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The Plant Cell, ISSN 1040-4651, 7/2012, Volume 24, Issue 7, pp. 2874 - 2885
Auxin transport, which is mediated by specialized influx and efflux carriers, plays a major role in many aspects of plant growth and development. AUXIN1 (AUX1)... 
Proteins | Phenotypes | Epidermal cells | Alleles | Cell lines | Antibodies | Auxins | Oocytes | Plant cells | Seedlings | PERMEASE AUX1 | LOCALIZATION | ROOT GRAVITROPISM | BIOCHEMISTRY & MOLECULAR BIOLOGY | PLANT DEVELOPMENT | PIN PROTEINS | PLANT SCIENCES | CELL BIOLOGY | HAIR-CELLS | EFFLUX | LAX3 | PATHWAY | EXPRESSION | Multigene Family | Arabidopsis - growth & development | Plant Roots - genetics | Seedlings - genetics | Seedlings - growth & development | Arabidopsis Proteins - metabolism | Biological Transport | Membrane Transport Proteins - genetics | Plants, Genetically Modified | Body Patterning | Membrane Transport Proteins - metabolism | Plant Vascular Bundle - genetics | Plant Roots - growth & development | Arabidopsis Proteins - genetics | Plant Roots - metabolism | Indoleacetic Acids - metabolism | Seedlings - cytology | Arabidopsis - cytology | Plant Roots - cytology | Cotyledon - genetics | Gene Knockout Techniques | Cotyledon - metabolism | Arabidopsis - metabolism | Arabidopsis - genetics | Phenotype | Cotyledon - cytology | Plant Vascular Bundle - cytology | Plant Vascular Bundle - metabolism | Cotyledon - growth & development | Mutagenesis, Insertional | Plant Vascular Bundle - growth & development | Seedlings - metabolism | Arabidopsis thaliana | Analysis | Biological transport | Plant genetics | Development | Genetic aspects | Research | Plants | Plant hormones | Seedling | Cotyledon | Arabidopsis | Life Sciences | Arabidopsis Proteins | Plant Roots | Membrane Transport Proteins | Vegetal Biology | Plant Vascular Bundle | Indoleacetic Acids
Journal Article
The Plant Journal, ISSN 0960-7412, 11/2012, Volume 72, Issue 4, pp. 674 - 682
Summary One of the key events in dicot plant embryogenesis is the emergence of the two cotyledon primordia, which marks the transition from radial symmetry to... 
CUP‐SHAPED COTYLEDON | WOX2 | embryogenesis | cotyledon separation | Arabidopsis | STIMPY‐LIKE | CUP-SHAPED COTYLEDON | STIMPY-LIKE | VASCULAR DEVELOPMENT | MICRORNA REGULATION | GENE MONOPTEROS | PLANT SCIENCES | YUCCA FLAVIN MONOOXYGENASES | PATTERN-FORMATION | CUP-SHAPED-COTYLEDON | AUXIN BIOSYNTHESIS | SHOOT APICAL MERISTEM | AXIS FORMATION | GNOM ARF-GEF | Plants, Genetically Modified - growth & development | Arabidopsis - growth & development | Transcriptional Activation | RNA, Messenger - metabolism | RNA, Plant - metabolism | Arabidopsis Proteins - metabolism | Biological Transport | Meristem - genetics | Seeds - growth & development | Gene Expression Regulation, Developmental | Meristem - metabolism | Protein Structure, Tertiary | Arabidopsis Proteins - genetics | Seeds - metabolism | Indoleacetic Acids - metabolism | Plants, Genetically Modified - genetics | Seeds - genetics | RNA, Messenger - genetics | RNA, Plant - genetics | Transcription Factors - genetics | Cotyledon - genetics | Cotyledon - metabolism | Meristem - growth & development | Arabidopsis - metabolism | Arabidopsis - genetics | Transcription Factors - metabolism | Phenotype | Plants, Genetically Modified - metabolism | Cotyledon - growth & development | Arabidopsis thaliana | Genes | DNA binding proteins | Plant biology | Embryology | Plant growth | Gene expression
Journal Article
Journal Article
Plant Cell Reports, ISSN 0721-7714, 2/2013, Volume 32, Issue 2, pp. 239 - 247
Agrobacterium tumefaciens strains differ not only in their ability to transform tomato Micro-Tom, but also in the number of transgene copies that the strains... 
