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Plant, Cell & Environment, ISSN 0140-7791, 04/2014, Volume 37, Issue 4, pp. 961 - 977
The blue light photoreceptors cryptochromes are ubiquitous in higher plants and are vital for regulating plant growth and development. In spite of being... 
microarray | photomorphogenesis | anthocyanin | hypocotyl | abiotic stress | Anthocyanin | Hypocotyl | Microarray | Abiotic stress | Photomorphogenesis | SEEDLING DEVELOPMENT | ARABIDOPSIS HYPOCOTYL ELONGATION | F-BOX PROTEINS | VACUOLAR H+-ATPASE | BLUE-LIGHT | PLANT SCIENCES | EMBRYOGENESIS ABUNDANT PROTEINS | GENOME-WIDE ANALYSIS | NITRIC-OXIDE | DE-ETIOLATION | TRANSCRIPTION-FACTOR | Cell Wall - radiation effects | Brassica napus - drug effects | Cotyledon - drug effects | Cryptochromes - genetics | Molecular Sequence Data | Gene Expression Profiling | Plant Development - drug effects | Plant Development - genetics | Stress, Physiological - radiation effects | Plant Development - radiation effects | Brassica napus - radiation effects | Cotyledon - radiation effects | Light | Plants, Genetically Modified | Plant Epidermis - cytology | Plant Leaves - drug effects | Plant Proteins - metabolism | Stress, Physiological - drug effects | Germination - radiation effects | Signal Transduction - radiation effects | Plant Epidermis - radiation effects | Real-Time Polymerase Chain Reaction | Brassica napus - growth & development | Cryptochromes - metabolism | Germination - drug effects | Gene Expression Regulation, Plant - radiation effects | Brassica napus - genetics | Stress, Physiological - genetics | Cell Wall - genetics | Hypocotyl - growth & development | Plant Leaves - radiation effects | Signal Transduction - genetics | Hypocotyl - radiation effects | Seedlings - drug effects | Anthocyanins - metabolism | Abscisic Acid - pharmacology | Plant Proteins - genetics | Gene Expression Regulation, Plant - drug effects | Phenotype | Signal Transduction - drug effects | Plant Leaves - growth & development | Cotyledon - growth & development | Hypocotyl - drug effects | Plant Growth Regulators - metabolism | Seedlings - radiation effects | Seedlings - metabolism | Genetic research | Abscisic acid | Genetic engineering | Growth | Analysis | Genes
Journal Article
分子植物, ISSN 1674-2052, 2012, Volume 5, Issue 3, pp. 750 - 762
Ubiquitin-26S proteasome system (UPS) has been shown to play central roles in light and hormone-regulated plant growth and development. Previously, we have... 
种子发芽 | RT-PCR检测 | 剂量反应 | 光形态建成 | 生物合成基因 | 激素调节 | MAX2 | 26S蛋白酶体 | photomorphogenesis | Arabidopsis | strigolactone | protein degradation | F-box protein | SCF complex | ARABIDOPSIS-THALIANA | SEED-GERMINATION | BIOCHEMISTRY & MOLECULAR BIOLOGY | PIL5 | HELIX TRANSCRIPTION FACTOR | NEGATIVE REGULATOR | PLANT SCIENCES | AUXIN TRANSPORT | PHYTOCHROME-INTERACTING FACTORS | DEGRADATION | LIGHT SIGNAL-TRANSDUCTION | Organ Specificity - drug effects | Seeds - radiation effects | Arabidopsis - growth & development | Epistasis, Genetic - drug effects | Lactones - pharmacology | Seedlings - growth & development | Arabidopsis Proteins - metabolism | Arabidopsis - radiation effects | Biosynthetic Pathways - radiation effects | Seeds - growth & development | Biological Transport - radiation effects | Light | Biological Transport - drug effects | Germination - radiation effects | Germination - drug effects | Gene Expression Regulation, Plant - radiation effects | Arabidopsis - drug effects | Indoleacetic Acids - metabolism | Morphogenesis - radiation effects | Seeds - drug effects | Ubiquitin-Protein Ligases - metabolism | Seedlings - drug effects | Mutation - genetics | Abscisic Acid - pharmacology | Gene Expression Regulation, Plant - drug effects | Organ Specificity - radiation effects | Phenotype | Biosynthetic Pathways - drug effects | Carrier Proteins - metabolism | Epistasis, Genetic - radiation effects | Genes, Plant - genetics | Gibberellins - pharmacology | Morphogenesis - drug effects | Plant Growth Regulators - metabolism | Seedlings - radiation effects
Journal Article
Annals of Botany, ISSN 0305-7364, 1/2008, Volume 101, Issue 2, pp. 267 - 276
• Background and Aims The plants that have remained in the contaminated areas around Chernobyl since 1986 encapsulate the effects of radiation. Such plants are... 
