scholarly article | Q13442814 |
P50 | author | Hitoshi Sakakibara | Q37840807 |
Mikiko Kojima | Q117266330 | ||
P2093 | author name string | Hitoshi Mori | |
Kentaro Takei | |||
Mina Tanaka | |||
P2860 | cites work | Analysis of cycles of dormancy and growth in pea axillary buds based on mRNA accumulation patterns of cell cycle-related genes | Q48038123 |
P433 | issue | 6 | |
P304 | page(s) | 1028-1036 | |
P577 | publication date | 2006-03-01 | |
P1433 | published in | The Plant Journal | Q15766987 |
P1476 | title | Auxin controls local cytokinin biosynthesis in the nodal stem in apical dominance | |
P478 | volume | 45 |
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Q38507732 | A new CULLIN 1 mutant has altered responses to hormones and light in Arabidopsis |
Q34798390 | A non-synonymous SNP within the isopentenyl transferase 2 locus is associated with kernel weight in Chinese maize inbreds (Zea mays L.). |
Q36213565 | ADP1 affects abundance and endocytosis of PIN-FORMED proteins in Arabidopsis |
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Q34912698 | Abscisic acid regulates axillary bud outgrowth responses to the ratio of red to far-red light |
Q63241272 | Antagonistic action of strigolactone and cytokinin in bud outgrowth control |
Q24676260 | Apical dominance and shoot branching. Divergent opinions or divergent mechanisms? |
Q46540450 | Apoplastic H2 O2 plays a critical role in axillary bud outgrowth by altering auxin and cytokinin homeostasis in tomato plants |
Q48081461 | Arabidopsis BRANCHED1 acts as an integrator of branching signals within axillary buds |
Q33351126 | AtMYB2 regulates whole plant senescence by inhibiting cytokinin-mediated branching at late stages of development in Arabidopsis |
Q46077706 | Auxin Produced by the Indole-3-Pyruvic Acid Pathway Regulates Development and Gemmae Dormancy in the Liverwort Marchantia polymorpha. |
Q50208459 | Auxin and chloroplast movements |
Q46930572 | Auxin is a central player in the hormone cross-talks that control adventitious rooting. |
Q39079523 | Auxin synthesis gene tms1 driven by tuber-specific promoter alters hormonal status of transgenic potato plants and their responses to exogenous phytohormones. |
Q33351030 | Auxin, cytokinin and the control of shoot branching |
Q37313933 | Auxin-cytokinin interactions in the control of shoot branching |
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Q37683563 | Axillary bud outgrowth in herbaceous shoots: how do strigolactones fit into the picture? |
Q64252238 | BRANCHED1: A Key Hub of Shoot Branching |
Q46713600 | Basipetal auxin versus acropetal cytokinin transport, and their interaction with NO3 fertilisation in cotyledon senescence and sink:source relationships in cucumber (Cucumis sativus L.). |
Q36634202 | CONSTANS-LIKE 7 regulates branching and shade avoidance response in Arabidopsis |
Q33363780 | Change in Auxin and Cytokinin Levels Coincides with Altered Expression of Branching Genes during Axillary Bud Outgrowth in Chrysanthemum |
Q34986895 | Characterization of a purine permease family gene OsPUP7 involved in growth and development control in rice |
Q42638460 | Characterization of genes involved in cytokinin signaling and metabolism from rice |
Q48728059 | Chemical proteomic analysis of 6-benzylaminopurine molecular partners in wheat grains. |
Q42261980 | Chilling Affects Phytohormone and Post-Embryonic Development Pathways during Bud Break and Fruit Set in Apple (Malus domestica Borkh.). |
Q36512283 | Chrysanthemum transcription factor CmLBD1 direct lateral root formation in Arabidopsis thaliana |
Q48066886 | Computational modeling and molecular physiology experiments reveal new insights into shoot branching in pea. |
Q63241267 | Conditional Auxin Response and Differential Cytokinin Profiles in Shoot Branching Mutants |
Q47936147 | Constitutive expression of the Poplar FD-like basic leucine zipper transcription factor alters growth and bud development |
Q33347950 | Control of bud activation by an auxin transport switch |
Q37836473 | Cross talk between the sporophyte and the megagametophyte during ovule development. |
Q56978693 | Cytokinin Targets Auxin Transport to Promote Shoot Branching |
Q43049426 | Cytokinin and auxin regulates WUS induction and inflorescence regeneration in vitro in Arabidopsis |
Q93002658 | Cytokinin inhibits cotton fiber initiation by disrupting PIN3a-mediated asymmetric accumulation of auxin in the ovule epidermis |
Q36404721 | Cytokinin is required for escape but not release from auxin mediated apical dominance |
Q42476729 | Cytokinin regulation of auxin synthesis in Arabidopsis involves a homeostatic feedback loop regulated via auxin and cytokinin signal transduction |
