| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2014PNAS..111.9319B |
| P356 | DOI | 10.1073/PNAS.1400966111 |
| P932 | PMC publication ID | 4078807 |
| P698 | PubMed publication ID | 24927545 |
| P5875 | ResearchGate publication ID | 263100400 |
| P50 | author | Pedro L Rodriguez | Q39419606 |
| Teva Vernoux | Q42416611 | ||
| Sacha Mooney | Q54653304 | ||
| Malcolm Bennett | Q55464539 | ||
| Craig J Sturrock | Q56451494 | ||
| P2093 | author name string | José R Dinneny | |
| Lina Duan | |||
| Cliff Tham | |||
| Han Qi Tan | |||
| Mark C Thompson | |||
| Neil E Robbins | |||
| Pooja Aggarwal | |||
| Yun Bao | |||
| P2860 | cites work | The main auxin biosynthesis pathway in Arabidopsis | Q24628839 |
| Conversion of tryptophan to indole-3-acetic acid by TRYPTOPHAN AMINOTRANSFERASES OF ARABIDOPSIS and YUCCAs in Arabidopsis | Q24628872 | ||
| Root system architecture from coupling cell shape to auxin transport | Q27332219 | ||
| Rapid Synthesis of Auxin via a New Tryptophan-Dependent Pathway Is Required for Shade Avoidance in Plants | Q27650264 | ||
| Comparison of mechanisms controlling uptake and accumulation of 2,4-dichlorophenoxy acetic acid, naphthalene-1-acetic acid, and indole-3-acetic acid in suspension-cultured tobacco cells | Q87616582 | ||
| An abscisic acid-sensitive checkpoint in lateral root development of Arabidopsis | Q33338079 | ||
| The PIN auxin efflux facilitator network controls growth and patterning in Arabidopsis roots | Q33340720 | ||
| Auxin-dependent regulation of lateral root positioning in the basal meristem of Arabidopsis | Q33343590 | ||
| Diarch symmetry of the vascular bundle in Arabidopsis root encompasses the pericycle and is reflected in distich lateral root initiation | Q33344822 | ||
| Oscillating gene expression determines competence for periodic Arabidopsis root branching | Q33349759 | ||
| A novel aux/IAA28 signaling cascade activates GATA23-dependent specification of lateral root founder cell identity | Q33349879 | ||
| To branch or not to branch: the role of pre-patterning in lateral root formation | Q33557406 | ||
| Auxin control of root development. | Q33849355 | ||
| miR390, Arabidopsis TAS3 tasiRNAs, and their AUXIN RESPONSE FACTOR targets define an autoregulatory network quantitatively regulating lateral root growth. | Q34108182 | ||
| Local, efflux-dependent auxin gradients as a common module for plant organ formation. | Q34280509 | ||
| Root gravitropism requires lateral root cap and epidermal cells for transport and response to a mobile auxin signal. | Q34462224 | ||
| Intrinsic and environmental response pathways that regulate root system architecture | Q36195888 | ||
| Lateral root development in Arabidopsis: fifty shades of auxin | Q38108933 | ||
| Repression of early lateral root initiation events by transient water deficit in barley and maize | Q38886701 | ||
| Systems analysis of auxin transport in the Arabidopsis root apex | Q38890811 | ||
| Methods and concepts in quantifying resistance to drought, salt and freezing, abiotic stresses that affect plant water status | Q39558773 | ||
| Demonstration of osmotically dependent promotion of aerenchyma formation at different levels in the primary roots of rice using a 'sandwich' method and X-ray computed tomography. | Q42083673 | ||
| Auxin reflux between the endodermis and pericycle promotes lateral root initiation. | Q42123364 | ||
| Arabidopsis PYR/PYL/RCAR receptors play a major role in quantitative regulation of stomatal aperture and transcriptional response to abscisic acid. | Q42508737 | ||
| The Arabidopsis YUCCA1 flavin monooxygenase functions in the indole-3-pyruvic acid branch of auxin biosynthesis | Q44862578 | ||
| TAA1-mediated auxin biosynthesis is essential for hormone crosstalk and plant development | Q44873509 | ||
| The TRANSPORT INHIBITOR RESPONSE2 gene is required for auxin synthesis and diverse aspects of plant development. | Q45922678 | ||
| Changes in auxin response from mutations in an AUX/IAA gene | Q48039627 | ||
