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1. Full Text Photosynthetic activity of reproductive organs
by Brazel, Ailbhe J and Ó'Maoiléidigh, Diarmuid S
Journal of Experimental Botany, ISSN 0022-0957, 03/2019, Volume 70, Issue 6, pp. 1737 - 1754
Highlight We summarize our understanding of the photosynthetic contribution of floral and non-foliar organs to plant development and describe some of the... 
fruit development | non-foliar photosynthesis | TRITICUM-AESTIVUM L | ARABIDOPSIS-THALIANA | FRUIT-DEVELOPMENT | RESPIRATORY CO2 | GATA TRANSCRIPTION FACTORS | PLANT SCIENCES | Chloroplast development | gene regulatory networks | stomatal development | photosynthesis | seed development | WATER-USE EFFICIENCY | flower development | EAR PHOTOSYNTHESIS | STOMATAL DENSITY | reproductive organ photosynthesis
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2. Full Text Elaboration of B Gene Function to Include the Identity of Novel Floral Organs in the Lower Eudicot Aquilegia
by Elena M. Kramer and Lynn Holappa and Billie Gould and M. Alejandra Jaramillo and Dimitriy Setnikov and Philip M. Santiago
The Plant Cell, ISSN 1040-4651, 3/2007, Volume 19, Issue 3, pp. 750 - 766
The basal eudicot Aquilegia (columbine) has an unusual floral structure that includes two morphologically distinct whorls of petaloid organs and a clearly... 
Petals | Calyx | Perianths | Carpels | Evolution | Evolutionary genetics | Plants | Flowers | Stamens | Plant cells | ARABIDOPSIS-THALIANA | BIOCHEMISTRY & MOLECULAR BIOLOGY | ASPARAGUS-OFFICINALIS L | MODIFIED ABC MODEL | PLANT SCIENCES | CELL BIOLOGY | FLOWER DEVELOPMENT | BASAL ANGIOSPERMS | HOMEOTIC GENE | STAMEN DEVELOPMENT | ECTOPIC EXPRESSION | MADS-BOX GENES | PISTILLATA LINEAGES | Meristem - cytology | Genes, Plant | Aquilegia - anatomy & histology | Molecular Sequence Data | Gene Expression Profiling | Flowers - ultrastructure | RNA, Messenger - metabolism | In Situ Hybridization | Aquilegia - genetics | Gene Expression Regulation, Plant | Plant Proteins - metabolism | RNA, Messenger - genetics | Flowers - cytology | Gene Silencing | Aquilegia - ultrastructure | Mutation - genetics | Flowers - growth & development | Sequence Homology, Amino Acid | Plant Proteins - genetics | Two-Hybrid System Techniques | Phenotype | Models, Biological | Aquilegia - growth & development | Protein Binding | Flowers - genetics | Physiological aspects | Gene silencing | Genetic aspects | Research | Hybridization, Vegetable
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3. Full Text Specification of floral organs in Arabidopsis
by Wellmer, Frank and Graciet, Emmanuelle and Riechmann, José Luis
Journal Of Experimental Botany, ISSN 0022-0957, 1/2014, Volume 65, Issue 1, pp. 1 - 9
We describe the molecular mechanisms underlying the development of floral organs in Arabidopsis. We especially focus on the activities of the floral organ... 
homeotic mutants | flower development | floral organ identity factors | Arabidopsis | HOMEOTIC GENES | TRANSCRIPTION FACTORS | ZINC-FINGER | PLANT DEVELOPMENT | MERISTEM IDENTITY | PLANT SCIENCES | TARGET GENES | STAMEN DEVELOPMENT | GENOME-WIDE ANALYSIS | MADS-BOX GENES | Arabidopsis - genetics | Arabidopsis Proteins - metabolism | Transcription Factors - metabolism | Arabidopsis Proteins - genetics | Arabidopsis - growth & development | Gene Expression Regulation, Developmental | Gene Expression Regulation, Plant | Mutation | Transcription Factors - genetics | Gene Regulatory Networks | Flowers - genetics | Flowers - growth & development
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4. Full Text Elucidating mechanisms underlying organ abscission
by Estornell, Leandro H and Agustí, Javier and Merelo, Paz and Talón, Manuel and Tadeo, Francisco R
Plant Science, ISSN 0168-9452, 02/2013, Volume 199-200, pp. 48 - 60
► Abscission is introduced as a production-limiting factor for crop species. ► An anatomical description of the abscission zone (AZ) is provided and... 
