| scholarly article | Q13442814 |
| P50 | author | Scott A. Finlayson | Q55859266 |
| P2093 | author name string | Tesfamichael H Kebrom | |
| Byron L Burson | |||
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| Molecular analysis of the LATERAL SUPPRESSOR gene in Arabidopsis reveals a conserved control mechanism for axillary meristem formation | Q33338345 | ||
| Shoot branching | Q33339563 | ||
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| 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 | ||
| The Lateral suppressor (Ls) gene of tomato encodes a new member of the VHIID protein family | Q33368955 | ||
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| The evolution of apical dominance in maize | Q34420502 | ||
| Phytochrome photosensory signalling networks | Q34522847 | ||
| Expression patterns and mutant phenotype of teosinte branched1 correlate with growth suppression in maize and teosinte | Q34616589 | ||
| Concepts and terminology of apical dominance. | Q34630634 | ||
| Cereal phytochromes: targets of selection, targets for manipulation? | Q36062829 | ||
| The sorghum photoperiod sensitivity gene, Ma3, encodes a phytochrome B. | Q36848021 | ||
| Identification of cis-elements that regulate gene expression during initiation of axillary bud outgrowth in Arabidopsis | Q38520381 | ||
| Phytochrome in cotyledons regulates the expression of genes in the hypocotyl through auxin-dependent and -independent pathways | Q44198781 | ||
| The branching gene RAMOSUS1 mediates interactions among two novel signals and auxin in pea. | Q45230668 | ||
| MAX1 encodes a cytochrome P450 family member that acts downstream of MAX3/4 to produce a carotenoid-derived branch-inhibiting hormone | Q45287537 | ||
| Mutations in the gene for the red/far-red light receptor phytochrome B alter cell elongation and physiological responses throughout Arabidopsis development | Q46272213 | ||
| A genomic analysis of the shade avoidance response in Arabidopsis | Q46274768 | ||
| Auxin and light control of adventitious rooting in Arabidopsis require ARGONAUTE1. | Q46437075 | ||
| Genetic Regulation of Development in Sorghum bicolor: VII. ma(3) Flowering Mutant Lacks a Phytochrome that Predominates in Green Tissue. | Q47916741 | ||
| PCF1 and PCF2 specifically bind to cis elements in the rice proliferating cell nuclear antigen gene | Q48044079 | ||
| The phytochrome gene family in grasses (Poaceae): a phylogeny and evidence that grasses have a subset of the loci found in dicot angiosperms | Q48059676 | ||
| Arabidopsis auxin-resistance gene AXR1 encodes a protein related to ubiquitin-activating enzyme E1. | Q48111204 | ||
| Control of tillering in rice. | Q52106983 | ||
| Internal telomeric repeats and 'TCP domain' protein-binding sites co-operate to regulate gene expression in Arabidopsis thaliana cycling cells. | Q52108065 | ||
| SHOOT BRANCHING | Q56978911 | ||
| Increased phytochrome B alleviates density effects on tuber yield of field potato crops | Q61918995 | ||
| Molecular evolution of the teosinte branched gene among maize and related grasses | Q73662614 | ||
| Genetic Regulation of Development in Sorghum bicolor: V. The ma(3) Allele Results in Gibberellin Enrichment | Q83270920 | ||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 1109-1117 | |
| P577 | publication date | 2006-01-27 | |
| P1433 | published in | Plant Physiology | Q3906288 |
| P1476 | title | Phytochrome B represses Teosinte Branched1 expression and induces sorghum axillary bud outgrowth in response to light signals | |
| P478 | volume | 140 |
| Q46256539 | A Growing Stem Inhibits Bud Outgrowth - The Overlooked Theory of Apical Dominance |
| Q48161887 | Abscisic Acid Is a General Negative Regulator of Arabidopsis Axillary Bud Growth. |
| 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 |
| Q89986774 | Antagonistic regulation of axillary bud outgrowth by the BRANCHED genes in tobacco |
| Q33358654 | Apical dominance in saffron and the involvement of the branching enzymes CCD7 and CCD8 in the control of bud sprouting |
| Q48081461 | Arabidopsis BRANCHED1 acts as an integrator of branching signals within axillary buds |
| Q93195898 | Arabidopsis FHY3 and FAR1 integrate light and strigolactone signaling to regulate branching |
| Q28750691 | Architectural evolution and its implications for domestication in grasses |
| Q35532175 | Association mapping in sunflower (Helianthus annuus L.) reveals independent control of apical vs. basal branching |
| Q56978734 | Auxin and strigolactone signaling are required for modulation of Arabidopsis shoot branching by nitrogen supply |
