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The Plant Cell, ISSN 1040-4651, 8/2011, Volume 23, Issue 8, pp. 2850 - 2863
Reproductive organ development is one of the most important steps in the life cycle of plants. Studies using core eudicot species like thale cress (Arabidopsis... 
Carpels | Phenotypes | Determinacy | Genes | Ovules | Plants | Flowers | Stamens | Rice | Plant cells | HOMEOTIC GENES | BIOCHEMISTRY & MOLECULAR BIOLOGY | CONTROLLING FLOWER DEVELOPMENT | CRABS-CLAW | PLANT SCIENCES | CELL BIOLOGY | OVULE DEVELOPMENT | ORYZA-SATIVA | REGULATES FLORAL ORGAN | ECTOPIC EXPRESSION | MADS-BOX GENES | CONTROL CARPEL | DROOPING-LEAF | Oryza - metabolism | DNA, Complementary - genetics | Molecular Sequence Data | Flowers - ultrastructure | Oryza - ultrastructure | Ovule - genetics | Oryza - growth & development | Meristem - genetics | Oryza - genetics | Base Sequence | Plants, Genetically Modified | Gene Expression Regulation, Plant | Meristem - metabolism | Ovule - growth & development | Plant Proteins - metabolism | DNA, Plant - genetics | Amino Acid Sequence | Ovule - metabolism | MADS Domain Proteins - genetics | Genotype | RNA, Plant - genetics | Transcription Factors - genetics | Meristem - ultrastructure | Sequence Analysis, DNA | Flowers - growth & development | Meristem - growth & development | MADS Domain Proteins - metabolism | Transcription Factors - metabolism | Plant Proteins - genetics | Phenotype | Genes, Plant - genetics | Ovule - ultrastructure | Flowers - physiology | Models, Genetic | Mutation | Flowers - genetics | Reproduction | Physiological aspects | Development | Life cycles (Biology) | Research
Journal Article
Journal Article
The Plant Journal, ISSN 0960-7412, 05/2012, Volume 70, Issue 3, pp. 409 - 420
Summary The haploid generation of flowering plants develops within the sporophytic tissues of the ovule. After fertilization, the maternal seed coat develops... 
endothelium | fertilization | Arabidopsis | MADS‐box genes | ovule development | MADS-box genes | WILD-TYPE | FEMALE GAMETOPHYTE DEVELOPMENT | PROTEIN | SACCHAROMYCES-CEREVISIAE | CELL-DEATH | PLANT SCIENCES | FLOWER DEVELOPMENT | THALIANA | EMBRYO SAC | DIFFERENTIATION | Arabidopsis - physiology | Arabidopsis - growth & development | Pollen Tube - cytology | Gene Expression Regulation, Developmental - genetics | Arabidopsis Proteins - metabolism | Ovule - genetics | In Situ Hybridization | Seeds - growth & development | Plants, Genetically Modified | Ovule - growth & development | Seeds - cytology | Arabidopsis Proteins - genetics | Proanthocyanidins - metabolism | Seeds - genetics | Arabidopsis - cytology | Germination | MADS Domain Proteins - genetics | Ovule - cytology | Gene Expression Regulation, Plant - genetics | Genotype | Transcription Factors - genetics | Pollen Tube - genetics | Pollination | Arabidopsis - genetics | MADS Domain Proteins - metabolism | Transcription Factors - metabolism | Phenotype | Seeds - physiology | Ploidies | Ovule - physiology | Mutation | Pollen Tube - physiology | Pollen Tube - growth & development | Plant biology | Plant reproduction | Genotype & phenotype | Seeds | Flowers & plants | Morphology | proanthocyanidins | Fertilization | SHP-1 protein | Starch | Cytology | Abortion | Embryos | Endothelium | ovules | Fertility | Development | Flowering | Endosperm | Integument | Life Sciences | Molecular biology | Cellular Biology | Biochemistry, Molecular Biology
Journal Article
Journal Article
The Plant Cell, ISSN 1040-4651, 7/2012, Volume 24, Issue 7, pp. 2886 - 2897
Hormones, such as auxin and cytokinin, are involved in the complex molecular network that regulates the coordinated development of plant organs. Genes... 
