| P50 | author | Mark Estelle | Q87457173 |
| | Luz Irina A. Calderón Villalobos | Q56395926 |
| P2093 | author name string | Aaron Santner | |
| P2860 | cites work | Interdependency of brassinosteroid and auxin signaling in Arabidopsis | Q21146414 |
| | Mechanism of auxin perception by the TIR1 ubiquitin ligase | Q27644361 |
| | Small-molecule agonists and antagonists of F-box protein-substrate interactions in auxin perception and signaling | Q27650234 |
| | Rapid Synthesis of Auxin via a New Tryptophan-Dependent Pathway Is Required for Shade Avoidance in Plants | Q27650264 |
| | Gibberellin-induced DELLA recognition by the gibberellin receptor GID1 | Q27653004 |
| | Structural basis for gibberellin recognition by its receptor GID1 | Q27653005 |
| | Mechanisms underlying ubiquitination | Q27860656 |
| | Systemic acquired resistance: the elusive signal(s) | Q28286619 |
| | Ethylene biosynthesis and signaling: an overview | Q28298539 |
| | SCF and Cullin/Ring H2-based ubiquitin ligases | Q29547637 |
| | Jasmonates: an update on biosynthesis, signal transduction and action in plant stress response, growth and development | Q30319824 |
| | MAX1 and MAX2 control shoot lateral branching in Arabidopsis. | Q33336955 |
| | Expression profiling of cytokinin action in Arabidopsis | Q33338622 |
| | The PIN auxin efflux facilitator network controls growth and patterning in Arabidopsis roots | Q33340720 |
| | An auxin-driven polarized transport model for phyllotaxis | Q33342021 |
| | A plausible model of phyllotaxis | Q33342047 |
| | The Arabidopsis MAX pathway controls shoot branching by regulating auxin transport | Q33342207 |
| | Direct control of shoot meristem activity by a cytokinin-activating enzyme | Q33343714 |
| | Molecular and cellular aspects of auxin-transport-mediated development | Q33343843 |
| | Gibberellin metabolism and its regulation | Q33345036 |
| | Cytokinin signaling: two-components and more | Q33345185 |
| | Developmental patterning by mechanical signals in Arabidopsis | Q33346441 |
| | The control of shoot branching: an example of plant information processing | Q33346598 |
| | The GCR2 gene family is not required for ABA control of seed germination and early seedling development in Arabidopsis | Q33361620 |
| | The BTB ubiquitin ligases ETO1, EOL1 and EOL2 act collectively to regulate ethylene biosynthesis in Arabidopsis by controlling type-2 ACC synthase levels | Q33594365 |
| | 'Green revolution' genes encode mutant gibberellin response modulators. | Q33869122 |
| | The F-box subunit of the SCF E3 complex is encoded by a diverse superfamily of genes in Arabidopsis | Q34039111 |
| | Auxin regulates SCF(TIR1)-dependent degradation of AUX/IAA proteins | Q34102315 |
| | Auxin promotes Arabidopsis root growth by modulating gibberellin response | Q34180368 |
| | The ArabidopsisSLEEPY1Gene Encodes a Putative F-Box Subunit of an SCF E3 Ubiquitin Ligase[W] | Q34194020 |
| | Abscisic acid biosynthesis and catabolism | Q34414861 |
| | GIBBERELLIN INSENSITIVE DWARF1 encodes a soluble receptor for gibberellin | Q34455293 |
| | Cytokinins: activity, biosynthesis, and translocation | Q34521043 |
| | Systemic acquired resistance. | Q34549706 |
| | Auxin: regulation, action, and interaction. | Q34555744 |
| | F-box proteins everywhere. | Q34569323 |
| | Genetic characterization and functional analysis of the GID1 gibberellin receptors in Arabidopsis. | Q34595855 |
| | The DELLA domain of GA INSENSITIVE mediates the interaction with the GA INSENSITIVE DWARF1A gibberellin receptor of Arabidopsis. | Q34617019 |
| | The JAZ family of repressors is the missing link in jasmonate signalling. | Q34652938 |
| | Auxin action in a cell-free system | Q44558578 |
| | Comprehensive comparison of auxin-regulated and brassinosteroid-regulated genes in Arabidopsis | Q44816988 |
| | A Link between ethylene and auxin uncovered by the characterization of two root-specific ethylene-insensitive mutants in Arabidopsis | Q44862795 |
| | TAA1-mediated auxin biosynthesis is essential for hormone crosstalk and plant development | Q44873509 |
| | Regulation of ethylene gas biosynthesis by the Arabidopsis ETO1 protein. | Q44876592 |
| | Unique and overlapping expression patterns among the Arabidopsis 1-amino-cyclopropane-1-carboxylate synthase gene family members | Q45091388 |
| | The barley magnesium chelatase 150-kd subunit is not an abscisic acid receptor | Q46142280 |
| | Two novel GPCR-type G proteins are abscisic acid receptors in Arabidopsis | Q46168141 |
| | Arginase-negative mutants of Arabidopsis exhibit increased nitric oxide signaling in root development. | Q46528852 |
| | A new path to auxin | Q46589336 |
| | KEEP ON GOING, a RING E3 ligase essential for Arabidopsis growth and development, is involved in abscisic acid signaling | Q46691170 |
| | A molecular framework for light and gibberellin control of cell elongation | Q46793609 |
