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Publication DatePlant Science, ISSN 0168-9452, 11/2019, p. 110325
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Loading RightsActa Horticulturae Sinica, ISSN 0513-353X, 03/2018, Volume 45, Issue 3, pp. 482 - 492
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Frontiers in Plant Science, ISSN 1664-462X, 01/2016, Volume 6, Issue 2016, p. 1239
The majority of angiosperms are syncarpous- their gynoecium is composed of two or more fused carpels. In Arabidopsis thaliana, this fusion is regulated through...
Arabidopsis thaliana | Medicago truncatula | Carpel | miR164 | CUP SHAPED COTYLEDON | Syncarpy | NO APICAL MERISTEM | Gynoecium | TRANSFORMATION | MODEL | PLANT SCIENCES | CUP-SHAPED-COTYLEDON | MEDICAGO-TRUNCATULA | GENES | SHOOT APICAL MERISTEM | syncarpy | ARABIDOPSIS | SEPARATION | gynoecium | EXPRESSION | carpel | Physiological aspects | Genetic aspects | MicroRNA | Research | Angiosperms | Monocarpy
Arabidopsis thaliana | Medicago truncatula | Carpel | miR164 | CUP SHAPED COTYLEDON | Syncarpy | NO APICAL MERISTEM | Gynoecium | TRANSFORMATION | MODEL | PLANT SCIENCES | CUP-SHAPED-COTYLEDON | MEDICAGO-TRUNCATULA | GENES | SHOOT APICAL MERISTEM | syncarpy | ARABIDOPSIS | SEPARATION | gynoecium | EXPRESSION | carpel | Physiological aspects | Genetic aspects | MicroRNA | Research | Angiosperms | Monocarpy
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Loading RightsDevelopment, ISSN 0950-1991, 03/2009, Volume 136, Issue 5, pp. 823 - 832
Leaves are formed at the flanks of the shoot apical meristem (SAM) and develop into a variety of forms. In tomato, prolonged leaf patterning enables the...
Compound leaves | MiR164 | NAM | Tomato | CUC2 | Boundary | MUTANT | ARABIDOPSIS-THALIANA | MICRORNA REGULATION | SOLANUM-LYCOPERSICON | DEVELOPMENTAL BIOLOGY | AUXIN TRANSPORT | MORPHOGENESIS | ORGAN BOUNDARIES | miR164 | RELATIVE CARDAMINE-HIRSUTA | SHOOT APICAL MERISTEM | GENE-EXPRESSION | Lycopersicon esculentum - metabolism | Genes, Plant | DNA Primers - genetics | RNA, Plant - genetics | Transcription Factors - genetics | Meristem - growth & development | Transcription Factors - metabolism | Plant Proteins - genetics | Phenotype | Lycopersicon esculentum - growth & development | Plant Leaves - metabolism | Gene Expression Regulation, Developmental | Models, Biological | Plant Leaves - growth & development | Base Sequence | Plants, Genetically Modified | Gene Expression Regulation, Plant | Meristem - metabolism | Lycopersicon esculentum - genetics | MicroRNAs - genetics | Plant Proteins - metabolism | Mutation | Body Patterning - genetics
Compound leaves | MiR164 | NAM | Tomato | CUC2 | Boundary | MUTANT | ARABIDOPSIS-THALIANA | MICRORNA REGULATION | SOLANUM-LYCOPERSICON | DEVELOPMENTAL BIOLOGY | AUXIN TRANSPORT | MORPHOGENESIS | ORGAN BOUNDARIES | miR164 | RELATIVE CARDAMINE-HIRSUTA | SHOOT APICAL MERISTEM | GENE-EXPRESSION | Lycopersicon esculentum - metabolism | Genes, Plant | DNA Primers - genetics | RNA, Plant - genetics | Transcription Factors - genetics | Meristem - growth & development | Transcription Factors - metabolism | Plant Proteins - genetics | Phenotype | Lycopersicon esculentum - growth & development | Plant Leaves - metabolism | Gene Expression Regulation, Developmental | Models, Biological | Plant Leaves - growth & development | Base Sequence | Plants, Genetically Modified | Gene Expression Regulation, Plant | Meristem - metabolism | Lycopersicon esculentum - genetics | MicroRNAs - genetics | Plant Proteins - metabolism | Mutation | Body Patterning - genetics
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Loading RightsBiologia Plantarum, ISSN 0006-3134, 2019, Volume 63, Issue 1, pp. 193 - 199
Cassava storage roots serve as an outstanding source of starch that is commonly utilized for nourishment and industrial applications. Despite the extensive...