| A novel sensor to map auxin response and distribution at high spatio-temporal resolution. | Q51825465 | ||
| Auxin transport is sufficient to generate a maximum and gradient guiding root growth. | Q53520095 | ||
| P433 | issue | 25 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 9319-9324 | |
| P577 | publication date | 2014-06-09 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | Plant roots use a patterning mechanism to position lateral root branches toward available water | |
| P478 | volume | 111 |
| Q64087073 | A Genome-Wide Association Study Identifies New Loci Involved in Wound-Induced Lateral Root Formation in |
| Q33363062 | Abscisic Acid: Hidden Architect of Root System Structure |
| Q98784930 | Agar with embedded channels to study root growth |
| Q50224142 | Alleviation of Nitrogen and Sulfur Deficiency and Enhancement of Photosynthesis in Arabidopsis thaliana by Overexpression of Uroporphyrinogen III Methyltransferase (UPM1). |
| Q94502807 | Arabidopsis Lectin EULS3 Is Involved in ABA Signaling in Roots |
| Q38799914 | Auxin response under osmotic stress. |
| Q46347217 | Auxin transport and response requirements for root hydrotropism differ between plant species. |
| Q27009524 | Beyond the barrier: communication in the root through the endodermis |
| Q38241167 | Branching out in roots: uncovering form, function, and regulation |
| Q55334488 | Cellular Patterning of Arabidopsis Roots Under Low Phosphate Conditions. |
| Q38248319 | Challenges and opportunities for quantifying roots and rhizosphere interactions through imaging and image analysis. |
| Q35182666 | Common genetic basis for canopy temperature depression under heat and drought stress associated with optimized root distribution in bread wheat |
| Q35545440 | Computed tomography scanning can monitor the effects of soil medium on root system development: an example of salt stress in corn |
| Q36401019 | Concepts and Analyses in the CT Scanning of Root Systems and Leaf Canopies: A Timely Summary |
| Q47294872 | Control of Endogenous Auxin Levels in Plant Root Development. |
| Q92539294 | Coping With Water Shortage: An Update on the Role of K+, Cl-, and Water Membrane Transport Mechanisms on Drought Resistance |
| Q33362362 | Cyclic programmed cell death stimulates hormone signaling and root development in Arabidopsis |
| Q30910781 | Direct comparison of MRI and X-ray CT technologies for 3D imaging of root systems in soil: potential and challenges for root trait quantification |
| Q64288147 | Drought stress stimulates endocytosis and modifies membrane lipid order of rhizodermal cells of Medicago truncatula in a genotype-dependent manner |
| Q48326603 | Dual-flow-RootChip reveals local adaptations of roots towards environmental asymmetry at the physiological and genetic levels. |
| Q89519094 | Early developmental plasticity of lateral roots in response to asymmetric water availability |
| Q26784195 | Engineering food crops to grow in harsh environments |
| Q38344611 | Environmental, developmental, and genetic factors controlling root system architecture |
| Q38895505 | Fine-tuning of root elongation by ethylene: a tool to study dynamic structure-function relationships between root architecture and nitrate absorption. |
| Q38795715 | From promise to application: root traits for enhanced nutrient capture in rice breeding |
| Q27708278 | GLO-Roots: an imaging platform enabling multidimensional characterization of soil-grown root systems |
| Q89812922 | Genetic Control of Root Architectural Plasticity in Maize |
| Q91152268 | Genetic strategies for improving crop yields |
| Q58115971 | Going with the flow: multiscale insights into the composite nature of water transport in roots |
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| Q47566342 | Growth is required for perception of water availability to pattern root branches in plants. |
| Q30919248 | Hormone activities and the cell cycle machinery in immunity-triggered growth inhibition |
