| scholarly article | Q13442814 |
| P356 | DOI | 10.1007/S10265-015-0710-2 |
| P698 | PubMed publication ID | 25801271 |
| P50 | author | Mitsunori Seo | Q112539768 |
| Yuji Kamiya | Q39182681 | ||
| Tomokazu Koshiba | Q54652840 | ||
| Takafumi Shimizu | Q59692636 | ||
| P2093 | author name string | Yuri Kanno | |
| Yasutaka Chiba | |||
| Shinya Miyakawa | |||
| P2860 | cites work | Stamen-derived bioactive gibberellin is essential for male flower development of Cucurbita maxima L | Q24627849 |
| Crystal structure of the plant dual-affinity nitrate transporter NRT1.1 | Q27681919 | ||
| Molecular basis of nitrate uptake by the plant nitrate transporter NRT1.1 | Q27681921 | ||
| Designed abscisic acid analogs as antagonists of PYL-PP2C receptor interactions | Q27690143 | ||
| AtPTR3, a wound-induced peptide transporter needed for defence against virulent bacterial pathogens in Arabidopsis | Q64018814 | ||
| The Five "Classical" Plant Hormones | Q74801411 | ||
| Transportation of de novo synthesized jasmonoyl isoleucine in tomato | Q84812058 | ||
| Arabidopsis ABCG14 protein controls the acropetal translocation of root-synthesized cytokinins | Q87264598 | ||
| Identification of an abscisic acid transporter by functional screening using the receptor complex as a sensor | Q30519182 | ||
| Drought induction of Arabidopsis 9-cis-epoxycarotenoid dioxygenase occurs in vascular parenchyma cells | Q33343412 | ||
| Arabidopsis ABCG14 is essential for the root-to-shoot translocation of cytokinin | Q33627112 | ||
| PDR-type ABC transporter mediates cellular uptake of the phytohormone abscisic acid | Q33719735 | ||
| ABC transporter AtABCG25 is involved in abscisic acid transport and responses | Q33719885 | ||
| AUX/LAX family of auxin influx carriers-an overview | Q34307487 | ||
| Auxin transport. | Q34438427 | ||
| Auxin transport routes in plant development | Q34610256 | ||
| Functional expression and characterization of Arabidopsis ABCB, AUX 1 and PIN auxin transporters in Schizosaccharomyces pombe | Q34967816 | ||
| Nitrate transporters and peptide transporters | Q36811703 | ||
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| Plant hormones are versatile chemical regulators of plant growth. | Q37450755 | ||
| Recent advances and emerging trends in plant hormone signalling | Q37530438 | ||
| Plant nuclear hormone receptors: a role for small molecules in protein-protein interactions | Q37768786 | ||
| Transport of ABA from the site of biosynthesis to the site of action. | Q37854518 | ||
| ABA transport and transporters. | Q38085882 | ||
| PIN-driven polar auxin transport in plant developmental plasticity: a key target for environmental and endogenous signals. | Q38215130 | ||
| The nitrate transporter AtNRT1.1 (CHL1) functions in stomatal opening and contributes to drought susceptibility in Arabidopsis. | Q39036806 | ||
| Tissue-specific localization of an abscisic acid biosynthetic enzyme, AAO3, in Arabidopsis. | Q39143646 | ||
| A DTX/MATE-type transporter facilitates abscisic acid efflux and modulates ABA sensitivity and drought tolerance in Arabidopsis | Q39625641 | ||
| The Arabidopsis nitrate transporter NRT1.8 functions in nitrate removal from the xylem sap and mediates cadmium tolerance | Q43477521 | ||
| The Arabidopsis nitrate transporter NRT1.7, expressed in phloem, is responsible for source-to-sink remobilization of nitrate | Q44246767 | ||
| A unified nomenclature of NITRATE TRANSPORTER 1/PEPTIDE TRANSPORTER family members in plants. | Q44935113 | ||
| Preparation and biological activity of molecular probes to identify and analyze jasmonic acid-binding proteins. | Q44995880 | ||
| A petunia ABC protein controls strigolactone-dependent symbiotic signalling and branching | Q46048705 | ||
| Cloning and functional characterization of an Arabidopsis nitrate transporter gene that encodes a constitutive component of low-affinity uptake | Q47937395 | ||
| Characterization of the Arabidopsis nitrate transporter NRT1.6 reveals a role of nitrate in early embryo development. | Q48072108 | ||
| Two phloem nitrate transporters, NRT1.11 and NRT1.12, are important for redistributing xylem-borne nitrate to enhance plant growth | Q48618383 | ||
| NRT/PTR transporters are essential for translocation of glucosinolate defence compounds to seeds | Q48642730 | ||
| Arabidopsis nitrate transporter NRT1.9 is important in phloem nitrate transport. | Q48673355 | ||
| Nitrate-regulated auxin transport by NRT1.1 defines a mechanism for nutrient sensing in plants. | Q48694928 | ||
| Mutation of the Arabidopsis NRT1.5 nitrate transporter causes defective root-to-shoot nitrate transport | Q48739003 | ||
| AtPTR1 and AtPTR5 transport dipeptides in planta | Q48739946 | ||
| Identification and characterization of Arabidopsis gibberellin receptors. | Q53596909 | ||
| P433 | issue | 4 | |
| P921 | main subject | Arabidopsis thaliana | Q158695 |
| P304 | page(s) | 679-686 | |
| P577 | publication date | 2015-03-24 | |
| P1433 | published in | Journal of Plant Research | Q13548562 |
| P1476 | title | Identification of Arabidopsis thaliana NRT1/PTR FAMILY (NPF) proteins capable of transporting plant hormones | |
| P478 | volume | 128 |
