scholarly article | Q13442814 |
P50 | author | Dorota Kwiatkowska | Q55762443 |
Masao Tasaka | Q88655985 | ||
Mitsuhiro Aida | Q46708503 | ||
P2093 | author name string | Md Rezaul Karim | |
Atsuko Hirota | |||
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FD, a bZIP protein mediating signals from the floral pathway integrator FT at the shoot apex | Q28267220 | ||
Integration of spatial and temporal information during floral induction in Arabidopsis | Q28267229 | ||
Floral initiation and inflorescence architecture: a comparative view | Q28757188 | ||
Separation of shoot and floral identity in Arabidopsis | Q33333427 | ||
Shoot apical meristem and cotyledon formation during Arabidopsis embryogenesis: interaction among the CUP-SHAPED COTYLEDON and SHOOT MERISTEMLESS genes | Q33333486 | ||
Interactions among APETALA1, LEAFY, and TERMINAL FLOWER1 specify meristem fate | Q33333816 | ||
Transcriptional activation of APETALA1 by LEAFY. | Q33333886 | ||
Initiation of axillary and floral meristems in Arabidopsis | Q33334304 | ||
Distinct roles of CONSTANS target genes in reproductive development of Arabidopsis | Q33334634 | ||
SOC1 translocated to the nucleus by interaction with AGL24 directly regulates leafy. | Q51957657 | ||
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AGL24acts as a promoter of flowering inArabidopsisand is positively regulated by vernalization | Q59654021 | ||
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Genetic ablation of flowers in transgenic Arabidopsis | Q77529578 | ||
Phase change and the regulation of developmental timing in plants. | Q35180356 | ||
The AGAMOUS-LIKE 20 MADS domain protein integrates floral inductive pathways in Arabidopsis | Q35203368 | ||
The timing of developmental transitions in plants | Q36483601 | ||
Move on up, it's time for change--mobile signals controlling photoperiod-dependent flowering | Q36957250 | ||
The BLADE-ON-PETIOLE genes are essential for abscission zone formation in Arabidopsis. | Q44570065 | ||
Translational biology: from Arabidopsis flowers to grass inflorescence architecture | Q46119227 | ||
BLADE-ON-PETIOLE-dependent signaling controls leaf and floral patterning in Arabidopsis | Q46417725 | ||
Floral determination and expression of floral regulatory genes in Arabidopsis. | Q46633475 | ||
The auxin-regulated AP2/EREBP gene PUCHI is required for morphogenesis in the early lateral root primordium of Arabidopsis. | Q50673451 | ||
The role of JAGGED in shaping lateral organs. | Q51028914 | ||
Activation tagging of the LEAFY PETIOLE gene affects leaf petiole development in Arabidopsis thaliana | Q33335073 | ||
The CUP-SHAPED COTYLEDON1 gene of Arabidopsis regulates shoot apical meristem formation. | Q33335452 | ||
A homeobox gene, PRESSED FLOWER, regulates lateral axis-dependent development of Arabidopsis flowers | Q33336720 | ||
Early primordium morphogenesis during lateral root initiation in Arabidopsis thaliana | Q33336732 | ||
Analysis of surface growth in shoot apices | Q33337417 | ||
LEAFY, a Homeotic Gene That Regulates Inflorescence Development in Arabidopsis | Q33337712 | ||
The control of spikelet meristem identity by the branched silkless1 gene in maize | Q33337869 | ||
The BLADE-ON-PETIOLE 1 gene controls leaf pattern formation through the modulation of meristematic activity in Arabidopsis. | Q33337885 | ||
AGAMOUS-LIKE 24, a dosage-dependent mediator of the flowering signals | Q33337912 | ||
FRIZZY PANICLE is required to prevent the formation of axillary meristems and to establish floral meristem identity in rice spikelets | Q33338513 | ||
LEAFY controls floral meristem identity in Arabidopsis | Q33338883 | ||
Molecular characterization of the Arabidopsis floral homeotic gene APETALA1 | Q33338903 | ||
Genomic identification of direct target genes of LEAFY. | Q33339571 | ||
Competence to respond to floral inductive signals requires the homeobox genes PENNYWISE and POUND-FOOLISH. | Q33339987 | ||
The maize duplicate genes narrow sheath1 and narrow sheath2 encode a conserved homeobox gene function in a lateral domain of shoot apical meristems | Q33340070 | ||
BLADE-ON-PETIOLE1 encodes a BTB/POZ domain protein required for leaf morphogenesis in Arabidopsis thaliana | Q33340617 | ||
Analysis of flowering pathway integrators in Arabidopsis | Q33340854 | ||
The BLADE ON PETIOLE genes act redundantly to control the growth and development of lateral organs | Q33341028 | ||
UFO in the Arabidopsis inflorescence apex is required for floral-meristem identity and bract suppression | Q33341746 | ||
Flower primordium formation at the Arabidopsis shoot apex: quantitative analysis of surface geometry and growth | Q33341956 | ||
How floral meristems are built. | Q33342664 | ||
Evolution and development of inflorescence architectures. | Q33344065 | ||
BLADE-ON-PETIOLE 1 and 2 control Arabidopsis lateral organ fate through regulation of LOB domain and adaxial-abaxial polarity genes | Q33344215 | ||
Activation of floral homeotic genes in Arabidopsis | Q33344534 | ||
Regulatory networks that function to specify flower meristems require the function of homeobox genes PENNYWISE and POUND-FOOLISH in Arabidopsis. | Q33345254 | ||