| Q47667335 | Image-Based Analysis to Dissect Vertical Distribution and Horizontal Asymmetry of Conspecific Root System Interactions in Response to Planting Densities, Nutrients and Root Exudates in Arabidopsis thaliana |
| Q50426150 | Lateral root formation and the multiple roles of auxin |
| Q35210903 | Lateral root initiation in Arabidopsis thaliana: a force awakens. |
| Q89862129 | Microwave Transmittance Technique Using Microstrip Patch Antennas, as a Non-Invasive Tool to Determine Soil Moisture in Rhizoboxes |
| Q91659380 | Molecular mechanisms mediating root hydrotropism: what we have observed since the rediscovery of hydrotropism |
| Q33780835 | Morphological Plant Modeling: Unleashing Geometric and Topological Potential within the Plant Sciences |
| Q37179527 | Opportunities and challenges in the subsoil: pathways to deeper rooted crops. |
| Q57794696 | OsARD4 encoding an acireductone dioxygenase improves root architecture in rice by promoting development of secondary roots |
| Q93350482 | PYL8 mediates ABA perception in the root through non-cell-autonomous and ligand-stabilization-based mechanisms |
| Q38754744 | Periodic Lateral Root Priming: What Makes It Tick? |
| Q26741578 | Plant developmental responses to climate change |
| Q64102731 | Plasticity of Lateral Root Branching in Maize |
| Q60309023 | Progressive drought alters architectural and anatomical traits of rice roots |
| Q39624906 | Reduced Lateral Root Branching Density Improves Drought Tolerance in Maize. |
| Q28552204 | Release of GTP Exchange Factor Mediated Down-Regulation of Abscisic Acid Signal Transduction through ABA-Induced Rapid Degradation of RopGEFs |
| Q92126557 | Root Plasticity in the Pursuit of Water |
| Q28074519 | Root System Architecture and Abiotic Stress Tolerance: Current Knowledge in Root and Tuber Crops |
| Q36833701 | Root Traits and Phenotyping Strategies for Plant Improvement |
| Q96816688 | Root architecture and hydraulics converge for acclimation to changing water availability |
| Q38586476 | Root patterning: it takes two to tangle |
| Q28070109 | Roots Withstanding their Environment: Exploiting Root System Architecture Responses to Abiotic Stress to Improve Crop Tolerance |
| Q90656107 | Salt stress alleviation in citrus plants by plant growth-promoting rhizobacteria Pseudomonas putida and Novosphingobium sp |
| Q64977723 | Sphingomonas sp. Cra20 Increases Plant Growth Rate and Alters Rhizosphere Microbial Community Structure of Arabidopsis thaliana Under Drought Stress. |
| Q89590421 | The LATERAL ROOT DENSITY gene regulates root growth during water stress in wheat |
| Q28072688 | The Role and Regulation of ABI5 (ABA-Insensitive 5) in Plant Development, Abiotic Stress Responses and Phytohormone Crosstalk |
| Q26738314 | The Thermodynamic Flow-Force Interpretation of Root Nutrient Uptake Kinetics: A Powerful Formalism for Agronomic and Phytoplanktonic Models |
| Q36756417 | The divining root: moisture-driven responses of roots at the micro- and macro-scale |
| Q38394761 | The holistic rhizosphere: integrating zones, processes, and semantics in the soil influenced by roots |
| Q33360894 | The root cap: a short story of life and death. |
| Q36944445 | The roots of future rice harvests |
| Q59343737 | Uncovering the hidden half of plants using new advances in root phenotyping |
| Q38335058 | Underground tuning: quantitative regulation of root growth |
| Q39143114 | Unraveling the hydrodynamics of split root water uptake experiments using CT scanned root architectures and three dimensional flow simulations |
| Q35632189 | Variation in Adult Plant Phenotypes and Partitioning among Seed and Stem-Borne Roots across Brachypodium distachyon Accessions to Exploit in Breeding Cereals for Well-Watered and Drought Environments. |
| Q38980128 | Water Deficit Enhances C Export to the Roots in Arabidopsis thaliana Plants with Contribution of Sucrose Transporters in Both Shoot and Roots |
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