scholarly article | Q13442814 |
P50 | author | Detlef Weigel | Q109599 |
Soraya Pelaz | Q43122379 | ||
Cristina Ferrándiz | Q54901105 | ||
P2093 | author name string | Shusei Sato | |
Martin F Yanofsky | |||
Marina Trigueros | |||
Marisa Navarrete-Gómez | |||
Sioux K Christensen | |||
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A role for flavin monooxygenase-like enzymes in auxin biosynthesis. | Q32035667 | ||
CRABS CLAW and SPATULA, two Arabidopsis genes that control carpel development in parallel with AGAMOUS. | Q33333659 | ||
Redundant regulation of meristem identity and plant architecture by FRUITFULL, APETALA1 and CAULIFLOWER. | Q33334279 | ||
SPATULA, a gene that controls development of carpel margin tissues in Arabidopsis, encodes a bHLH protein. | Q33335449 | ||
Patterning the female side of Arabidopsis: the importance of hormones. | Q33343241 | ||
Common regulatory networks in leaf and fruit patterning revealed by mutations in the Arabidopsis ASYMMETRIC LEAVES1 gene | Q33344200 | ||
Auxin synthesized by the YUCCA flavin monooxygenases is essential for embryogenesis and leaf formation in Arabidopsis | Q33344388 | ||
ETTIN patterns the Arabidopsis floral meristem and reproductive organs | Q33368407 | ||
Auxin and ETTIN in Arabidopsis gynoecium morphogenesis. | Q33914805 | ||
Control of carpel and fruit development in Arabidopsis | Q33953568 | ||
A recent polyploidy superimposed on older large-scale duplications in the Arabidopsis genome | Q34174958 | ||
Auxin biosynthesis by the YUCCA flavin monooxygenases controls the formation of floral organs and vascular tissues in Arabidopsis | Q34863451 | ||
Vascular patterning: more than just auxin? | Q35157590 | ||
Drawing lines and borders: how the dehiscent fruit of Arabidopsis is patterned | Q35990458 | ||
Flower and fruit development in Arabidopsis thaliana | Q36227473 | ||
The plant B3 superfamily | Q37318409 | ||
Activation tagging in Arabidopsis | Q41729552 | ||
Arabidopsis gynoecium structure in the wild and in ettin mutants | Q42486850 | ||
STY1 and STY2 promote the formation of apical tissues during Arabidopsis gynoecium development. | Q42526592 | ||
Gradual shifts in sites of free-auxin production during leaf-primordium development and their role in vascular differentiation and leaf morphogenesis in Arabidopsis | Q44354335 | ||
The HECATE genes regulate female reproductive tract development in Arabidopsis thaliana | Q46489587 | ||
Interaction of auxin and ERECTA in elaborating Arabidopsis inflorescence architecture revealed by the activation tagging of a new member of the YUCCA family putative flavin monooxygenases. | Q46673736 | ||
Role of auxin in regulating Arabidopsis flower development | Q46738623 | ||
Control of fruit patterning in Arabidopsis by INDEHISCENT. | Q46842049 | ||
yucca6, a dominant mutation in Arabidopsis, affects auxin accumulation and auxin-related phenotypes. | Q46989242 | ||
CRABS CLAW, a gene that regulates carpel and nectary development in Arabidopsis, encodes a novel protein with zinc finger and helix-loop-helix domains. | Q47967912 | ||
Endogenous and synthetic microRNAs stimulate simultaneous, efficient, and localized regulation of multiple targets in diverse species. | Q48092843 | ||
Auxin transport is required for hypocotyl elongation in light-grown but not dark-grown Arabidopsis. | Q50525303 | ||
Transgene-mediated auxin overproduction in Arabidopsis: hypocotyl elongation phenotype and interactions with the hy6-1 hypocotyl elongation and axr1 auxin-resistant mutants. | Q50763557 | ||
Highly specific gene silencing by artificial microRNAs in Arabidopsis. | Q52023593 | ||
The axr6 mutants of Arabidopsis thaliana define a gene involved in auxin response and early development. | Q52171318 | ||
Requirement of the Auxin Polar Transport System in Early Stages of Arabidopsis Floral Bud Formation. | Q52236253 | ||
Functional domains of SPATULA, a bHLH transcription factor involved in carpel and fruit development in Arabidopsis. | Q52585514 | ||
The AXR1 and AUX1 genes of Arabidopsis function in separate auxin-response pathways. | Q54160215 | ||
Activation tagging using the En-I maize transposon system in Arabidopsis | Q57144433 | ||
Auxin can act independently ofCRC,LUG,SEU,SPTandSTY1in style development but not apical-basal patterning of theArabidopsisgynoecium | Q60428641 | ||
The behaviour of the autonomous maize transposable element En/Spm in Arabidopsis thaliana allows efficient mutagenesis | Q77073991 | ||
Auxin response factors mediate Arabidopsis organ asymmetry via modulation of KANADI activity | Q81298730 | ||
STY1 regulates auxin homeostasis and affects apical-basal patterning of the Arabidopsis gynoecium | Q83893191 | ||
Functionally redundant SHI family genes regulate Arabidopsis gynoecium development in a dose-dependent manner | Q83893195 | ||
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 1394-1409 | |
P577 | publication date | 2009-05-12 | |
P1433 | published in | The Plant Cell | Q3988745 |
P1476 | title | The NGATHA genes direct style development in the Arabidopsis gynoecium | |
P478 | volume | 21 |
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Q54330082 | Alternative splicing of the auxin biosynthesis gene YUCCA4 determines its subcellular compartmentation. |
