| human | Q5 |
| P496 | ORCID iD | 0000-0003-2901-189X |
| P1053 | ResearcherID | C-8971-2017 |
| P27 | country of citizenship | Sweden | Q34 |
| P734 | family name | Ljung | Q6660988 |
| Ljung | Q6660988 | ||
| Ljung | Q6660988 | ||
| P735 | given name | Karin | Q1814118 |
| Karin | Q1814118 | ||
| P106 | occupation | researcher | Q1650915 |
| P21 | sex or gender | female | Q6581072 |
| Q90990757 | A MYC2/MYC3/MYC4-dependent transcription factor network regulates water spray-responsive gene expression and jasmonate levels |
| Q33340560 | A PINOID-dependent binary switch in apical-basal PIN polar targeting directs auxin efflux. |
| Q91175767 | A bacterial assay for rapid screening of IAA catabolic enzymes |
| Q44904960 | A family of auxin-conjugate hydrolases that contributes to free indole-3-acetic acid levels during Arabidopsis germination |
| Q34248235 | A gradient of auxin and auxin-dependent transcription precedes tropic growth responses |
| Q52590892 | A mechanistic framework for auxin dependent Arabidopsis root hair elongation to low external phosphate. |
| Q34983671 | A regulated auxin minimum is required for seed dispersal in Arabidopsis |
| Q50448158 | A role for ABCB19-mediated polar auxin transport in seedling photomorphogenesis mediated by cryptochrome 1 and phytochrome B. |
| Q91639747 | A role for the auxin precursor anthranilic acid in root gravitropism via regulation of PIN-FORMED protein polarity and relocalisation in Arabidopsis |
| Q28538237 | ADP1 affects plant architecture by regulating local auxin biosynthesis |
| Q38974000 | Alleviation of Zn toxicity by low water availability |
| Q37708156 | Altered expression of maize PLASTOCHRON1 enhances biomass and seed yield by extending cell division duration. |
| Q50592198 | An auxin gradient and maximum in the Arabidopsis root apex shown by high-resolution cell-specific analysis of IAA distribution and synthesis. |
| Q60428625 | An endogenous carbon-sensing pathway triggers increased auxin flux and hypocotyl elongation |
| Q48229209 | An intrinsic microRNA timer regulates progressive decline in shoot regenerative capacity in plants. |
| Q55113206 | Arabidopsisgulliver1/superroot2-7identifies a metabolic basis for auxin and brassinosteroid synergy |
| Q37305208 | Arabidopsis WAT1 is a vacuolar auxin transport facilitator required for auxin homoeostasis. |
| Q33336995 | AtPIN4 mediates sink-driven auxin gradients and root patterning in Arabidopsis |
| Q55237602 | Author Correction: A mechanistic framework for auxin dependent Arabidopsis root hair elongation to low external phosphate. |
| Q55209433 | Author Correction: Rice auxin influx carrier OsAUX1 facilitates root hair elongation in response to low external phosphate |
| Q91422078 | Autoregulation of RCO by Low-Affinity Binding Modulates Cytokinin Action and Shapes Leaf Diversity |
| Q60428615 | Auxin - a simple compound with a profound effect on plant development |
| Q93016377 | Auxin Function in the Brown Alga Dictyota dichotoma |
| Q39174729 | Auxin and cytokinin regulate each other's levels via a metabolic feedback loop |
| Q46437075 | Auxin and light control of adventitious rooting in Arabidopsis require ARGONAUTE1. |
| Q56978734 | Auxin and strigolactone signaling are required for modulation of Arabidopsis shoot branching by nitrogen supply |
| Q60428641 | Auxin can act independently ofCRC,LUG,SEU,SPTandSTY1in style development but not apical-basal patterning of theArabidopsisgynoecium |
| Q60428618 | Auxin controls Arabidopsis anther dehiscence by regulating endothecium lignification and jasmonic acid biosynthesis |
| Q61847244 | Auxin export from proximal fruits drives arrest in competent inflorescence meristems |
| Q95832020 | Auxin export from proximal fruits drives arrest in temporally competent inflorescences |
| Q43143844 | Auxin metabolism and function in the multicellular brown alga Ectocarpus siliculosus |
| Q38081073 | Auxin metabolism and homeostasis during plant development |
| Q44874895 | Auxin minimum triggers the developmental switch from cell division to cell differentiation in the Arabidopsis root |
| Q46120463 | Auxin production by plant associated bacteria: impact on endogenous IAA content and growth of Triticum aestivum L. |
| Q43502020 | Auxin transport into cotyledons and cotyledon growth depend similarly on the ABCB19 Multidrug Resistance-like transporter |
| Q35737050 | Auxin-induced K+ channel expression represents an essential step in coleoptile growth and gravitropism. |
