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Cell (Cambridge), ISSN 0092-8674, 2007, Volume 130, Issue 6, pp. 1057 - 1070
Journal Article
Journal Article
Plant physiology (Bethesda), ISSN 1532-2548, 2017, Volume 173, Issue 4, pp. 2081 - 2095
Journal Article
Journal Article
Plant physiology (Bethesda), ISSN 1532-2548, 2016, Volume 170, Issue 4, pp. 2278 - 2294
The transition from etiolated to green seedlings involves the conversion of etioplasts into mature chloroplasts via a multifaceted, light-driven process... 
SIGNALING AND RESPONSE | TRANSCRIPTION FACTORS | LIGHT REGULATION | AUREA MUTANT | ARABIDOPSIS-THALIANA | HIGHER-PLANTS | CHLOROPLAST DEVELOPMENT | NITRATE REDUCTASE-ACTIVITY | DE-ETIOLATION | ELECTRON MICROSCOPY | MESSENGER-RNA LEVELS | PLANT SCIENCES | Fumigation | Genes, Plant | Nitrate Reductase - metabolism | Down-Regulation - radiation effects | Lycopersicon esculentum - physiology | RNA, Messenger - metabolism | Ethylenes - metabolism | Cell Differentiation - genetics | Cotyledon - radiation effects | Light | Lycopersicon esculentum - genetics | Plastids - metabolism | Cotyledon - ultrastructure | Cell Differentiation - radiation effects | Lycopersicon esculentum - metabolism | Gene Expression Regulation, Plant - radiation effects | Indoleacetic Acids - metabolism | Morphogenesis - radiation effects | RNA, Messenger - genetics | Biliverdine - metabolism | Chlorophyll - metabolism | Etiolation | Lycopersicon esculentum - radiation effects | Mutation - genetics | Cotyledon - metabolism | Down-Regulation - genetics | Biliverdine - analogs & derivatives | Plastids - ultrastructure | Plastids - radiation effects | Nitric Oxide - metabolism | Seedlings - radiation effects | Seedlings - metabolism | Auxin | Growth | Nitric oxide | Physiological aspects | Tomatoes | Growth (Plants) | Observations | Health aspects | Plastids
Journal Article
Plant physiology (Bethesda), ISSN 0032-0889, 10/2016, Volume 172, Issue 2, pp. 1045 - 1060
Journal Article
Protoplasma, ISSN 1615-6102, 2018, Volume 256, Issue 3, pp. 643 - 654
Chemical communication underlies major adaptive traits in plants and shapes the root microbiome. An increasing number of diffusible and/or volatile organic... 
Life Sciences | Arabidopsis thaliana | Zoology | Root growth | Plant Sciences | Cytokinin | N-N -dimethyl-hexadecylamine | Jasmonic acid | Cell Biology | N-N-dimethyl-hexadecylamine | TRANSPORTER | LEAVES | PLANT SCIENCES | CELL BIOLOGY | MORPHOGENESIS | METHYL JASMONATE | ISOLEUCINE | ANTIFUNGAL | Volatile Organic Compounds - metabolism | Arabidopsis - growth & development | Cotyledon - drug effects | Promoter Regions, Genetic - genetics | Seedlings - growth & development | Plant Roots - drug effects | Plant Shoots - drug effects | Plant Leaves - drug effects | Plant Roots - growth & development | Methylamines - metabolism | Bacteria - metabolism | Arabidopsis - drug effects | Plant Roots - metabolism | Seedlings - drug effects | Cotyledon - metabolism | Arabidopsis - metabolism | Arabidopsis - genetics | Oxylipins - metabolism | Gene Expression Regulation, Plant - drug effects | Plant Leaves - metabolism | Plant Stems - drug effects | Plant Stems - metabolism | Signal Transduction - drug effects | Plant Shoots - metabolism | Cyclopentanes - metabolism | Kinetin - pharmacology | Cytokinins - metabolism | Seedlings - metabolism | Volatile organic compounds | Cytokinins | Bacteria | Plants | Growth | Wounding | Chemical communication | Roots | Microbiomes | Kinetin | Volatile organic compounds--VOCs | Supplementation | Organic compounds | Seedlings
Journal Article
The Plant cell, ISSN 1040-4651, 5/2008, Volume 20, Issue 5, pp. 1303 - 1315
The plastid-localized methylerythritol phosphate (MEP) pathway synthesizes the isoprenoid precursors for the production of essential photosynthesis-related... 