Q36899279 | Cytokinin, auxin and physiological polarity in the aquatic carnivorous plants Aldrovanda vesiculosa and Utricularia australis |
Q48141157 | Cytokinins Are Initial Targets of Light in the Control of Bud Outgrowth |
Q42700480 | Cytokinins and Abscisic Acid Act Antagonistically in the Regulation of the Bud Outgrowth Pattern by Light Intensity |
Q34983095 | DWARF27, an iron-containing protein required for the biosynthesis of strigolactones, regulates rice tiller bud outgrowth |
Q50522785 | Deficiency in riboflavin biosynthesis affects tetrapyrrole biosynthesis in etiolated Arabidopsis tissue. |
Q55347456 | Developmental Pathways Are Blueprints for Designing Successful Crops. |
Q51889892 | Distribution, biological activities, metabolism, and the conceivable function of cis-zeatin-type cytokinins in plants. |
Q30920846 | Dominance induction of fruitlet shedding in Malus x domestica (L. Borkh): molecular changes associated with polar auxin transport |
Q35119813 | Dwarf Tiller1, a Wuschel-related homeobox transcription factor, is required for tiller growth in rice |
Q33355736 | EBE, an AP2/ERF transcription factor highly expressed in proliferating cells, affects shoot architecture in Arabidopsis |
Q42446356 | Early steps of adventitious rooting: morphology, hormonal profiling and carbohydrate turnover in carnation stem cuttings |
Q36816777 | Effect of ZnO Nanoparticles on Brassica nigra Seedlings and Stem Explants: Growth Dynamics and Antioxidative Response |
Q26829990 | Enzyme action in the regulation of plant hormone responses |
Q37842012 | Evolution of cytokinin biosynthesis and degradation. |
Q42092231 | Existing branches correlatively inhibit further branching in Trifolium repens: possible mechanisms |
Q60939020 | Exogenous Hormonal Application Regulates the Occurrence of Wheat Tillers by Changing Endogenous Hormones |
Q33353447 | FHY3 promotes shoot branching and stress tolerance in Arabidopsis in an AXR1-dependent manner |
Q33349244 | FINE CULM1 (FC1) works downstream of strigolactones to inhibit the outgrowth of axillary buds in rice |
Q33343688 | Feedback regulation of xylem cytokinin content is conserved in pea and Arabidopsis |
Q53701584 | Genome-Wide Identification and Expression Profiling of Cytokinin Oxidase/Dehydrogenase (CKX) Genes Reveal Likely Roles in Pod Development and Stress Responses in Oilseed Rape (Brassica napus L.). |
Q35911899 | Gibberellin Promotes Shoot Branching in the Perennial Woody Plant Jatropha curcas |
Q42369664 | Global transcriptome analysis of the maize (Zea mays L.) inbred line 08LF during leaf senescence initiated by pollination-prevention. |
Q37258999 | Highly sensitive and high-throughput analysis of plant hormones using MS-probe modification and liquid chromatography-tandem mass spectrometry: an application for hormone profiling in Oryza sativa |
Q33346546 | Hormonal regulation of branching in grasses |
Q54474564 | Identification and characterization of HTD2: a novel gene negatively regulating tiller bud outgrowth in rice. |
Q55086414 | Identification and expression analysis of cytokinin metabolic genes IPTs, CYP735A and CKXs in the biofuel plant Jatropha curcas. |
Q37717842 | Information processing without brains--the power of intercellular regulators in plants |
Q42509510 | Inhibition of tiller bud outgrowth in the tin mutant of wheat is associated with precocious internode development |
Q56978823 | Interactions between auxin and strigolactone in shoot branching control |
Q33361450 | KNOTTED1-LIKE HOMEOBOX 3: a new regulator of symbiotic nodule development |
Q33363444 | Knockdown of strigolactone biosynthesis genes in Populus affects BRANCHED1 expression and shoot architecture |
Q33364744 | Lack of Cytosolic Glutamine Synthetase1;2 Activity Reduces Nitrogen-Dependent Biosynthesis of Cytokinin Required for Axillary Bud Outgrowth in Rice Seedlings |
Q33363064 | Light Signaling in Bud Outgrowth and Branching in Plants. |
Q38853987 | Light influences cytokinin biosynthesis and sensing in Nostoc (cyanobacteria). |
Q28727147 | Manipulation of plant architecture to enhance lignocellulosic biomass |
Q60017733 | Metabolism of plant hormones cytokinins and their function in signaling, cell differentiation and plant development |
Q36328171 | Microarray analysis reveals overlapping and specific transcriptional responses to different plant hormones in rice |
Q31161091 | Modeling hormonal control of cambium proliferation |
Q34611965 | Molecular aspects of somatic-to-embryogenic transition in plants |
Q38284629 | Molecular basis of angiosperm tree architecture |
Q57476716 | Molecular role of cytokinin in bud activation and outgrowth in apple branching based on transcriptomic analysis |