Radionuclides | Plant adaptation | DNA | Germination | DNA damage | Irradiation | Pollen | Plants | DNA repair | Radiation damage | Chernobyl | Seed | Oenothera biennis | Betula verrucosa | Adaptation | ARABIDOPSIS-THALIANA | radionuclides | seed | pollen | ZONE | ACCIDENT | adaptation | DOUBLE-STRAND BREAKS | GENOME | PLANT SCIENCES | PROGRAMMED CELL-DEATH | HIGHER-PLANTS | CONSEQUENCES | RADIOSENSITIVITY | EMBRYOS | Seeds - radiation effects | DNA Restriction Enzymes - metabolism | Sodium Chloride - pharmacology | Adaptation, Physiological - drug effects | Betula - physiology | DNA Repair - radiation effects | DNA, Plant - biosynthesis | Nucleosomes - drug effects | Radioisotopes - pharmacology | Oenothera biennis - radiation effects | DNA Breaks, Single-Stranded - drug effects | Time Factors | Pollen - genetics | Betula - genetics | Osmotic Pressure - radiation effects | Germination - radiation effects | Germination - drug effects | Pollen - drug effects | DNA Repair - drug effects | Seeds - drug effects | Seeds - genetics | DNA Breaks, Single-Stranded - radiation effects | Chernobyl Nuclear Accident | Adaptation, Physiological - radiation effects | Seedlings - drug effects | Oenothera biennis - physiology | Pollen - radiation effects | Betula - drug effects | Oenothera biennis - genetics | Betula - radiation effects | Nucleosomes - radiation effects | Osmotic Pressure - drug effects | Seedlings - radiation effects | Dose-Response Relationship, Radiation | Original
Journal Article
Plant Physiology, ISSN 0032-0889, 10/2013, Volume 163, Issue 2, pp. 857 - 866
Light and the phytohormone abscisic acid (ABA) regulate overlapping processes in plants, such as seed germination and seedling development. However, the... 
Transcription factors | Plant growth regulators | Genes | Germination | Root growth | SIGNALING AND RESPONSE | Plants | Drought | Seedlings | Seed germination | Plant cells | CIRCADIAN CLOCK | SEED-GERMINATION | PROTEIN | ABI5 | THALIANA | GENE-EXPRESSION | TRANSDUCTION | FHY3 | PHYTOCHROME | NEGATIVE REGULATOR | PLANT SCIENCES | Basic-Leucine Zipper Transcription Factors - metabolism | Up-Regulation - radiation effects | Adaptation, Physiological - drug effects | Plant Roots - genetics | Stress, Physiological - radiation effects | Plant Roots - drug effects | Arabidopsis Proteins - metabolism | Arabidopsis - radiation effects | Seeds - growth & development | Adaptation, Physiological - genetics | Droughts | Germination - genetics | Light | Phytochrome - metabolism | Plant Stomata - drug effects | Osmotic Pressure - radiation effects | Abscisic Acid - metabolism | Stress, Physiological - drug effects | Signal Transduction - radiation effects | Plant Roots - growth & development | Germination - drug effects | Arabidopsis Proteins - genetics | Gene Expression Regulation, Plant - radiation effects | Arabidopsis - drug effects | Seeds - drug effects | Stress, Physiological - genetics | Nuclear Proteins - metabolism | Up-Regulation - genetics | Signal Transduction - genetics | Adaptation, Physiological - radiation effects | Basic-Leucine Zipper Transcription Factors - genetics | Gene Knockout Techniques | Mutation - genetics | Arabidopsis - metabolism | Salinity | Arabidopsis - genetics | Transcription Factors - metabolism | Up-Regulation - drug effects | Abscisic Acid - pharmacology | Gene Expression Regulation, Plant - drug effects | Phenotype | Signal Transduction - drug effects | Osmotic Pressure - drug effects | Plant Stomata - physiology | Plant Roots - radiation effects | Arabidopsis thaliana | Photoreception | Physiological aspects | Abscisic acid | Genetic aspects | Cellular signal transduction | Research
Journal Article
The Plant Cell, ISSN 1040-4651, 12/2006, Volume 18, Issue 12, pp. 3721 - 3744
We show that oomycete-derived Nep1 (for necrosis and ethylene-inducing peptide1)-like proteins (NLPs) trigger a comprehensive immune response in Arabidopsis... 