Transcription factors | Auxin | Ethylene | Separation process | Abscission zone | Cell wall remodeling enzymes | Crop productivity | ARABIDOPSIS-THALIANA | MATURE FRUIT ABSCISSION | BIOCHEMISTRY & MOLECULAR BIOLOGY | RECEPTOR-LIKE KINASE | PLANT SCIENCES | MADS-BOX GENE | PERSICA L BATSCH | TOMATO FLOWER ABSCISSION | CITRUS LEAF EXPLANTS | CELL-SEPARATION PROCESSES | MAIZE HOMEOBOX GENE | TRANSCRIPTION FACTOR | Plant Proteins - genetics | Plants - metabolism | Plant Development | Plants - genetics | Gene Expression Regulation, Developmental | Genomics | Gene Expression Regulation, Plant - genetics | Models, Molecular | Plant Proteins - metabolism | Crops, Agricultural | Plant Physiological Phenomena | Enzymes | Plant hormones
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5. Full Text Nicotianamine Functions in the Phloem-Based Transport of Iron to Sink Organs, in Pollen Development and Pollen Tube Growth in Arabidopsis
by Mara Schuler and Rubén Rellán-Álvarez and Claudia Fink-Straube and Javier Abadia and Petra Bauer
The Plant Cell, ISSN 1040-4651, 6/2012, Volume 24, Issue 6, pp. 2380 - 2400
The metal chelator nicotianamine promotes the bioavailability of Fe and reduces cellular Fe toxicity. For breeding Fe-efficient crops, we need to explore the... 
Leaves | Carpels | Phenotypes | Phloem | Xylem | Citrates | Pollen tubes | Hypochromic anemia | Pollen | Plants | BIOCHEMISTRY & MOLECULAR BIOLOGY | ZN HOMEOSTASIS | STRATEGY-II | SYNTHASE GENES | OF-FUNCTION | MASS-SPECTROMETRY | PLANT SCIENCES | CELL BIOLOGY | 2'-DEOXYMUGINEIC ACID | REPRODUCTIVE-TRACT | PLANTS | DEFICIENCY RESPONSES | TOMATO MUTANT CHLORONERVA | Pollen - growth & development | Pollen - metabolism | Plant Development | Plant Roots - metabolism | Arabidopsis - growth & development | Flowers - metabolism | Zinc - metabolism | Pollen Tube - metabolism | Azetidinecarboxylic Acid - analogs & derivatives | Iron - metabolism | Arabidopsis - metabolism | Arabidopsis - genetics | Biological Transport | Plant Leaves - genetics | Plant Leaves - metabolism | Citrates - metabolism | Phloem - metabolism | Pollen - genetics | Gene Expression Regulation, Plant | Azetidinecarboxylic Acid - metabolism | Mutation | Pollen Tube - growth & development | Arabidopsis | Growth | Physiological aspects | Development | Health aspects
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6. Full Text Dynamic changes of flavonoids in Abelmoschus manihot different organs at different growth periods by UPLC–MS/MS
by Pan, Xinxin and Du, Leyue and Tao, Jinhua and Jiang, Shu and Qian, Dawei and Duan, Jinao
Journal of Chromatography B, ISSN 1570-0232, 08/2017, Volume 1059, pp. 21 - 26
(Linn.) Medicus has been clinically used to treat chronic kidney disease, oral ulcers, burns, and dysmenorrhea in China for many centuries. The major... 
Abelmoschus manihot | Flavonoids | Growth period | UPLC–MS/MS | APOPTOSIS | CELLS | CHEMISTRY, ANALYTICAL | ACTIVATION | BIOCHEMICAL RESEARCH METHODS | CANCER | HYPEROSIDE | QUERCETIN | SIGNALING PATHWAY | UPLC-MS/MS | EXTRACTS | NF-KAPPA-B | RAT PLASMA | Plant Leaves - chemistry | Plant Extracts - chemistry | Reproducibility of Results | Chromatography, High Pressure Liquid - methods | Flavonoids - analysis | Flowers - chemistry | Plant Extracts - analysis | Abelmoschus - growth & development | Plant Roots - chemistry | Plant Stems - chemistry | Kinetics | Plant Structures - chemistry | Tandem Mass Spectrometry - methods | Abelmoschus - chemistry | Isoflavones | Chronic kidney failure | Growth | Analysis
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7. Full Text Growth and biomechanics of shoot organs
by Echevin, E and Le Gloanec, C and Skowronska, N and Routier-Kierzkowska, AL and Burian, A and Kierzkowski, D
JOURNAL OF EXPERIMENTAL BOTANY, ISSN 0022-0957, 07/2019, Volume 70, Issue 14, pp. 3573 - 3585
Plant organs arise through complex interactions between biological and physical factors that control morphogenesis. While there has been tremendous progress in... 