| Q33351030 | Auxin, cytokinin and the control of shoot branching |
| Q37683563 | Axillary bud outgrowth in herbaceous shoots: how do strigolactones fit into the picture? |
| Q34334993 | BRANCHED1 promotes axillary bud dormancy in response to shade in Arabidopsis |
| Q64252238 | BRANCHED1: A Key Hub of Shoot Branching |
| Q58998086 | Canopy Light Signals and Crop Yield in Sickness and in Health |
| Q28742263 | Cereal domestication and evolution of branching: evidence for soft selection in the Tb1 orthologue of pearl millet (Pennisetum glaucum [L.] R. Br.) |
| Q33363780 | Change in Auxin and Cytokinin Levels Coincides with Altered Expression of Branching Genes during Axillary Bud Outgrowth in Chrysanthemum |
| Q37472091 | Comparative phylogenomic analysis provides insights into TCP gene functions in Sorghum |
| 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 |
| Q46944365 | DRM1 and DRM2 expression regulation: potential role of splice variants in response to stress and environmental factors in Arabidopsis. |
| Q33365298 | De novo Transcriptome Analysis of Miscanthus lutarioriparius Identifies Candidate Genes in Rhizome Development |
| Q35960651 | Development and Genetic Control of Plant Architecture and Biomass in the Panicoid Grass, Setaria |
| Q39016507 | Development of transgenic crops based on photo-biotechnology. |
| Q26849505 | Diverse roles of strigolactones in plant development |
| Q28763504 | Diversity and evolution of CYCLOIDEA-like TCP genes in relation to flower development in Papaveraceae |
| Q33355736 | EBE, an AP2/ERF transcription factor highly expressed in proliferating cells, affects shoot architecture in Arabidopsis |
| Q38215490 | Enhancing the productivity of grasses under high-density planting by engineering light responses: from model systems to feedstocks |
| Q41015602 | Environmental control of branching in petunia |
| Q92150068 | Evolutionary and Comparative Expression Analyses of TCP Transcription Factor Gene Family in Land Plants |
| Q41958063 | Evolutionary divergence of phytochrome protein function in Zea mays PIF3 signaling. |
| Q37733786 | Evolving Tale of TCPs: New Paradigms and Old Lacunae |
| Q47114464 | GWAS, QTL mapping and gene expression analyses in Brassica napus reveal genetic control of branching morphogenesis |
| Q39586971 | Grain number, plant height, and heading date7 is a central regulator of growth, development, and stress response |
| Q42043489 | High time for a roll call: gene duplication and phylogenetic relationships of TCP-like genes in monocots. |
| Q33346546 | Hormonal regulation of branching in grasses |
| Q40460537 | Impacts of strigolactone on shoot branching under phosphate starvation in chrysanthemum (Dendranthema grandiflorum cv. Jinba). |
| Q42509510 | Inhibition of tiller bud outgrowth in the tin mutant of wheat is associated with precocious internode development |
| Q33363444 | Knockdown of strigolactone biosynthesis genes in Populus affects BRANCHED1 expression and shoot architecture |
| Q54988792 | LED Lighting - Modification of Growth, Metabolism, Yield and Flour Composition in Wheat by Spectral Quality and Intensity. |
| Q47270779 | Largely unlinked gene sets targeted by selection for domestication syndrome phenotypes in maize and sorghum. |
| Q33363064 | Light Signaling in Bud Outgrowth and Branching in Plants. |
| Q33619363 | Location of major effect genes in sorghum (Sorghum bicolor (L.) Moench). |
| Q41455418 | Low red/far-red ratios delay spike and stem growth in wheat |
| Q50349735 | MSD1 regulates pedicellate spikelet fertility in sorghum through the jasmonic acid pathway. |
| Q89715327 | Molecular characterization of teosinte branched1 gene governing branching architecture in cultivated maize and wild relatives |
| Q45813031 | Molecular characterization of the Brassica rapa auxin-repressed, superfamily genes, BrARP1 and BrDRM1. |
| Q43103496 | Multiple pathways regulate shoot branching. |
| Q89555665 | Neo-functionalization of a Teosinte branched 1 homologue mediates adaptations of upland rice |
| Q40479847 | Optimizing tiller production and survival for grain yield improvement in a bread wheat × spelt mapping population. |
| Q53664848 | Photosynthetic leaf area modulates tiller bud outgrowth in sorghum. |
| Q50530411 | Photosynthetic photon flux density and phytochrome B interact to regulate branching in Arabidopsis. |
| Q48110257 | Phytochrome A and B Function Antagonistically to Regulate Cold Tolerance via Abscisic Acid-Dependent Jasmonate Signaling |
| Q90713915 | Phytochrome A signal transduction 1 and CONSTANS-LIKE 13 coordinately orchestrate shoot branching and flowering in leafy Brassica juncea |
