| scholarly article | Q13442814 |
| P50 | author | Amanda Rasmussen | Q64667716 |
| P2093 | author name string | Danny Geelen | |
| Seyed Abdollah Hosseini | |||
| Uwe Druege | |||
| Mohammed-Reza Hajirezaei | |||
| P2860 | cites work | Highly Branched Phenotype of the Petunia dad1-1 Mutant Is Reversed by Grafting | Q74776395 |
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| MAX1 and MAX2 control shoot lateral branching in Arabidopsis. | Q33336955 | ||
| PROLIFERATING INFLORESCENCE MERISTEM, a MADS-box gene that regulates floral meristem identity in pea. | Q33337403 | ||
| Cytokinin-deficient transgenic Arabidopsis plants show multiple developmental alterations indicating opposite functions of cytokinins in the regulation of shoot and root meristem activity. | Q33339328 | ||
| DETERMINATE and LATE FLOWERING are two TERMINAL FLOWER1/CENTRORADIALIS homologs that control two distinct phases of flowering initiation and development in pea. | Q33339342 | ||
| The Decreased apical dominance1/Petunia hybrida CAROTENOID CLEAVAGE DIOXYGENASE8 gene affects branch production and plays a role in leaf senescence, root growth, and flower development | Q33340862 | ||
| Adventitious rooting is enhanced by methyl jasmonate in tobacco thin cell layers | Q33348126 | ||
| Strigolactone can promote or inhibit shoot branching by triggering rapid depletion of the auxin efflux protein PIN1 from the plasma membrane | Q33355235 | ||
| When stress and development go hand in hand: main hormonal controls of adventitious rooting in cuttings | Q33355916 | ||
| F-box protein MAX2 has dual roles in karrikin and strigolactone signaling in Arabidopsis thaliana | Q34183769 | ||
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| Phase change and the regulation of developmental timing in plants. | Q35180356 | ||
| Systemic signaling in the wound response | Q36154065 | ||
| Silver nitrate and aminoethoxyvinylglycine promote in vitro adventitious shoot regeneration of pomegranate (Punica granatum L.). | Q39291221 | ||
| Distribution of indole-3-acetic acid in Petunia hybrida shoot tip cuttings and relationship between auxin transport, carbohydrate metabolism and adventitious root formation. | Q41948695 | ||
| Inhibition of strigolactones promotes adventitious root formation | Q42325479 | ||
| A trans-zeatin riboside in root xylem sap negatively regulates adventitious root formation on cucumber hypocotyls | Q44179305 | ||
| A multiplex GC-MS/MS technique for the sensitive and quantitative single-run analysis of acidic phytohormones and related compounds, and its application to Arabidopsis thaliana | Q44215183 | ||
| Alterations in endogenous levels of cytokinins following grafting of Pinus radiata support ratio of cytokinins as an index of ageing and vigour. | Q44681779 | ||
| Hormonal changes throughout maturation and ageing in Pinus pinea | Q44878047 | ||
| DIE NEUTRALIS and LATE BLOOMER 1 contribute to regulation of the pea circadian clock. | Q46147805 | ||
| Molecular physiology of adventitious root formation in Petunia hybrida cuttings: involvement of wound response and primary metabolism | Q46201374 | ||
| Cell cycle progression in the pericycle is not sufficient for SOLITARY ROOT/IAA14-mediated lateral root initiation in Arabidopsis thaliana | Q46769508 | ||
| The pea GIGAS gene is a FLOWERING LOCUS T homolog necessary for graft-transmissible specification of flowering but not for responsiveness to photoperiod. | Q47324674 | ||
| Size-mediated ageing reduces vigour in trees | Q47363448 | ||
| MAX2 affects multiple hormones to promote photomorphogenesis | Q47955733 | ||
| The tomato CAROTENOID CLEAVAGE DIOXYGENASE8 (SlCCD8) regulates rhizosphere signaling, plant architecture and affects reproductive development through strigolactone biosynthesis. | Q48046834 | ||
| The F-box protein MAX2 functions as a positive regulator of photomorphogenesis in Arabidopsis | Q48076924 | ||
| Auxin controls Arabidopsis adventitious root initiation by regulating jasmonic acid homeostasis | Q50799672 | ||
| Aging in Perennials | Q57066862 | ||
| Strigolactones and the Regulation of Pea Symbioses in Response to Nitrate and Phosphate Deficiency | Q61055254 | ||
| Strigolactones suppress adventitious rooting in Arabidopsis and pea | Q61988972 | ||
| P433 | issue | 5 | |
| P304 | page(s) | 1437-1452 | |
| P577 | publication date | 2014-12-24 | |
| P1433 | published in | Journal of Experimental Botany | Q6295179 |
| P1476 | title | Adventitious rooting declines with the vegetative to reproductive switch and involves a changed auxin homeostasis | |
| P478 | volume | 66 |
| Q47316281 | Characterization of auxin transporter PIN6 plasma membrane targeting reveals a function for PIN6 in plant bolting. |
| Q99615692 | Comparative transcriptome analysis revealed the cooperative regulation of sucrose and IAA on adventitious root formation in lotus (Nelumbo nucifera Gaertn) |
| Q55259930 | Enhanced Conjugation of Auxin by GH3 Enzymes Leads to Poor Adventitious Rooting in Carnation Stem Cuttings. |
| Q42700459 | Events Associated with Early Age-Related Decline in Adventitious Rooting Competence of Eucalyptus globulus Labill |
| Q64971177 | Expression of a Plastid-Targeted Flavodoxin Decreases Chloroplast Reactive Oxygen Species Accumulation and Delays Senescence in Aging Tobacco Leaves. |
| Q89459375 | Inhibition of α-ketoglutarate dehydrogenase activity affects adventitious root growth in poplar via changes in GABA shunt |
| Q35783874 | Jasmonates act positively in adventitious root formation in petunia cuttings |
| Q58832977 | Multiple factors influence adventitious rooting in carnation (Dianthus caryophyllus L.) stem cuttings |
| Q89578260 | Natural Variation in Adventitious Rooting in the Alpine Perennial Arabis alpina |
| Q41473396 | Nature's Electric Potential: A Systematic Review of the Role of Bioelectricity in Wound Healing and Regenerative Processes in Animals, Humans, and Plants |
| Q97883586 | Overcoming Physiological Bottlenecks of Leaf Vitality and Root Development in Cuttings: A Systemic Perspective |
| Q92290203 | Physiological and Transcriptomic Changes during the Early Phases of Adventitious Root Formation in Mulberry Stem Hardwood Cuttings |
| Q26750458 | Plant Hormone Homeostasis, Signaling, and Function during Adventitious Root Formation in Cuttings |
| Q90113029 | Some Urea Derivatives Positively Affect Adventitious Root Formation: Old Concepts and the State of the Art |
| Q53234206 | The Physiology of Adventitious Roots. |
| Q92327987 | The Roles of Auxin Biosynthesis YUCCA Gene Family in Plants |
| Q40631240 | Transcriptome, carbohydrate, and phytohormone analysis of Petunia hybrida reveals a complex disturbance of plant functional integrity under mild chilling stress |
| Q92127382 | What Makes Adventitious Roots? |
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