| Q46022240 | Auxin-mediated nitrate signalling by NRT1.1 participates in the adaptive response of Arabidopsis root architecture to the spatial heterogeneity of nitrate availability. |
| Q36161690 | Blue light regulates an auxin-induced K+-channel gene in the maize coleoptile |
| Q41489260 | Brassinosteroid signaling-dependent root responses to prolonged elevated ambient temperature |
| Q56026192 | Broad spectrum developmental role of Brachypodium AUX1 |
| Q46769508 | Cell cycle progression in the pericycle is not sufficient for SOLITARY ROOT/IAA14-mediated lateral root initiation in Arabidopsis thaliana |
| Q42517881 | Cell polarity signaling in Arabidopsis involves a BFA-sensitive auxin influx pathway |
| Q33361092 | Cell-Type-Specific Cytokinin Distribution within the Arabidopsis Primary Root Apex |
| Q98778497 | Cell-surface receptors enable perception of extracellular cytokinins |
| Q38950917 | Cell-type specific metabolic profiling of Arabidopsis thaliana protoplasts as a tool for plant systems biology |
| Q52689325 | Circadian clock components control daily growth activities by modulating cytokinin levels and cell division-associated gene expression in Populus trees. |
| Q46261207 | Combined transcriptome and translatome analyses reveal a role for tryptophan-dependent auxin biosynthesis in the control of DOG1-dependent seed dormancy |
| Q33342050 | Computer simulations reveal properties of the cell-cell signaling network at the shoot apex in Arabidopsis |
| Q89467474 | Conifers exhibit a characteristic inactivation of auxin to maintain tissue homeostasis |
| Q36000681 | Connective Auxin Transport in the Shoot Facilitates Communication between Shoot Apices |
| Q46730249 | Contrasting growth responses in lamina and petiole during neighbor detection depend on differential auxin responsiveness rather than different auxin levels |
| Q46438020 | Contrasting patterns of cytokinins between years in senescing aspen leaves |
| Q33335689 | Control of axillary bud initiation and shoot architecture in Arabidopsis through the SUPERSHOOT gene. |
| Q33347950 | Control of bud activation by an auxin transport switch |
| Q61861110 | Control of root meristem establishment in conifers |
| Q37628139 | Coordination of auxin and ethylene biosynthesis by the aminotransferase VAS1. |
| Q41474581 | Corrigendum: The epidermis coordinates auxin-induced stem growth in response to shade |
| Q34422650 | Cotyledon-Generated Auxin Is Required for Shade-Induced Hypocotyl Growth in Brassica rapa |
| Q34507212 | Cryptochromes Interact Directly with PIFs to Control Plant Growth in Limiting Blue Light |
| Q42476729 | Cytokinin regulation of auxin synthesis in Arabidopsis involves a homeostatic feedback loop regulated via auxin and cytokinin signal transduction |
| Q37018742 | Cytokinin signaling regulates cambial development in poplar |
| Q48171127 | Development of the Poplar-Laccaria bicolor Ectomycorrhiza Modifies Root Auxin Metabolism, Signaling, and Response |
| Q28345757 | Developmental regulation of indole-3-acetic acid turnover in Scots pine seedlings |
| Q37304827 | Dioxygenase-encoding AtDAO1 gene controls IAA oxidation and homeostasis in Arabidopsis |
| Q49033349 | Directional auxin transport mechanisms in early diverging land plants. |
| Q50461987 | Disruptions in AUX1-dependent auxin influx alter hypocotyl phototropism in Arabidopsis |
| Q21144891 | Disturbed local auxin homeostasis enhances cellular anisotropy and reveals alternative wiring of auxin-ethylene crosstalk in Brachypodium distachyon seminal roots |
| Q37304851 | Dynamic regulation of auxin oxidase and conjugating enzymes AtDAO1 and GH3 modulates auxin homeostasis |
| Q53059862 | Effect of light on growth and endogenous hormones in Chlorella minutissima (Trebouxiophyceae). |
| Q46337419 | Enhanced Secondary- and Hormone Metabolism in Leaves of Arbuscular Mycorrhizal Medicago truncatula |
| Q60428649 | Environmental deposition of PCDDs and PCDFs as determined by the analysis of snow samples from the Northern Sweden |
| Q90852114 | Epigenetic Regulation of Auxin Homeostasis |
| Q33344273 | Ethylene regulates root growth through effects on auxin biosynthesis and transport-dependent auxin distribution. |
| Q24673462 | Ethylene upregulates auxin biosynthesis in Arabidopsis seedlings to enhance inhibition of root cell elongation |
| Q33337042 | FLOOZY of petunia is a flavin mono-oxygenase-like protein required for the specification of leaf and flower architecture |
| Q60428632 | Fruit growth in Arabidopsis occurs via DELLA-dependent and DELLA-independent gibberellin responses |