Enzymes | Phenotypes | Chloroplasts | Terpenoids | Biosynthesis | Gene expression regulation | Plants | Plastids | Seedlings | Plant cells | METHYLERYTHRITOL PHOSPHATE-PATHWAY | NITRIC-OXIDE SYNTHASE | BIOCHEMISTRY & MOLECULAR BIOLOGY | NON-MEVALONATE PATHWAY | 4-PHOSPHATE PATHWAY | 5-PHOSPHATE REDUCTOISOMERASE | PLANT SCIENCES | CELL BIOLOGY | GENE | THALIANA | CHLOROPLAST DEVELOPMENT | PLANTS | DEPENDENT CLP PROTEASE | Homeostasis | Molecular Sequence Data | Ribosomes - metabolism | Seedlings - genetics | Phylogeny | Nitric Oxide Synthase - genetics | Arabidopsis Proteins - metabolism | Terpenes - metabolism | Plants, Genetically Modified | Plastids - genetics | Plastids - metabolism | Transcription, Genetic | Cotyledon - ultrastructure | Chloroplasts - genetics | Microscopy, Electron, Transmission | Arabidopsis Proteins - genetics | Chloroplasts - ultrastructure | Arabidopsis - ultrastructure | Signal Transduction - genetics | Cotyledon - genetics | Cotyledon - metabolism | Chloroplasts - metabolism | Arabidopsis - metabolism | Seedlings - ultrastructure | Arabidopsis - genetics | Plastids - enzymology | Sugar Phosphates - metabolism | Signal Transduction - physiology | Nitric Oxide Synthase - metabolism | Mutation | Arabidopsis Proteins - classification | Nitric Oxide - metabolism | Seedlings - metabolism | Arabidopsis thaliana | Phosphates | Photosynthesis | Nitric oxide
Journal Article
The Plant journal : for cell and molecular biology, ISSN 0960-7412, 2011, Volume 68, Issue 2, pp. 302 - 313
Summary NAC transcription factors play important roles in plant growth, development and stress responses. Previously, we identified multiple NAC genes in... 
soybean | transgenic plants | transcription factor | stress tolerance | NAC protein | lateral root | MOLECULAR CHARACTERIZATION | PROTEIN | MEDIATED TRANSFORMATION | ARABIDOPSIS PLANTS | SALT-STRESS | NEGATIVE REGULATOR | MERISTEM FORMATION | PLANT SCIENCES | SHOOT MERISTEM | FUNCTIONAL-ANALYSIS | RESPONSIVE GENE-EXPRESSION | Green Fluorescent Proteins | Flowers - metabolism | Nucleotide Motifs - genetics | Sodium Chloride - pharmacology | Transcriptional Activation | Protoplasts | Plant Roots - genetics | Seedlings - genetics | Plant Stems - genetics | Soybeans - genetics | Freezing | Seedlings - growth & development | DNA-Binding Proteins - metabolism | Soybeans - growth & development | Cell Nucleus - metabolism | Droughts | Plants, Genetically Modified | Salt-Tolerance | Plant Proteins - metabolism | Plant Roots - growth & development | Plant Stems - growth & development | Stress, Physiological - physiology | Soybean Proteins - metabolism | Plant Roots - metabolism | Indoleacetic Acids - metabolism | Soybean Proteins - genetics | Gene Expression Regulation, Plant - genetics | Transcription Factors - genetics | Cotyledon - genetics | DNA-Binding Proteins - genetics | Cotyledon - metabolism | Soybeans - metabolism | Flowers - growth & development | Arabidopsis - metabolism | Arabidopsis - genetics | Transcription Factors - metabolism | Plant Proteins - genetics | Plant Stems - metabolism | Cotyledon - growth & development | Plant Growth Regulators - metabolism | Flowers - genetics | Seedlings - metabolism | Genetically modified plants | Analysis | Genes | Genetic research | Genetic engineering | DNA binding proteins | Soybean | Plants | Glycine | Plant hormones | Soybeans | Crop science | Plant growth | Gene expression | Transgenic plants | Agronomy
Journal Article
The Plant cell, ISSN 1532-298X, 2011, Volume 23, Issue 5, pp. 1920 - 1931
Endocytosis is a crucial mechanism by which eukaryotic cells internalize extracellular and plasma membrane material, and it is required for a multitude of... 
Endocytosis | Cotyledons | Plant roots | Auxins | Cell membranes | Gene expression regulation | Plants | Embryos | Plant cells | Seedlings | ROOT-CELLS | BIOCHEMISTRY & MOLECULAR BIOLOGY | TRAFFICKING | PLASMA-MEMBRANE | PLANT SCIENCES | CELL BIOLOGY | RECEPTOR KINASE | EFFLUX | FEEDBACK-REGULATION | DEPENDENT ENDOCYTOSIS | VESICLE FORMATION | POLLEN TUBES | BREFELDIN-A | Cell Polarity | Arabidopsis - physiology | Plants, Genetically Modified - growth & development | Arabidopsis - growth & development | Plant Roots - genetics | Seedlings - genetics | Arabidopsis - embryology | Clathrin-Coated Vesicles - metabolism | Recombinant Fusion Proteins | Seedlings - growth & development | Arabidopsis Proteins - metabolism | Biological Transport | Membrane Transport Proteins - metabolism | Cell Membrane - metabolism | Plant Roots - growth & development | Genes, Reporter | Arabidopsis Proteins - genetics | Plant Roots - metabolism | Indoleacetic Acids - metabolism | Plants, Genetically Modified - genetics | Plants, Genetically Modified - enzymology | Clathrin - metabolism | Endocytosis - physiology | Arabidopsis - genetics | Phenotype | Plants, Genetically Modified - metabolism | Mutation | Seedlings - metabolism | Arabidopsis thaliana | Embryonic development | Clathrin | Auxin | Physiological aspects | Genetic aspects | Research
Journal Article
Biochemical journal, ISSN 1470-8728, 2012, Volume 446, Issue 2, pp. 271 - 278
MAPKs (mitogen-activated protein kinases) are signalling components highly conserved among eukaryotes. Their diverse biological functions include cellular... 