Q33360653 | Auxin and cytokinin act during gynoecial patterning and the development of ovules from the meristematic medial domain |
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Q33777652 | Auxin biosynthesis |
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Q33351048 | Auxin regulation of Arabidopsis flower development involves members of the AINTEGUMENTA-LIKE/PLETHORA (AIL/PLT) family |
Q55423138 | CRABS CLAW Acts as a Bifunctional Transcription Factor in Flower Development. |
Q37779618 | Control of tissue and organ growth in plants |
Q51899203 | Coordination of flower development by homeotic master regulators |
Q51581110 | Deep into the Aristolochia Flower: Expression of C, D, and E-Class Genes in Aristolochia fimbriata (Aristolochiaceae). |
Q33899429 | Distinct and dynamic auxin activities during reproductive development |
Q33687025 | Do trees grow on money? Auxin as the currency of the cellular economy |
Q51678311 | Expression analysis of KDEL-CysEPs programmed cell death markers during reproduction in Arabidopsis. |
Q89868261 | Expression of gynoecium patterning transcription factors in Aristolochia fimbriata (Aristolochiaceae) and their contribution to gynostemium development |
Q33360772 | Floral Reversion in Arabidopsis suecica Is Correlated with the Onset of Flowering and Meristem Transitioning |
Q28740986 | Flower development |
Q37305862 | Fruit shape diversity in the Brassicaceae is generated by varying patterns of anisotropy |
Q44869665 | Genetic aspects of auxin biosynthesis and its regulation. |
Q49886074 | Genetic control of meristem arrest and life span in Arabidopsis by a FRUITFULL-APETALA2 pathway |
Q42619862 | INDEHISCENT and SPATULA interact to specify carpel and valve margin tissue and thus promote seed dispersal in Arabidopsis. |
Q51360724 | Inception of maleness: auxin contribution to flower masculinization in the dioecious cactus Opuntia stenopetala. |
Q92539305 | Inflorescence Meristem Fate Is Dependent on Seed Development and FRUITFULL in Arabidopsis thaliana |
Q64249756 | Insight into the B3Transcription Factor Superfamily and Expression Profiling of Genes in Axillary Buds after Topping in Tobacco(.) |
Q33353181 | JAIBA, a class-II HD-ZIP transcription factor involved in the regulation of meristematic activity, and important for correct gynoecium and fruit development in Arabidopsis |
Q38122754 | Juicy stories on female reproductive tissue development: coordinating the hormone flows. |
Q35549857 | Leaf expansion in Arabidopsis is controlled by a TCP-NGA regulatory module likely conserved in distantly related species |
Q34999526 | Major transcriptome reprogramming underlies floral mimicry induced by the rust fungus Puccinia monoica in Boechera stricta |
Q37377360 | REVEILLE1, a Myb-like transcription factor, integrates the circadian clock and auxin pathways |
Q37027361 | RNA-Seq Analysis of the Arabidopsis Transcriptome in Pluripotent Calli |
Q51038485 | SPL8 and miR156-targeted SPL genes redundantly regulate Arabidopsis gynoecium differential patterning. |
Q50043253 | Spatial control of gene expression by miR319-regulated TCP transcription factors in leaf development |
Q33352954 | Systematic analysis of plant-specific B3 domain-containing proteins based on the genome resources of 11 sequenced species |
Q33350190 | TCP transcription factors regulate the activities of ASYMMETRIC LEAVES1 and miR164, as well as the auxin response, during differentiation of leaves in Arabidopsis |
Q52912360 | The Arabidopsis thaliana NGATHA transcription factors negatively regulate cell proliferation of lateral organs. |
Q51816689 | The Arabidopsis thaliana transcriptional activator STYLISH1 regulates genes affecting stamen development, cell expansion and timing of flowering. |
Q33715583 | The Role of SHI/STY/SRS Genes in Organ Growth and Carpel Development Is Conserved in the Distant Eudicot Species Arabidopsis thaliana and Nicotiana benthamiana |
Q33356533 | The arabidopsis IDD14, IDD15, and IDD16 cooperatively regulate lateral organ morphogenesis and gravitropism by promoting auxin biosynthesis and transport |
Q33659551 | The effect of NGATHA altered activity on auxin signaling pathways within the Arabidopsis gynoecium |
Q42239824 | The essential role of NGATHA genes in style and stigma specification is widely conserved across eudicots. |
Q38505280 | The importance of localized auxin production for morphogenesis of reproductive organs and embryos in Arabidopsis |
Q34490584 | The over-expression of an Arabidopsis B3 transcription factor, ABS2/NGAL1, leads to the loss of flower petals |
Q50461704 | Tomato GOLDEN2-LIKE transcription factors reveal molecular gradients that function during fruit development and ripening |
Q41202082 | Transcription factors SOD7/NGAL2 and DPA4/NGAL3 act redundantly to regulate seed size by directly repressing KLU expression in Arabidopsis thaliana |
Q33362782 | Transcriptomic Signature of the SHATTERPROOF2 Expression Domain Reveals the Meristematic Nature of Arabidopsis Gynoecial Medial Domain |
Q33352393 | Transcriptomic characterization of a synergistic genetic interaction during carpel margin meristem development in Arabidopsis thaliana |
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