Life Sciences | Biotechnology | Agrobacterium -mediated transformation | Plant Biochemistry | Cotyledon explants | Tomato | Plant Sciences | Micro-Tom | Cell Biology | Agrobacterium-mediated transformation | SYSTEM | MUTAGENESIS | MEDIATED TRANSFORMATION | ESCULENTUM | TIME PCR ASSAY | FUNCTIONAL GENOMICS | PLANT SCIENCES | INHIBITION | COPY NUMBER | PLANTS | EXPRESSION | Plant Shoots - physiology | Blotting, Southern | Plant Shoots - growth & development | Agrobacterium tumefaciens - genetics | Plant Roots - genetics | Lycopersicon esculentum - cytology | Lycopersicon esculentum - physiology | Plant Roots - physiology | Lycopersicon esculentum - growth & development | Time Factors | Plants, Genetically Modified | Lycopersicon esculentum - genetics | Plant Shoots - genetics | Transgenes | Plant Roots - growth & development | Real-Time Polymerase Chain Reaction | Cotyledon - physiology | Gene Dosage | Plant Roots - cytology | Random Allocation | Cotyledon - genetics | Plant Shoots - cytology | Transformation, Genetic - genetics | Regeneration | DNA, Bacterial - genetics | Plasmids | Cotyledon - cytology | Cotyledon - growth & development | Genetic research | Genetic engineering | Tomatoes | Plants | Analysis | Genomics | Polymerase chain reaction | Cotyledons | Transformation | Mortality | Insertion | genomics | T-DNA | Southern blotting | copy number | Transgenic plants
Journal Article
Annals of Botany, ISSN 0305-7364, 9/2012, Volume 110, Issue 4, pp. 923 - 934
• Background and Aims During embryo development in most gymnosperms, the establishment of the shoot apical meristem (SAM) occurs concomitantly with the... 
Cotyledons | Phenotypes | Apical meristems | Complementary DNA | Genes | Auxins | Gene expression regulation | Plants | Tree developmental biology | Embryos | Seedlings | CUP-SHAPED COTYLEDONS (CUC) | NAC | gymnosperm | Angiosperm | shoot apical meristem (SAM) | somatic embryogenesis | P. glauca | Picea abies | embryo patterning | polar auxin transport (PAT) | ARABIDOPSIS-THALIANA | TRANSCRIPTION FACTOR FAMILY | PROTEIN | MICRORNA REGULATION | PLANT SCIENCES | STRESS-RESPONSIVE GENES | PATTERN-FORMATION | NORWAY SPRUCE | glauca | BOUNDARY | EMBRYOGENESIS | Meristem - cytology | Multigene Family | Gene Expression Regulation, Developmental - genetics | Seedlings - genetics | Phylogeny | Promoter Regions, Genetic - genetics | Seedlings - growth & development | Cell Differentiation - genetics | Biological Transport | Meristem - genetics | Seeds - growth & development | Picea - growth & development | Meristem - metabolism | Plant Proteins - metabolism | Seeds - cytology | Picea - metabolism | Picea - cytology | Seeds - metabolism | Indoleacetic Acids - metabolism | Seedlings - cytology | Seeds - genetics | Computational Biology | Gene Expression Regulation, Plant - genetics | Cotyledon - genetics | Cotyledon - metabolism | Meristem - growth & development | Amino Acid Motifs | Arabidopsis - metabolism | Arabidopsis - genetics | Plant Proteins - genetics | Phenotype | Cotyledon - cytology | Picea - genetics | Cotyledon - growth & development | Mutation | Plant Growth Regulators - metabolism | Seedlings - metabolism | NAC, Picea abies | Tree Developmental Biology | Plant Biotechnology | Biochemistry and Molecular Biology | Skogsvetenskap | Forest Science | Biokemi och molekylärbiologi | Växtbioteknologi
Journal Article
Journal Article
The Plant Cell, ISSN 1040-4651, 8/2011, Volume 23, Issue 8, pp. 2895 - 2908
Postgerminative growth of seed plants requires specialized metabolism, such as gluconeogenesis, to support heterotrophic growth of seedlings until the... 