At2g14850.1 | Arabidopsis | At1g80180.1 | Random positional scanning synthetic combinatorial peptide library | Stoma | At3g16770.1 | At1g13390.1 | Mitogen-activated protein kinase substrate (MAPK substrate) | mitogen-activated protein kinase substrate (MAPK substrate) | SITE | ACTIVATED PROTEIN-KINASE | AtIg80180.1 | STOMATAL DEVELOPMENT | PHOSPHORYLATION | BIOCHEMISTRY & MOLECULAR BIOLOGY | stoma | CASCADES | AtIg13390.1 | PLASMA-MEMBRANE | THALIANA | DNA | RESISTANCE | RAPID METHOD | random positional scanning synthetic combinatorial peptide library | Mitogen-Activated Protein Kinase Kinases - genetics | Phosphorylation | Arabidopsis - enzymology | Substrate Specificity | Peptide Library | Plant Stomata - metabolism | Arabidopsis Proteins - metabolism | Mitogen-Activated Protein Kinase Kinases - metabolism | Peptides - metabolism | Plants, Genetically Modified | Plant Stomata - enzymology | Recombinant Proteins - metabolism | Amino Acid Sequence | Arabidopsis Proteins - genetics | Computational Biology - methods | Peptides - chemistry | Tobacco - metabolism | Models, Molecular | Mutant Proteins - metabolism | Tobacco - growth & development | Plant Stomata - growth & development | Cotyledon - metabolism | Serine - metabolism | Arabidopsis - metabolism | Cotyledon - enzymology | Tobacco - genetics | Cotyledon - growth & development | Mitogen-Activated Protein Kinases - genetics | Protein Processing, Post-Translational | Kinetics | Mitogen-Activated Protein Kinases - metabolism | Biokemi och molekylärbiologi | Biochemistry and Molecular Biology
Journal Article
The Plant journal : for cell and molecular biology, ISSN 0960-7412, 2013, Volume 74, Issue 4, pp. 626 - 637
Summary Interactions between phytohormones play important roles in the regulation of plant growth and development, but knowledge of the networks controlling... 
hormone signaling | root development | YUCCA genes | auxin | Arabidopsis | jasmonic acid | plant hormone interaction | TRYPTOPHAN | ARABIDOPSIS-THALIANA | FLAVIN MONOOXYGENASES | DEPENDENT INDOLE-3-ACETIC-ACID BIOSYNTHESIS | PLANT DEVELOPMENT | PLANT SCIENCES | PHYTOTOXIN CORONATINE | METHYL JASMONATE | GROWTH | STRESS | LEAF | Arabidopsis - physiology | Plant Components, Aerial - physiology | Arabidopsis - growth & development | Hypocotyl - genetics | Homeostasis | Plant Roots - genetics | Mixed Function Oxygenases - metabolism | Arabidopsis Proteins - metabolism | Plant Roots - physiology | Oxygenases - metabolism | Plants, Genetically Modified | Gene Expression Regulation, Plant | Plant Components, Aerial - growth & development | Plant Roots - growth & development | Arabidopsis Proteins - genetics | Indoleacetic Acids - metabolism | Signal Transduction | Acetates - metabolism | Cotyledon - physiology | Hypocotyl - growth & development | Hypocotyl - physiology | Cotyledon - genetics | Gene Knockout Techniques | Plant Components, Aerial - genetics | Arabidopsis - genetics | Oxylipins - metabolism | Phenotype | Cotyledon - growth & development | Cyclopentanes - metabolism | Mutation | Oxygenases - genetics | Mixed Function Oxygenases - genetics | Plant Growth Regulators - metabolism | Arabidopsis thaliana | Auxin | Analysis | Physiological aspects | Genetic research | Genetic transcription | Organic acids | Plant biology | Signal transduction | Plant growth | Gene expression
Journal Article
PloS one, ISSN 1932-6203, 2016, Volume 11, Issue 11, p. e0166131
Journal Article