Disease resistance | Pathogens | Cell death | Genes | Innate immunity | Toxins | Cell membranes | Plants | Animal cells | Plant cells | H+-ATPASE ACTIVITY | ARABIDOPSIS-THALIANA | BIOCHEMISTRY & MOLECULAR BIOLOGY | FUSARIUM-OXYSPORUM | PLANT SCIENCES | CELL BIOLOGY | PROGRAMMED CELL-DEATH | MICROBIAL ELICITORS | GENE-EXPRESSION | HYPERSENSITIVE RESPONSE | DISEASE RESISTANCE | OLIGOPEPTIDE ELICITOR | ESSENTIAL COMPONENTS | Cell Death - radiation effects | Genes, Plant | Arabidopsis - immunology | Seedlings - microbiology | Phylogeny | Genetic Variation | Arabidopsis - radiation effects | Light | Protein Binding - drug effects | Gene Expression Regulation, Plant | Protein Binding - radiation effects | Plant Leaves - drug effects | Cell Death - drug effects | Germination - radiation effects | Plant Leaves - enzymology | Cell Membrane - drug effects | Germination - drug effects | Immunity, Innate - drug effects | Tobacco - drug effects | Plant Leaves - radiation effects | Seedlings - drug effects | Tobacco - radiation effects | Arabidopsis - genetics | Arabidopsis - microbiology | Immunity, Innate - radiation effects | Tobacco - microbiology | Fungal Proteins - pharmacology | Lipid Bilayers - metabolism | Seedlings - radiation effects | Cytoplasm - drug effects | Plant Leaves - microbiology | Fungal Proteins - metabolism | Arabidopsis thaliana | Immune response | Research | Peptides | Risk factors | Necrosis
Journal Article
The Plant Cell, ISSN 1040-4651, 9/2014, Volume 26, Issue 9, pp. 3630 - 3645
Arabidopsis thatiana seedlings undergo photomorphogenic development even in darkness when the function of DEETIOLATED1 (DET1), a repressor of... 
Phenotypes | Transcription factors | Hypocotyls | Cocktails | RESEARCH ARTICLES | Genes | Gene expression regulation | Physiological regulation | Plants | Seedlings | Plant cells | PLANT | DET1 | SEED-GERMINATION | BIOCHEMISTRY & MOLECULAR BIOLOGY | NEGATIVE REGULATOR | PLANT SCIENCES | CELL BIOLOGY | LIGHT-SIGNAL-TRANSDUCTION | COP9 SIGNALOSOME | GENE-EXPRESSION | DEGRADATION | TRANSCRIPTION FACTOR | E3 UBIQUITIN LIGASE | Darkness | Cell Wall - radiation effects | Arabidopsis - growth & development | Genes, Plant | Etiolation - drug effects | Arabidopsis Proteins - metabolism | Arabidopsis - radiation effects | Cell Wall - drug effects | Light | Protein Binding - drug effects | Protein Binding - radiation effects | Photosynthesis - radiation effects | Gene Expression Regulation, Plant - radiation effects | Arabidopsis - drug effects | Morphogenesis - radiation effects | Proteasome Inhibitors - pharmacology | Etiolation - radiation effects | Nuclear Proteins - metabolism | Transcriptome - genetics | Seedlings - drug effects | Mutation - genetics | Arabidopsis - metabolism | Gene Expression Regulation, Plant - drug effects | Phenotype | Indoleacetic Acids - pharmacology | Models, Biological | Photosynthesis - drug effects | Morphogenesis - drug effects | Seedlings - radiation effects | Seedlings - metabolism | Arabidopsis thaliana | Botanical research | Physiological aspects | Photoreceptors | Research | Photomorphogenesis
Journal Article
New Phytologist, ISSN 0028-646X, 8/2016, Volume 211, Issue 3, pp. 952 - 966
Dispersal is a key step in land plant life cycles, usually via formation of spores or seeds. Regulation of spore- or seed-germination allows control over the... 
Full papers | abscisic acid (ABA) | Physcomitrella | light | strigolactones | spore germination | ethylene | high temperature | ent‐kaurenes | ent-kaurenes | TRANSCRIPTION FACTORS | ARABIDOPSIS-THALIANA | DESICCATION TOLERANCE | ENT-KAURENE | GIBBERELLIN BIOSYNTHESIS | MOSS PHYSCOMITRELLA-PATENS | PLANT SCIENCES | LAND-PLANT EVOLUTION | ANEMIA-PHYLLITIDIS | ABSCISIC-ACID | Seeds - radiation effects | Spores - radiation effects | Diterpenes, Kaurane - biosynthesis | Genes, Plant | Sucrose - pharmacology | Gene Regulatory Networks - drug effects | Lactones - pharmacology | Bryopsida - drug effects | Bryopsida - genetics | Germination - genetics | Light | Spores - drug effects | Germination - radiation effects | Signal Transduction - radiation effects | Diterpenes - pharmacology | Germination - drug effects | Spores - genetics | Bryopsida - embryology | Cold Temperature | Gene Expression Regulation, Plant - radiation effects | Seeds - drug effects | Seeds - genetics | Signal Transduction - genetics | Hot Temperature | Bryopsida - radiation effects | Plant Dormancy - drug effects | Abscisic Acid - pharmacology | Seeds - embryology | Gene Expression Regulation, Plant - drug effects | Signal Transduction - drug effects | Gene Regulatory Networks - radiation effects | Plant Dormancy - genetics | Environment | Abscisic Acid - biosynthesis | Plant Dormancy - radiation effects | Endocrine disruptors | Arabidopsis thaliana | Seeds | Gibberellins | Analysis | Abscisic acid | Evolution | Plants | Full Paper | Research
Journal Article
The Plant Cell, ISSN 1040-4651, 4/2012, Volume 24, Issue 4, pp. 1398 - 1419
Plants respond to shade-modulated light signals via phytochrome (phy)-induced adaptive changes, termed shade avoidance. To examine the roles of... 