Hydrolysis | Cotyledons | Cell growth | Phenotypes | Germination | Alleles | Proton pump inhibitors | Plants | Seedlings | Plant cells | BIOCHEMISTRY & MOLECULAR BIOLOGY | ESCHERICHIA-COLI | LEAF DEVELOPMENT | TRANSLOCATING INORGANIC PYROPHOSPHATASE | PLANT SCIENCES | CELL BIOLOGY | ORGAN SIZE | MUTANTS | CELL EXPANSION | ACID BETA-OXIDATION | THALIANA | GROWTH | PLANT VACUOLES | Darkness | Vacuoles - enzymology | Diphosphates - metabolism | Arabidopsis - enzymology | Arabidopsis - growth & development | Saccharomyces cerevisiae - genetics | Seedlings - genetics | Sucrose - pharmacology | Heterotrophic Processes | Inorganic Pyrophosphatase - metabolism | Seedlings - enzymology | Seedlings - growth & development | Arabidopsis Proteins - metabolism | Cytosol - enzymology | Plants, Genetically Modified | Gene Expression Regulation, Plant | Gluconeogenesis | Arabidopsis Proteins - genetics | Oxidation-Reduction | Hypocotyl - growth & development | Saccharomyces cerevisiae Proteins - genetics | Cotyledon - genetics | Peroxisomes - metabolism | Arabidopsis - genetics | Phenotype | Inorganic Pyrophosphatase - genetics | Cotyledon - enzymology | Saccharomyces cerevisiae Proteins - metabolism | Cotyledon - growth & development | Saccharomyces cerevisiae - enzymology | Vacuoles - metabolism | Cytosol - metabolism | Mutation | Hydrogen-Ion Concentration
Journal Article
The Plant Cell, ISSN 1040-4651, 7/2014, Volume 26, Issue 7, pp. 3090 - 3100
Purine nucleotides can be fully catabolized by plants to recycle nutrients. We have isolated a urate oxidase (uox) mutant of Arabidopsis thaliana that... 
Peroxisomes | Cotyledons | Phenotypes | RESEARCH ARTICLES | Lipids | Catabolism | Uric acid | Embryos | Xanthines | Seedlings | Plant cells | PURINE RING CATABOLISM | BETA-OXIDATION | PLANT | BIOCHEMISTRY & MOLECULAR BIOLOGY | RESOLUTION MASS-SPECTROMETRY | IDENTIFICATION | EXTENDED DARKNESS | PLANT SCIENCES | CELL BIOLOGY | BINDING CASSETTE TRANSPORTER | XANTHINE DEHYDROGENASE | THALIANA | MATRIX PROTEIN-DEGRADATION | Xanthine Dehydrogenase - metabolism | Arabidopsis - enzymology | Plant Components, Aerial - embryology | Seeds - enzymology | Xanthine Dehydrogenase - genetics | Seedlings - genetics | Arabidopsis - embryology | Plant Components, Aerial - enzymology | Seedlings - enzymology | Promoter Regions, Genetic - genetics | Purine Nucleotides - metabolism | Urate Oxidase - metabolism | Arabidopsis Proteins - metabolism | Uric Acid - chemistry | Seedlings - embryology | Urate Oxidase - genetics | Cotyledon - ultrastructure | Fatty Acids - metabolism | Arabidopsis Proteins - genetics | Uric Acid - metabolism | Seeds - genetics | Seeds - ultrastructure | Cotyledon - embryology | Germination | Plant Components, Aerial - ultrastructure | Arabidopsis - ultrastructure | Xanthine - chemistry | Cotyledon - genetics | Plant Components, Aerial - genetics | Peroxisomes - metabolism | Seedlings - ultrastructure | Xanthine - metabolism | Arabidopsis - genetics | Seeds - embryology | Phenotype | Cotyledon - enzymology | Mutation | Arabidopsis thaliana | Botanical research | Gene mutations | Genetic research | Genetic aspects | Research | Health aspects
Journal Article
The Plant Cell, ISSN 1040-4651, 4/2011, Volume 23, Issue 4, pp. 1337 - 1351
The period following seedling emergence is a particularly vulnerable stage in the plant life cycle. In Arabidopsis thaliana, the phytochrome-interacting factor... 