Q91703943 | Morpho-physiological integrators, transcriptome and coexpression network analyses signify the novel molecular signatures associated with axillary bud in chrysanthemum |
Q43103496 | Multiple pathways regulate shoot branching. |
Q33354298 | Mutation of the cytosolic ribosomal protein-encoding RPS10B gene affects shoot meristematic function in Arabidopsis |
Q33357018 | N-MYC down-regulated-like proteins regulate meristem initiation by modulating auxin transport and MAX2 expression |
Q42925954 | Nitrogen-dependent regulation of de novo cytokinin biosynthesis in rice: the role of glutamine metabolism as an additional signal |
Q58719661 | Overexpression of an auxin receptor OsAFB6 significantly enhanced grain yield by increasing cytokinin and decreasing auxin concentrations in rice panicle |
Q53664848 | Photosynthetic leaf area modulates tiller bud outgrowth in sorghum. |
Q50530411 | Photosynthetic photon flux density and phytochrome B interact to regulate branching in Arabidopsis. |
Q53175413 | Physiological controls of chrysanthemum DgD27 gene expression in regulation of shoot branching. |
Q84989215 | Phytostimulation and biofertilization in wheat by cyanobacteria |
Q39414894 | Plants under Stress: Involvement of Auxin and Cytokinin |
Q51867475 | Proper gibberellin localization in vascular tissue is required to control auxin-dependent leaf development and bud outgrowth in hybrid aspen. |
Q36274683 | PsRBR1 encodes a pea retinoblastoma-related protein that is phosphorylated in axillary buds during dormancy-to-growth transition |
Q35660587 | Rapid and sensitive hormonal profiling of complex plant samples by liquid chromatography coupled to electrospray ionization tandem mass spectrometry. |
Q41826730 | Regulation of correlative inhibition of axillary bud outgrowth by basal branches varies with growth stage in Trifolium repens |
Q44617256 | Reproductive organs regulate leaf nitrogen metabolism mediated by cytokinin signal |
Q33342096 | Role of cytokinin and auxin in shaping root architecture: regulating vascular differentiation, lateral root initiation, root apical dominance and root gravitropism |
Q36239653 | Roles and regulation of cytokinins in tomato fruit development |
Q63241274 | Roles for auxin, cytokinin, and strigolactone in regulating shoot branching |
Q34684958 | Roles of DgBRC1 in regulation of lateral branching in chrysanthemum (Dendranthema ×grandiflora cv. Jinba). |
Q50780159 | Root-derived auxin contributes to the phosphorus-deficiency-induced cluster-root formation in white lupin (Lupinus albus). |
Q33361822 | SUPPRESSOR OF APICAL DOMINANCE1 of Sporisorium reilianum Modulates Inflorescence Branching Architecture in Maize and Arabidopsis |
Q33360573 | Shaping plant architecture |
Q37856197 | Signal integration in the control of shoot branching |
Q33361013 | Strigolactone Inhibition of Branching Independent of Polar Auxin Transport. |
Q34605819 | Strigolactone acts downstream of auxin to regulate bud outgrowth in pea and Arabidopsis |
Q33355235 | Strigolactone can promote or inhibit shoot branching by triggering rapid depletion of the auxin efflux protein PIN1 from the plasma membrane |
Q90030131 | Strigolactone-Based Node-to-Bud Signaling May Restrain Shoot Branching in Hybrid Aspen |
Q27649810 | Structural insight into the reaction mechanism and evolution of cytokinin biosynthesis |
Q37179849 | Sucrose is an early modulator of the key hormonal mechanisms controlling bud outgrowth in Rosa hybrida. |
Q64889487 | Sugar-induced de novo cytokinin biosynthesis contributes to Arabidopsis growth under elevated CO2. |
Q43102086 | The BUD2 mutation affects plant architecture through altering cytokinin and auxin responses in Arabidopsis |
Q33354854 | The florigen genes FT and TSF modulate lateral shoot outgrowth in Arabidopsis thaliana |
Q53486528 | The interaction between nitrogen availability and auxin, cytokinin, and strigolactone in the control of shoot branching in rice (Oryza sativa L.). |
Q38115780 | The interaction between strigolactones and other plant hormones in the regulation of plant development |
Q34785730 | The metabolic basis of pollen thermo-tolerance: perspectives for breeding |
Q48054848 | The pea TCP transcription factor PsBRC1 acts downstream of Strigolactones to control shoot branching. |
Q46894580 | The pea branching RMS2 gene encodes the PsAFB4/5 auxin receptor and is involved in an auxin-strigolactone regulation loop. |
Q39034923 | The ratio of red light to far red light alters Arabidopsis axillary bud growth and abscisic acid signalling before stem auxin changes |
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