Gametophytes | Cytokinins | Phenotypes | Transcription factors | Developmental biology | Ovules | Auxins | Plants | Integument | Plant cells | EARLY SPOROGENESIS | ATP/ADP ISOPENTENYLTRANSFERASES | BIOCHEMISTRY & MOLECULAR BIOLOGY | CELL-FATE | WILD-TYPE ARABIDOPSIS | FEMALE GAMETOPHYTE | GENE ENCODES | HISTIDINE KINASE | PLANT SCIENCES | CELL BIOLOGY | PATTERN-FORMATION | PROXIMAL-DISTAL | ROOT-MERISTEM | Plant Shoots - physiology | Meristem - cytology | Arabidopsis - physiology | Homeodomain Proteins - metabolism | Meristem - physiology | Plant Roots - genetics | Cytokinins - pharmacology | Plant Roots - drug effects | Arabidopsis Proteins - metabolism | Ovule - genetics | Plant Roots - physiology | Biological Transport | Meristem - genetics | Membrane Transport Proteins - genetics | Plants, Genetically Modified | Body Patterning | Plant Shoots - drug effects | Membrane Transport Proteins - metabolism | Meristem - drug effects | Plant Shoots - genetics | Nuclear Proteins - genetics | Ovule - drug effects | Repressor Proteins - metabolism | Arabidopsis Proteins - genetics | Arabidopsis - drug effects | Indoleacetic Acids - metabolism | Arabidopsis - cytology | Ovule - cytology | Gene Expression Regulation, Plant - genetics | Repressor Proteins - genetics | Genotype | Nuclear Proteins - metabolism | Plant Roots - cytology | Transcription Factors - genetics | Plant Shoots - cytology | Homeodomain Proteins - genetics | Arabidopsis - genetics | Transcription Factors - metabolism | Phenotype | Indoleacetic Acids - pharmacology | Signal Transduction - physiology | Cytokinins - metabolism | Ovule - physiology | Mutation | Plant Growth Regulators - metabolism | Plant Growth Regulators - pharmacology | Arabidopsis | Analysis | Plant genetics | Development | Genetic aspects | Cellular signal transduction | Research | Plant hormones
Journal Article
Journal Article
The Plant Cell, ISSN 1040-4651, 7/2013, Volume 25, Issue 7, pp. 2560 - 2572
MADS domain transcription factors are key regulators of eukaryotic development. In plants, the homeotic MIKC MADS factors that regulate floral organ identity... 
RESEARCH ARTICLES | DNA | Genes | MADS domain proteins | Ovules | Reporter genes | Promoter regions | Gene expression regulation | Plants | Gene expression | Plant cells | HOMEOTIC PROTEINS | BIOCHEMISTRY & MOLECULAR BIOLOGY | TETHERED PARTICLE MOTION | PLANT SCIENCES | CELL BIOLOGY | FLOWER DEVELOPMENT | FLORAL QUARTETS | OVULE DEVELOPMENT | IN-VITRO | THALIANA | ANTIRRHINUM-MAJUS | BOX PROTEINS | BINDING | Arabidopsis - growth & development | Nucleotide Motifs - genetics | Homeodomain Proteins - metabolism | Immunoblotting | Promoter Regions, Genetic - genetics | Arabidopsis Proteins - metabolism | Ovule - genetics | In Situ Hybridization | DNA, Plant - chemistry | Gene Expression Regulation, Developmental | Base Sequence | Plants, Genetically Modified | Gene Expression Regulation, Plant | Ovule - growth & development | Nucleic Acid Conformation | DNA, Plant - genetics | Arabidopsis Proteins - genetics | Ovule - metabolism | MADS Domain Proteins - genetics | Transcription Factors - genetics | DNA, Plant - metabolism | Reverse Transcriptase Polymerase Chain Reaction | Sequence Homology, Nucleic Acid | Homeodomain Proteins - genetics | Arabidopsis - metabolism | Arabidopsis - genetics | MADS Domain Proteins - metabolism | Transcription Factors - metabolism | Protein Binding | Mutation | Arabidopsis thaliana | Transcription factors | Physiological aspects | Genetic aspects | Research | Nucleotide sequencing | DNA sequencing
Journal Article
Annals of Botany, ISSN 0305-7364, 6/2011, Volume 107, Issue 9, pp. 1465 - 1489
Journal Article
The Plant Cell, ISSN 1040-4651, 4/2013, Volume 25, Issue 4, pp. 1274 - 1287
Female gametogenesis in most flowering plants depends on the predetermined selection of a single meiotically derived cell, as the three other megaspores die... 
Gametophytes | Megasporogenesis | Mother cells | RESEARCH ARTICLES | Cell nucleus | Cell lines | Ovules | Megaspores | Plants | Cellular differentiation | Plant cells | FEMALE GAMETOPHYTE DEVELOPMENT