| Q50479777 | Phytochrome B promotes branching in Arabidopsis by suppressing auxin signaling. |
| Q42494085 | Phytochrome Signaling Is Mediated by PHYTOCHROME INTERACTING FACTOR in the Liverwort Marchantia polymorpha |
| Q43162713 | Phytochrome regulation of branching in Arabidopsis |
| Q92423128 | Posttranscriptional Regulation of RhBRC1 (Rosa hybrida BRANCHED1) in Response to Sugars is Mediated via its Own 3' Untranslated Region, with a Potential Role of RhPUF4 (Pumilio RNA-Binding Protein Family) |
| Q52367850 | Potentials, Challenges, and Genetic and Genomic Resources for Sugarcane Biomass Improvement. |
| Q55692179 | Red to Far-Red Light Ratio Modulates Hormonal and Genetic Control of Axillary bud Outgrowth in Chrysanthemum (Dendranthema grandiflorum 'Jinba'). |
| Q98735681 | Regulation of Aegilops tauschii Coss Tiller Bud Growth by Plant Density: Transcriptomic, Physiological and Phytohormonal Responses |
| Q91814965 | Regulation of Photomorphogenic Development by Plant Phytochromes |
| Q94453633 | Regulation of monocot and dicot plant development with constitutively active alleles of phytochrome B |
| Q45979499 | Role of tomato BRANCHED1-like genes in the control of shoot branching. |
| Q38367031 | Role of transcriptional regulation in the evolution of plant phenotype: A dynamic systems approach |
| Q34684958 | Roles of DgBRC1 in regulation of lateral branching in chrysanthemum (Dendranthema ×grandiflora cv. Jinba). |
| Q52760790 | Selection During Maize Domestication Targeted a Gene Network Controlling Plant and Inflorescence Architecture. |
| Q34274679 | Shade avoidance |
| Q33360573 | Shaping plant architecture |
| Q37856197 | Signal integration in the control of shoot branching |
| Q33361013 | Strigolactone Inhibition of Branching Independent of Polar Auxin Transport. |
| Q33343560 | Subfunctionalization of PhyB1 and PhyB2 in the control of seedling and mature plant traits in maize |
| Q33781626 | Sweet sorghum as biofuel feedstock: recent advances and available resources |
| Q57818035 | TCP Transcription Factors in Moso Bamboo (): Genome-Wide Identification and Expression Analysis |
| Q51414421 | Teosinte Branched 1 modulates tillering in rice plants. |
| Q58919956 | The Dormancy MarkerDRM1/ARPAssociated with Dormancy but a Broader RoleIn Planta |
| Q48076924 | The F-box protein MAX2 functions as a positive regulator of photomorphogenesis in Arabidopsis |
| Q46139479 | The Maize PI/GLO Ortholog Zmm16/sterile tassel silky ear1 Interacts with the Zygomorphy and Sex Determination Pathways in Flower Development |
| Q54987159 | The TIE1 transcriptional repressor controls shoot branching by directly repressing BRANCHED1 in Arabidopsis. |
| Q38223933 | The art of being flexible: how to escape from shade, salt, and drought |
| Q38009957 | The genetic architecture of flowering time and photoperiod sensitivity in maize as revealed by QTL review and meta analysis |
| Q46833824 | The genetics of barley low-tillering mutants: absent lower laterals (als). |
| Q39034923 | The ratio of red light to far red light alters Arabidopsis axillary bud growth and abscisic acid signalling before stem auxin changes |
| Q92832264 | The regulatory landscape of a core maize domestication module controlling bud dormancy and growth repression |
| Q42729714 | The timing of low R:FR exposure profoundly affects Arabidopsis branching responses |
| Q33364824 | The vascular plants: open system of growth |
| Q40916587 | Tillering in the sugary1 sweet corn is maintained by overriding the teosinte branched1 repressive signal |
| Q35124438 | Topology of a maize field: distinguishing the influence of end-of-day far-red light and shade avoidance syndrome on plant height. |
| Q38731019 | Transcriptome Analysis Reveals Differential Gene Expression and a Possible Role of Gibberellins in a Shade-Tolerant Mutant of Perennial Ryegrass |
| Q58114477 | Transcriptome Profiles Reveal the Crucial Roles of Auxin and Cytokinin in the "Shoot Branching" of Cremastra appendiculata. |
| Q33362616 | Transcriptome Profiling of Tiller Buds Provides New Insights into PhyB Regulation of Tillering and Indeterminate Growth in Sorghum. |
| Q40900633 | Vegetative axillary bud dormancy induced by shade and defoliation signals in the grasses |
| Q93171678 | Why evolutionary biology needs anthropology: Evaluating core assumptions of the extended evolutionary synthesis |
| Q35170676 | grassy tillers1 promotes apical dominance in maize and responds to shade signals in the grasses |
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