| Q26777565 | A Century of Gibberellin Research |
| Q36366547 | Abscisic acid and other plant hormones: Methods to visualize distribution and signaling |
| Q40850742 | AtNPF2.5 Modulates Chloride (Cl-) Efflux from Roots of Arabidopsis thaliana. |
| Q37393196 | AtSWEET13 and AtSWEET14 regulate gibberellin-mediated physiological processes |
| Q91948019 | Characterizing gibberellin flow in planta using photocaged gibberellins |
| Q47264930 | Comparative Analysis of Fruit Ripening-Related miRNAs and Their Targets in Blueberry Using Small RNA and Degradome Sequencing |
| Q57817627 | Comparative Transcriptomic Analysis of Two Actinorhizal Plants and the Legume Supports the Homology of Root Nodule Symbioses and Is Congruent With a Two-Step Process of Evolution in the Nitrogen-Fixing Clade of Angiosperms |
| Q58778135 | Copper excess reduces nitrate uptake by Arabidopsis roots with specific effects on gene expression |
| Q42369110 | Dancing with Hormones: A Current Perspective of Nitrate Signaling and Regulation in Arabidopsis |
| Q52647938 | Differential Regulation of Genes Involved in Root Morphogenesis and Cell Wall Modification is Associated with Salinity Tolerance in Chickpea. |
| Q48519650 | Dimerization of GTR1 regulates their plasma membrane localization. |
| Q40431860 | Dynamic expression analysis of early response genes induced by potato virus Y in PVY-resistant Nicotiana tabacum |
| Q50061968 | Environmental nitrate signals through abscisic acid in the root tip. |
| Q64100457 | Field transcriptome revealed a novel relationship between nitrate transport and flowering in Japanese beech |
| Q90345324 | Functional Characterization of the Arabidopsis Abscisic Acid Transporters NPF4.5 and NPF4.6 in Xenopus Oocytes |
| Q90751134 | Genetic mechanisms in the repression of flowering by gibberellins in apple (Malus x domestica Borkh.). |
| Q37590566 | Identification of Submergence-Responsive MicroRNAs and Their Targets Reveals Complex MiRNA-Mediated Regulatory Networks in Lotus (Nelumbo nucifera Gaertn). |
| Q58608780 | Identification of candidate genes for leaf scorch in Populus deltoids by the whole genome resequencing analysis |
| Q64233450 | Introgression of resistance to Rhopalosiphum padi L. from wild barley into cultivated barley facilitated by doubled haploid and molecular marker techniques |
| Q37363729 | Knock-Down of a Tonoplast Localized Low-Affinity Nitrate Transporter OsNPF7.2 Affects Rice Growth under High Nitrate Supply |
| Q28833949 | Long-distance transport of endogenous gibberellins in Arabidopsis |
| Q55316120 | Molecular basis of autotrophic vs mixotrophic growth in Chlorella sorokiniana. |
| Q46499842 | N availability modulates the role of NPF3.1, a gibberellin transporter, in GA-mediated phenotypes in Arabidopsis |
| Q93042592 | Peptide transporter2 (PTR2) enhances water uptake during early seed germination in Arabidopsis thaliana |
| Q26738313 | Phosphate Uptake and Allocation - A Closer Look at Arabidopsis thaliana L. and Oryza sativa L |
| Q42633697 | Plant hormone transporters: what we know and what we would like to know |
| Q52673687 | Probing binding specificity of the sucrose transporter AtSUC2 with fluorescent coumarin glucosides. |
| Q46404905 | Reduction of antinutritional glucosinolates in Brassica oilseeds by mutation of genes encoding transporters. |
| Q37747110 | Seed Biology Updates - Highlights and New Discoveries in Seed Dormancy and Germination Research |
| Q49829669 | Single-Molecule Fluorescence Methods to Study Plant Hormone Signal Transduction Pathways |
| Q96608181 | Single-base cytosine methylation analysis in fruits of three Capsicum species |
| Q48255370 | TEMPRANILLO Reveals the Mesophyll as Crucial for Epidermal Trichome Formation. |
| Q97545536 | Tandem mass tag-based (TMT) quantitative proteomics analysis reveals the response of fine roots to drought stress in cotton (Gossypium hirsutum L.). |
| Q36871699 | The Arabidopsis NPF3 protein is a GA transporter |
| Q59793657 | The Expected and Unexpected Roles of Nitrate Transporters in Plant Abiotic Stress Resistance and Their Regulation |
| Q47770953 | The Nitrate Transporter Family Protein LjNPF8.6 Controls the N-Fixing Nodule Activity. |
| Q36689975 | The Pokeweed Leaf mRNA Transcriptome and Its Regulation by Jasmonic Acid |
| Q64262873 | The makings of a gradient: spatiotemporal distribution of gibberellins in plant development |
| Q47119342 | Tobacco plants expressing the maize nitrate transporter ZmNrt2.1 exhibit altered responses of growth and gene expression to nitrate and calcium. |
| Q33811752 | Transcriptional mechanisms associated with seed dormancy and dormancy loss in the gibberellin-insensitive sly1-2 mutant of Arabidopsis thaliana |
| Q55344906 | Transcriptome analysis of Petunia axillaris flowers reveals genes involved in morphological differentiation and metabolite transport. |
| Q64085046 | Transporter-Mediated Subcellular Distribution in the Metabolism and Signaling of Jasmonates |
| Q50530076 | Trichome Formation: Gibberellins on the Move. |
| Q28596993 | Whole Genome Sequencing Reveals Potential New Targets for Improving Nitrogen Uptake and Utilization in Sorghum bicolor |
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