| Q91450952 | HISTONE DEACETYLASE 9 stimulates auxin-dependent thermomorphogenesis in Arabidopsis thaliana by mediating H2A.Z depletion |
| Q50475797 | High-Resolution Cell-Type Specific Analysis of Cytokinins in Sorted Root Cell Populations of Arabidopsis thaliana. |
| Q51913064 | Homologues of the Arabidopsis thaliana SHI/STY/LRP1 genes control auxin biosynthesis and affect growth and development in the moss Physcomitrella patens. |
| Q33349308 | Hormonal control of the shoot stem-cell niche |
| Q37666541 | Identification of new adventitious rooting mutants amongst suppressors of the Arabidopsis thaliana superroot2 mutation |
| Q90075568 | Implantable Organic Electronic Ion Pump Enables ABA Hormone Delivery for Control of Stomata in an Intact Tobacco Plant |
| Q60428653 | Inheritance pattern of five monoterpenes in Scots pine (Pinus sylvestris L.) |
| Q33344888 | Inhibited polar auxin transport results in aberrant embryo development in Norway spruce |
| Q43158645 | Interplay between the NADP-linked thioredoxin and glutathione systems in Arabidopsis auxin signaling |
| Q61847246 | KAI2 regulates root and root hair development by modulating auxin distribution |
| Q33674430 | Light intensity modulates the regulatory network of the shade avoidance response in Arabidopsis |
| Q35914902 | Linking photoreceptor excitation to changes in plant architecture |
| Q47781958 | Local auxin biosynthesis modulates gradient-directed planar polarity in Arabidopsis |
| Q36849401 | Local auxin metabolism regulates environment-induced hypocotyl elongation |
| Q28362209 | Localization of the auxin permease AUX1 suggests two functionally distinct hormone transport pathways operate in the Arabidopsis root apex |
| Q42482004 | Maintenance of embryonic auxin distribution for apical-basal patterning by PIN-FORMED-dependent auxin transport in Arabidopsis. |
| Q41759169 | Modelling of Arabidopsis LAX3 expression suggests auxin homeostasis |
| Q125406301 | Modulating auxin response stabilizes tomato fruit set |
| Q89578260 | Natural Variation in Adventitious Rooting in the Alpine Perennial Arabis alpina |
| Q38513697 | New mechanistic links between sugar and hormone signalling networks |
| Q48694928 | Nitrate-regulated auxin transport by NRT1.1 defines a mechanism for nutrient sensing in plants. |
| Q112640033 | Nitrogen represses haustoria formation through abscisic acid in the parasitic plant Phtheirospermum japonicum |
| Q91236113 | PIN-driven auxin transport emerged early in streptophyte evolution |
| Q50790585 | Physiological and morphological changes during early and later stages of fruit growth in Capsicum annuum. |
| Q51789765 | Phytochrome interacting factors 4 and 5 control seedling growth in changing light conditions by directly controlling auxin signaling. |
| Q60428606 | Plant Hormonomics: Multiple Phytohormone Profiling by Targeted Metabolomics |
| Q49053343 | Plant development. Integration of growth and patterning during vascular tissue formation in Arabidopsis |
| Q120693730 | Plant roots sense soil compaction through restricted ethylene diffusion |
| Q60428646 | Polychlorinated dibenzo-p-dioxin and dibenzofuran levels and patterns in samples from different Swedish industries analyzed within the Swedish dioxin survey |
| Q60428651 | Precision and accuracy of radioimmunoassay in the analysis of endogenous 3-indoleacetic acid from needles of scots pine |
| Q60428640 | Quantification of indole-3-acetic acid from plant associated Bacillus spp. and their phytostimulatory effect on Vigna radiata (L.) |
| Q37377360 | REVEILLE1, a Myb-like transcription factor, integrates the circadian clock and auxin pathways |
| Q27650264 | Rapid Synthesis of Auxin via a New Tryptophan-Dependent Pathway Is Required for Shade Avoidance in Plants |
| Q43890127 | Reduced phototropism in pks mutants may be due to altered auxin-regulated gene expression or reduced lateral auxin transport |
| Q33650940 | Regulating plant physiology with organic electronics |
| Q46817261 | Regulation of auxin homeostasis and gradients in Arabidopsis roots through the formation of the indole-3-acetic acid catabolite 2-oxindole-3-acetic acid. |
| Q64079221 | Regulatory Diversification of INDEHISCENT in the Capsella Genus Directs Variation in Fruit Morphology |
| Q33345127 | Requirement of B2-type cyclin-dependent kinases for meristem integrity in Arabidopsis thaliana. |
| Q52590980 | Rice auxin influx carrier OsAUX1 facilitates root hair elongation in response to low external phosphate |
| Q37688401 | Role of polyamines in plant vascular development |