Developmental patterning by mechanical signals in Arabidopsis | Q33346441 | ||
Influence of clavata3-2 mutation on early flower development in Arabidopsis thaliana: quantitative analysis of changing geometry | Q33346497 | ||
Early flower development in Arabidopsis | Q33351057 | ||
A developmental switch sufficient for flower initiation in diverse plants | Q33366825 | ||
A gene triggering flower formation in Arabidopsis | Q33366831 | ||
Organization and cell differentiation in lateral roots of Arabidopsis thaliana | Q33367959 | ||
LEAFY expression and flower initiation in Arabidopsis. | Q33368337 | ||
A common mechanism controls the life cycle and architecture of plants | Q33368555 | ||
A genetic framework for floral patterning. | Q33368857 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 5 | |
P304 | page(s) | 1360-1372 | |
P577 | publication date | 2009-05-29 | |
P1433 | published in | The Plant Cell | Q3988745 |
P1476 | title | A role for Arabidopsis PUCHI in floral meristem identity and bract suppression | |
P478 | volume | 21 |
Q46544820 | A Homolog of Blade-On-Petiole 1 and 2 (BOP1/2) Controls Internode Length and Homeotic Changes of the Barley Inflorescence |
Q43122777 | A conserved mechanism of bract suppression in the grass family. |
Q91744970 | A phylogenetically conserved APETALA2/ETHYLENE RESPONSE FACTOR, ERF12, regulates Arabidopsis floral development |
Q37735737 | AP2/EREBP transcription factors are part of gene regulatory networks and integrate metabolic, hormonal and environmental signals in stress acclimation and retrograde signalling |
Q33358281 | Arabidopsis floral phytomer development: auxin response relative to biphasic modes of organ initiation |
Q35809743 | AtTCTP2, an Arabidopsis thaliana homolog of Translationally Controlled Tumor Protein, enhances in vitro plant regeneration |
Q33849355 | Auxin control of root development. |
Q26772327 | Beyond the Divide: Boundaries for Patterning and Stem Cell Regulation in Plants |
Q47272510 | COCHLEATA controls leaf size and secondary inflorescence architecture via negative regulation of UNIFOLIATA (LEAFY ortholog) gene in garden pea Pisum sativum. |
Q38314223 | Comparative transcriptome profiling of maize coleoptilar nodes during shoot-borne root initiation. |
Q39949908 | Comprehensive Genomic Analysis and Expression Profiling of the NOX Gene Families under Abiotic Stresses and Hormones in Plants |
Q50243637 | DORNRÖSCHEN, DORNRÖSCHEN-LIKE, and PUCHI redundantly control floral meristem identity and organ initiation in Arabidopsis |
Q111629143 | Disentangling confusions in inflorescence morphology: Patterns and diversity of reproductive shoot ramification in angiosperms |
Q34211554 | EMF1 and PRC2 cooperate to repress key regulators of Arabidopsis development |
Q90370963 | ENO regulates tomato fruit size through the floral meristem development network |
Q33361616 | Floral Induction in Arabidopsis by FLOWERING LOCUS T Requires Direct Repression of BLADE-ON-PETIOLE Genes by the Homeodomain Protein PENNYWISE. |
Q33353531 | Floral meristem initiation and emergence in plants |
Q33846714 | Genome-wide temporal-spatial gene expression profiling of drought responsiveness in rice |
Q33355227 | Grass meristems II: inflorescence architecture, flower development and meristem fate. |
Q33349125 | Hide and seek: uncloaking the vegetative shoot apex of Arabidopsis thaliana |
Q36780881 | Identification of Polymorphisms Associated with Drought Adaptation QTL in Brassica napus by Resequencing |
Q64062913 | Lasy-Seq: a high-throughput library preparation method for RNA-Seq and its application in the analysis of plant responses to fluctuating temperatures |
Q43069170 | Long distance movement of an Arabidopsis Translationally Controlled Tumor Protein (AtTCTP2) mRNA and protein in tobacco |
Q38648542 | Maize network analysis revealed gene modules involved in development, nutrients utilization, metabolism, and stress response. |
Q33351132 | MicroRNA-mediated establishment of transcription factor gradients controlling developmental phase transitions |
Q33347189 | PUCHI and floral meristem identity |
Q34504660 | ROTUNDIFOLIA4 regulates cell proliferation along the body axis in Arabidopsis shoot |
Q33362262 | Regulatory role of FZP in the determination of panicle branching and spikelet formation in rice |
Q35199629 | System analysis of microRNAs in the development and aluminium stress responses of the maize root system |
Q33363310 | The AP2-type transcription factors DORNRÖSCHEN and DORNRÖSCHEN-LIKE promote G1/S transition |
Q47102531 | The AP2/ERF Transcription Factor DRNL Modulates Gynoecium Development and Affects Its Response to Cytokinin |
Q33355989 | The dynamics of soybean leaf and shoot apical meristem transcriptome undergoing floral initiation process |
Q33364196 | The founder-cell transcriptome in the Arabidopsis apetala1 cauliflower inflorescence meristem |
Q33351773 | The role of Dornröschen-like in early floral organogenesis |
Q33348282 | Twenty years on: the inner workings of the shoot apical meristem, a developmental dynamo |
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