| | Cytokinins act directly on lateral root founder cells to inhibit root initiation | Q46861417 |
| | Genetic characterization reveals no role for the reported ABA receptor, GCR2, in ABA control of seed germination and early seedling development in Arabidopsis | Q46982351 |
| | The Mg-chelatase H subunit is an abscisic acid receptor | Q48084011 |
| | Auxin transport is sufficient to generate a maximum and gradient guiding root growth. | Q53520095 |
| | A cytokinin perception mutant colonized by Rhizobium in the absence of nodule organogenesis. | Q53587892 |
| | Identification and characterization of Arabidopsis gibberellin receptors. | Q53596909 |
| | JAZ repressor proteins are targets of the SCFCOI1 complex during jasmonate signalling | Q58619723 |
| | BRX mediates feedback between brassinosteroid levels and auxin signalling in root growth | Q59076569 |
| | TOPLESS mediates auxin-dependent transcriptional repression during Arabidopsis embryogenesis | Q80656858 |
| | A G protein-coupled receptor is a plasma membrane receptor for the plant hormone abscisic acid | Q34653633 |
| | Comment on "A G protein coupled receptor is a plasma membrane receptor for the plant hormone abscisic acid". | Q34655374 |
| | Coordinated regulation of Arabidopsis thaliana development by light and gibberellins. | Q34740504 |
| | Inhibition of shoot branching by new terpenoid plant hormones | Q34806117 |
| | Strigolactone inhibition of shoot branching | Q34806131 |
| | A subset of Arabidopsis AP2 transcription factors mediates cytokinin responses in concert with a two-component pathway | Q34984316 |
| | The TIR1 protein of Arabidopsis functions in auxin response and is related to human SKP2 and yeast grr1p | Q35188352 |
| | A role for the ubiquitin–26S-proteasome pathway in gibberellin signaling | Q35558653 |
| | A DELLAcate balance: the role of gibberellin in plant morphogenesis | Q36011110 |
| | One rotten apple spoils the whole bushel: the role of ethylene in fruit ripening | Q36357108 |
| | Receptors for auxin: will it all end in TIRs? | Q36431410 |
| | Guard cell ABA and CO2 signaling network updates and Ca2+ sensor priming hypothesis. | Q36607792 |
| | COI1 is a critical component of a receptor for jasmonate and the bacterial virulence factor coronatine | Q36657504 |
| | Mechanisms of cross talk between gibberellin and other hormones | Q36872643 |
| | Perception and transduction of abscisic acid signals: keys to the function of the versatile plant hormone ABA. | Q36880668 |
| | Ethylene signaling: new levels of complexity and regulation | Q36925468 |
| | Auxin response factors | Q36953926 |
| | The CLE family of plant polypeptide signaling molecules. | Q37011806 |
| | Understanding gibberellic acid signaling--are we there yet? | Q37031120 |
| | Molecular aspects of seed dormancy | Q37079159 |
| | Cytokinin: secret agent of symbiosis | Q37093149 |
| | Interplay between ethylene, ETP1/ETP2 F-box proteins, and degradation of EIN2 triggers ethylene responses in Arabidopsis | Q37111295 |
| | A critical role of two positively charged amino acids in the Jas motif of Arabidopsis JAZ proteins in mediating coronatine- and jasmonoyl isoleucine-dependent interactions with the COI1 F-box protein | Q37121890 |
| | Arabidopsis Hormone Database: a comprehensive genetic and phenotypic information database for plant hormone research in Arabidopsis | Q37202719 |
| | Auxin receptors and plant development: a new signaling paradigm | Q37217728 |
| | PIN polar targeting | Q37234801 |
| | Modelling root growth and development. | Q37246079 |
| | The ABA receptors -- we report you decide | Q37261838 |
| | Ethylene biosynthesis: Identification of 1-aminocyclopropane-1-carboxylic acid as an intermediate in the conversion of methionine to ethylene | Q37310893 |
| | Auxin-induced SCFTIR1-Aux/IAA interaction involves stable modification of the SCFTIR1 complex | Q37485200 |
| | The AIP2 E3 ligase acts as a novel negative regulator of ABA signaling by promoting ABI3 degradation | Q38324003 |
| | Cullins 3a and 3b assemble with members of the broad complex/tramtrack/bric-a-brac (BTB) protein family to form essential ubiquitin-protein ligases (E3s) in Arabidopsis. | Q38329727 |
| | Ethylene regulates arabidopsis development via the modulation of DELLA protein growth repressor function | Q39388102 |
| | Accumulation of phosphorylated repressor for gibberellin signaling in an F-box mutant | Q42595353 |
| | COI1: an Arabidopsis gene required for jasmonate-regulated defense and fertility | Q42677452 |
| P433 | issue | 5 | |
| P921 | main subject | plant development | Q3045481 |
| P304 | page(s) | 301-307 | |
| P577 | publication date | 2009-05-01 | |
| P1433 | published in | Nature Chemical Biology | Q904026 |
| P1476 | title | Plant hormones are versatile chemical regulators of plant growth | |
| P478 | volume | 5 | |