Datasets | Hypocotyls | Phenotypes | Genes | Auxins | Gene expression regulation | Plants | Repression | Seedlings | Plant cells | AVOIDANCE-RESPONSE | SEED-GERMINATION | REGULATED GENE-EXPRESSION | RED-LIGHT | BIOCHEMISTRY & MOLECULAR BIOLOGY | CHLOROPHYLL BIOSYNTHESIS | MEDIATED DEGRADATION | NEGATIVE REGULATOR | PLANT SCIENCES | CELL BIOLOGY | SIGNAL-TRANSDUCTION | CHLOROPLAST DEVELOPMENT | INTERACTING FACTOR-3 | Transcription, Genetic - drug effects | Arabidopsis - growth & development | Nucleotide Motifs - genetics | Transcription, Genetic - radiation effects | Gene Regulatory Networks - drug effects | Light Signal Transduction - radiation effects | Promoter Regions, Genetic - genetics | Seedlings - growth & development | Arabidopsis Proteins - metabolism | Arabidopsis - radiation effects | Basic Helix-Loop-Helix Transcription Factors - metabolism | Light Signal Transduction - drug effects | Light | Phytochrome - metabolism | Arabidopsis Proteins - genetics | Gene Expression Regulation, Plant - radiation effects | Arabidopsis - drug effects | Basic Helix-Loop-Helix Transcription Factors - genetics | Gene Regulatory Networks - genetics | Morphogenesis - radiation effects | Basic Helix-Loop-Helix Transcription Factors - antagonists & inhibitors | Seedlings - drug effects | Mutation - genetics | Arabidopsis - genetics | Gene Expression Regulation, Plant - drug effects | Phenotype | Genes, Plant - genetics | Indoleacetic Acids - pharmacology | Gene Regulatory Networks - radiation effects | Morphogenesis - drug effects | Seedlings - radiation effects | Seedlings - metabolism | Arabidopsis | Plant genetics | Phytochrome | Physiological aspects | Genetic aspects | Genetic transcription | Research
Journal Article
Plant Molecular Biology, ISSN 0167-4412, 3/2009, Volume 69, Issue 4, pp. 463 - 472
Journal Article
Plant Biology, ISSN 1435-8603, 2019, Volume 21, Issue 4, pp. 615 - 626
The realisation of manned space exploration requires the development of Bioregenerative Life Support Systems (BLSS). In such self-sufficient closed habitats,... 
Antioxidants | space ecosystem | heavy ions | leaf anatomy | tomato fruits | VITAMIN-C | OXIDATIVE STRESS | HUMAN HEALTH | DNA-DAMAGE | LEMNA-MINOR | PLANT SCIENCES | GAMMA-RAY | BETA-CAROTENE | PROTEIN EXTRACTION | SPACE-FLIGHT | CALCIUM-OXALATE FORMATION | Photosynthesis - radiation effects | Lycopersicon esculentum - metabolism | Seeds - radiation effects | Life Support Systems | Antioxidants - metabolism | Chlorophyll A - metabolism | Fruit - radiation effects | Catalepsy - metabolism | Plant Leaves - radiation effects | Lycopersicon esculentum - anatomy & histology | Lycopersicon esculentum - radiation effects | Blotting, Western | Ascorbic Acid - metabolism | Lycopersicon esculentum - growth & development | Plant Leaves - metabolism | Plant Leaves - anatomy & histology | Plant Proteins - metabolism | Germination - radiation effects | Heavy Ions | Superoxide Dismutase - metabolism | Seeds | Heavy ions | Ascorbic acid | Aerospace environments | D1 protein | Irradiated | Photochemicals | Manned space flight | Fruits | Recovering | Leaves | Habitability | Ionizing radiation | Carotenoids | Chloroplasts | Space exploration | Food | Cultivation | Berries | Germination | Ions | Food production | Ripening | Life support systems | Regeneration | Plant growth | Irradiation | Anthocyanins | Photosynthesis | Calcium ions | Life cycles
Journal Article
Journal of Experimental Botany, ISSN 0022-0957, 1/2014, Volume 65, Issue 22, pp. 6603 - 6615
Journal Article