Datasets | Cotyledons | Hypocotyls | Plant growth regulators | Gibberellins | Genes | Alleles | Gene expression regulation | Seedlings | Plant cells | PLANT PHOTORECEPTORS PHYTOCHROME | TRANSCRIPTION FACTOR SPATULA | INTERACTING FACTOR | BIOCHEMISTRY & MOLECULAR BIOLOGY | MEDIATED DEGRADATION | NEGATIVE REGULATOR | PLANT SCIENCES | CELL BIOLOGY | SIGNAL-TRANSDUCTION | LOOP-HELIX PROTEIN | FLORAL DEVELOPMENT | GIBBERELLIN RECEPTOR | LOCUS ENCODES | Oligonucleotide Array Sequence Analysis | Arabidopsis - growth & development | Hypocotyl - genetics | Cotyledon - drug effects | Seedlings - genetics | Seedlings - growth & development | Arabidopsis Proteins - metabolism | Arabidopsis - radiation effects | Cotyledon - radiation effects | Basic Helix-Loop-Helix Transcription Factors - metabolism | Light | Gene Expression Regulation, Plant | Repressor Proteins - metabolism | Arabidopsis Proteins - genetics | Arabidopsis - drug effects | Basic Helix-Loop-Helix Transcription Factors - genetics | Phytochrome B - metabolism | Hypocotyl - growth & development | Repressor Proteins - genetics | Hypocotyl - radiation effects | Seedlings - drug effects | Cotyledon - genetics | Mutation - genetics | Arabidopsis - genetics | Phenotype | Genes, Plant - genetics | Models, Biological | Cotyledon - growth & development | Gibberellins - pharmacology | Hypocotyl - drug effects | Seedlings - radiation effects | Arabidopsis thaliana | Genetic aspects | Growth (Plants) | Growth
Journal Article
Journal Article
The Plant Cell, ISSN 1040-4651, 5/2011, Volume 23, Issue 5, pp. 1849 - 1860
In plants, light represents an important environmental signal that triggers the production of photosynthetically active chloroplasts. This developmental switch... 
Up regulation | Cotyledons | Carotenoids | Genes | Gene expression regulation | Biosynthesis | Plants | Chlorophylls | Seedlings | Plant cells | BIOCHEMISTRY & MOLECULAR BIOLOGY | LIGHT | MEDIATED DEGRADATION | PLANT SCIENCES | CELL BIOLOGY | SIGNAL-TRANSDUCTION | DEPENDENT PROTOCHLOROPHYLLIDE OXIDOREDUCTASE | PHYTOCHROME-INTERACTING FACTORS | GENE-EXPRESSION | FLORAL DEVELOPMENT | TRANSCRIPTION FACTOR | PLANT-GROWTH | MICROARRAY DATA | Chlorophyll - radiation effects | Darkness | Arabidopsis - physiology | Arabidopsis - enzymology | Reactive Oxygen Species - metabolism | Oligonucleotide Array Sequence Analysis | Oxidative Stress | Transcriptome | Seedlings - genetics | Protochlorophyllide - metabolism | Seedlings - growth & development | Arabidopsis Proteins - metabolism | Arabidopsis - radiation effects | Cotyledon - radiation effects | Protochlorophyllide - radiation effects | Gibberellins - metabolism | Light | Phytochrome - metabolism | Gene Expression Regulation, Plant | Oxidoreductases Acting on CH-CH Group Donors - genetics | Photobleaching | Arabidopsis Proteins - genetics | Cotyledon - physiology | Chlorophyll - metabolism | Transcription Factors - genetics | Cotyledon - genetics | Arabidopsis - genetics | Oxidoreductases Acting on CH-CH Group Donors - metabolism | Transcription Factors - metabolism | Carotenoids - radiation effects | Carotenoids - metabolism | Seedlings - radiation effects | Arabidopsis thaliana | Chlorophyll | Physiological aspects | Development | Genetic aspects | Research
Journal Article