dζ2 have distinct roles in growth and antioxidant systems in Arabidopsis thaliana responding to salt stress |
| Q27708662 | Plant Water Uptake in Drying Soils |
| Q33700326 | Plant salt-tolerance mechanisms. |
| Q39414894 | Plants under Stress: Involvement of Auxin and Cytokinin |
| Q40984672 | Predicting green: really radical (plant) predictive processing. |
| Q26744767 | Regulation of polar auxin transport by protein and lipid kinases |
| Q28075740 | Role of Proteomics in Crop Stress Tolerance |
| Q90176843 | Root Tropisms: Investigations on Earth and in Space to Unravel Plant Growth Direction |
| Q28070109 | Roots Withstanding their Environment: Exploiting Root System Architecture Responses to Abiotic Stress to Improve Crop Tolerance |
| Q38537163 | Salinity tolerance of crops - what is the cost? |
| Q33360393 | Salt stress reduces root meristem size by nitric oxide-mediated modulation of auxin accumulation and signaling in Arabidopsis |
| Q27319042 | Salt-induced remodeling of spatially restricted clathrin-independent endocytic pathways in Arabidopsis root |
| Q92813272 | Settling for Less: Do Statoliths Modulate Gravity Perception? |
| Q36265288 | Skewing in Arabidopsis roots involves disparate environmental signaling pathways. |
| Q48324816 | Spatial Regulation of ABCG25, an ABA Exporter, Is an Important Component of the Mechanism Controlling Cellular ABA Levels. |
| Q49886609 | The FERONIA Receptor Kinase Maintains Cell-Wall Integrity during Salt Stress through Ca2+ Signaling. |
| Q88537408 | The MicroRNA390/TRANS-ACTING SHORT INTERFERING RNA3 Module Mediates Lateral Root Growth under Salt Stress via the Auxin Pathway |
| Q38223933 | The art of being flexible: how to escape from shade, salt, and drought |
| Q38365330 | The song of lipids and proteins: dynamic lipid-protein interfaces in the regulation of plant cell polarity at different scales. |
| Q92883347 | Tissue-specific accumulation of pH-sensing phosphatidic acid determines plant stress tolerance |
| Q30955490 | Transcripts and MicroRNAs Responding to Salt Stress in Musa acuminata Colla (AAA Group) cv. Berangan Roots |
| Q43091657 | UV-B Induced Generation of Reactive Oxygen Species Promotes Formation of BFA-Induced Compartments in Cells of Arabidopsis Root Apices. |
| Q26796521 | Vesicular trafficking and salinity responses in plants |
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