flowers | mechanical feedback | ARABIDOPSIS-THALIANA | SURFACE GEOMETRY | mechanical stress | DEVELOPING LEAVES | APICAL MERISTEM | organogenesis | MECHANICAL-PROPERTIES | Cell wall | PLANT SCIENCES | AUXIN | morphogenesis | leaves | MICROTUBULE BEHAVIOR | PLANT-CELL WALL | turgor pressure | growth | COMPOUND-LEAF DEVELOPMENT | GENETIC INTERACTIONS | shoot lateral organs
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8. Full Text The plasma membrane Na+/H+ antiporter SOS1 is essential for salt tolerance in tomato and affects the partitioning of Na+ between plant organs
by OLÍAS, RAQUEL and ELJAKAOUI, ZAKIA and LI, JUN and DE MORALES, PAZ ALVAREZ and MARÍN‐MANZANO, MARI CARMEN and PARDO, JOSE M and BELVER, ANDRÉS
Plant, Cell & Environment, ISSN 0140-7791, 07/2009, Volume 32, Issue 7, pp. 904 - 916
ABSTRACT We have identified a plasma membrane Na+/H+ antiporter gene from tomato (Solanum lycopersicum), SlSOS1, and used heterologous expression in yeast to... 
SlSOS1 | long‐distance Na+ and K+ transport | post‐transcriptional gene silencing | Solanum lycopersicum (tomato) | Long-distance Na | and K | transport | Post-transcriptional gene silencing | MOLECULAR CHARACTERIZATION | ARABIDOPSIS-THALIANA | PROTEIN-KINASE | ION HOMEOSTASIS | TRANSGENIC PLANTS | long-distance Na+ and K+ transport | post-transcriptional gene silencing | LYCOPERSICON-ESCULENTUM | PLANT SCIENCES | TRANSPORT | SUNFLOWER ROOTS | CALCIUM-BINDING | STRESS TOLERANCE | Lycopersicon esculentum - metabolism | Salt-Tolerant Plants - metabolism | Plant Roots - metabolism | Plants, Genetically Modified - genetics | RNA, Plant - genetics | Sodium - metabolism | Sodium-Hydrogen Exchangers - metabolism | Plant Proteins - genetics | Plants, Genetically Modified - metabolism | Plant Leaves - metabolism | RNA Interference | Xylem - metabolism | Gene Expression Regulation, Plant | Lycopersicon esculentum - genetics | Sodium-Hydrogen Exchangers - genetics | Plant Proteins - metabolism | Salt-Tolerant Plants - genetics
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9. Full Text MOSAIC FLORAL ORGANS1, an AGL6-Like MADS Box Gene, Regulates Floral Organ Identity and Meristem Fate in Rice
by Shinnosuke Ohmori and Mayumi Kimizu and Maiko Sugita and Akio Miyao and Hirohiko Hirochika and Eiji Uchida and Yasuo Nagato and Hitoshi Yoshida
The Plant Cell, ISSN 1040-4651, 10/2009, Volume 21, Issue 10, pp. 3008 - 3025
Floral organ identity and meristem determinacy in plants are controlled by combinations of activities mediated by MADS box genes. AGAMOUS-LIKE6 (AGL6)-like... 
Proteins | Meristems | Phenotypes | Carpels | Spikelets | Glumes | Plants | Stamens | Rice | Plant cells | DIVERSIFICATION | BIOCHEMISTRY & MOLECULAR BIOLOGY | FAMILY PROTEINS | HOMEOTIC MUTATION | PLANT SCIENCES | CELL BIOLOGY | OVULE DEVELOPMENT | EVOLUTION | SEQUENCE | ECTOPIC EXPRESSION | PROTEIN-PROTEIN INTERACTIONS | ARABIDOPSIS | FLOWERING TIME | Meristem - cytology | Plants, Genetically Modified - genetics | Plants, Genetically Modified - growth & development | Flowers - metabolism | Oryza - metabolism | MADS Domain Proteins - genetics | Flowers - cytology | Molecular Sequence Data | Phylogeny | Flowers - growth & development | Meristem - growth & development | MADS Domain Proteins - metabolism | Plant Proteins - genetics | Oryza - growth & development | In Situ Hybridization | Plants, Genetically Modified - metabolism | Meristem - genetics | Oryza - genetics | Gene Expression Regulation, Plant | Meristem - metabolism | Plants, Genetically Modified - cytology | Plant Proteins - metabolism | Flowers - genetics | Oryza - cytology |