| Q33354910 | Root gravitropism and root hair development constitute coupled developmental responses regulated by auxin homeostasis in the Arabidopsis root apex |
| Q35849787 | Root gravitropism is regulated by a transient lateral auxin gradient controlled by a tipping-point mechanism |
| Q48208570 | SHADE AVOIDANCE 4 Is Required for Proper Auxin Distribution in the Hypocotyl |
| Q61833370 | Selective auxin agonists induce specific AUX/IAA protein degradation to modulate plant development |
| Q64118040 | Selective auxin agonists induce specific AUX/IAA protein degradation to modulate plant development |
| Q37279476 | Sequential induction of auxin efflux and influx carriers regulates lateral root emergence |
| Q43885807 | Shoot-derived auxin is essential for early lateral root emergence in Arabidopsis seedlings |
| Q33350021 | Short-Root regulates primary, lateral, and adventitious root development in Arabidopsis |
| Q43818380 | Sites and homeostatic control of auxin biosynthesis in Arabidopsis during vegetative growth. |
| Q33340986 | Sites and regulation of auxin biosynthesis in Arabidopsis roots |
| Q50772327 | Soluble carbohydrates regulate auxin biosynthesis via PIF proteins in Arabidopsis. |
| Q33356440 | Spatial coordination between stem cell activity and cell differentiation in the root meristem |
| Q33352618 | Strigolactone signaling is required for auxin-dependent stimulation of secondary growth in plants |
| Q33352402 | Subterranean space exploration: the development of root system architecture |
| Q64105450 | Surveillance of cell wall diffusion barrier integrity modulates water and solute transport in plants |
| Q60428638 | TFL2/LHP1 is involved in auxin biosynthesis through positive regulation of YUCCA genes |
| Q34973708 | The AFB4 auxin receptor is a negative regulator of auxin signaling in seedlings |
| Q33347898 | The AUXIN BINDING PROTEIN 1 is required for differential auxin responses mediating root growth |
| Q44862578 | The Arabidopsis YUCCA1 flavin monooxygenase functions in the indole-3-pyruvic acid branch of auxin biosynthesis |
| Q33364700 | The Arabidopsis bZIP11 transcription factor links low-energy signalling to auxin-mediated control of primary root growth. |
| Q51816689 | The Arabidopsis thaliana transcriptional activator STYLISH1 regulates genes affecting stamen development, cell expansion and timing of flowering. |
| Q46549850 | The Effects of High Steady State Auxin Levels on Root Cell Elongation in Brachypodium |
| Q48179359 | The PLETHORA Gene Regulatory Network Guides Growth and Cell Differentiation in Arabidopsis Roots |
| Q35857471 | The SUR2 gene of Arabidopsis thaliana encodes the cytochrome P450 CYP83B1, a modulator of auxin homeostasis |
| Q39507246 | The allelochemical MDCA inhibits lignification and affects auxin homeostasis |
| Q57209449 | The auxin influx carrier LAX3 promotes lateral root emergence |
| Q41870567 | The circadian clock rephases during lateral root organ initiation in Arabidopsis thaliana |
| Q37104711 | The epidermis coordinates auxin-induced stem growth in response to shade. |
| Q45850466 | Thermospermine levels are controlled by an auxin-dependent feedback loop mechanism in Populus xylem |
| Q28649925 | Three ancient hormonal cues co-ordinate shoot branching in a moss |
| Q91310904 | Tissue-specific hormone profiles from woody poplar roots under bending stress |
| Q50799957 | Tissue-specific profiling of the Arabidopsis thaliana auxin metabolome. |
| Q49819618 | Transcriptional stimulation of rate-limiting components of the autophagic pathway improves plant fitness |
| Q47770944 | Type B Response Regulators Act As Central Integrators in Transcriptional Control of the Auxin Biosynthesis Enzyme TAA1. |
| Q33344184 | Ubiquitin lysine 63 chain forming ligases regulate apical dominance in Arabidopsis |
| Q55291669 | Ultra-rapid auxin metabolite profiling for high-throughput mutant screening in Arabidopsis. |
| Q42503746 | Vectorial information for Arabidopsis planar polarity is mediated by combined AUX1, EIN2, and GNOM activity |
| Q89542190 | Vernalization shapes shoot architecture and ensures the maintenance of dormant buds in the perennial Arabis alpina |
| Q45795120 | WAT1 (WALLS ARE THIN1) defines a novel auxin transporter in plants and integrates auxin signaling in secondary wall formation in Arabidopsis fibers |
| Q38754516 | Zooming In on Plant Hormone Analysis: Tissue- and Cell-Specific Approaches |
| Q28818080 | cis-Cinnamic Acid Is a Novel, Natural Auxin Efflux Inhibitor That Promotes Lateral Root Formation |
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