Fibrous roots | MiR164 | RLM-RACE | Manihot esculenta | MiR167 | Additional auxin | fibrous roots | auxin | IDENTIFICATION | PLANT SCIENCES | miR167 | miR164 | ROLES | TARGETS | ARABIDOPSIS | STRESS | PLANT MIRNAS | EXPRESSION | REVEALS
Fibrous roots | MiR164 | RLM-RACE | Manihot esculenta | MiR167 | Additional auxin | fibrous roots | auxin | IDENTIFICATION | PLANT SCIENCES | miR167 | miR164 | ROLES | TARGETS | ARABIDOPSIS | STRESS | PLANT MIRNAS | EXPRESSION | REVEALS
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Loading RightsProceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 08/2018, Volume 115, Issue 33, pp. 8448 - 8453
The circadian clock coordinates the daily cyclic rhythm of numerous biological processes by regulating a large portion of the transcriptome. In animals, the...
Circadian clock | Leaf senescence | ORE1 | MiR164 | PRR9 | LIFE-SPAN | MULTIDISCIPLINARY SCIENCES | TRANSCRIPTION | LEAVES | MECHANISMS | DEATH | MICRORNAS | circadian clock | leaf senescence | miR164 | RHYTHMS | GENES | CLOCK | EXPRESSION | Promoter Regions, Genetic | Arabidopsis - physiology | Arabidopsis Proteins - genetics | Arabidopsis Proteins - physiology | Transcription Factors - physiology | Aging | Circadian Rhythm - physiology | MicroRNAs - physiology | Transcription Factors - genetics | Plant Leaves - physiology | Circadian rhythms | Arabidopsis thaliana | Physiological aspects | Observations | Biological Sciences
Circadian clock | Leaf senescence | ORE1 | MiR164 | PRR9 | LIFE-SPAN | MULTIDISCIPLINARY SCIENCES | TRANSCRIPTION | LEAVES | MECHANISMS | DEATH | MICRORNAS | circadian clock | leaf senescence | miR164 | RHYTHMS | GENES | CLOCK | EXPRESSION | Promoter Regions, Genetic | Arabidopsis - physiology | Arabidopsis Proteins - genetics | Arabidopsis Proteins - physiology | Transcription Factors - physiology | Aging | Circadian Rhythm - physiology | MicroRNAs - physiology | Transcription Factors - genetics | Plant Leaves - physiology | Circadian rhythms | Arabidopsis thaliana | Physiological aspects | Observations | Biological Sciences
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Loading RightsNew Phytologist, ISSN 0028-646X, 10/2019, Volume 224, Issue 1, pp. 480 - 492
Summary MicroRNAs (miRNAs) are a kind of short noncoding RNA (20–24 nt), playing versatile roles in plant growth and development. Strawberry generates leaves...
miR164 | miRNA processing | strawberry | leaf | Fragaria vesca | CUC2 | flower | SHAPED-COTYLEDON GENES | MICRORNA REGULATION | SIZE | IDENTIFICATION | CELL-DEATH | FAMILY | PLANT SCIENCES | ARABIDOPSIS | SEPARATION | EXPRESSION | Flowers | Mutations | Phenotypes | RNA | Deformation mechanisms | Genes | Modules | Organs | MiRNA | Woodlands | Identification | Nucleic acids | Nucleotides | Mutants | Leaves | Carpels | Strawberries | Plant growth | Morphology | Mutation | Ethyl methanesulfonate | Body organs
miR164 | miRNA processing | strawberry | leaf | Fragaria vesca | CUC2 | flower | SHAPED-COTYLEDON GENES | MICRORNA REGULATION | SIZE | IDENTIFICATION | CELL-DEATH | FAMILY | PLANT SCIENCES | ARABIDOPSIS | SEPARATION | EXPRESSION | Flowers | Mutations | Phenotypes | RNA | Deformation mechanisms | Genes | Modules | Organs | MiRNA | Woodlands | Identification | Nucleic acids | Nucleotides | Mutants | Leaves | Carpels | Strawberries | Plant growth | Morphology | Mutation | Ethyl methanesulfonate | Body organs
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Loading RightsMethods in molecular biology (Clifton, N.J.), ISSN 1064-3745, 2019, Volume 1932, pp. 187 - 195
We present a simple protocol to image floral tissues with confocal laser scanning microscopy (CLSM). Recently, new imaging techniques have emerged that improve...
ClearSee | Expression | MIR164 | RS2200 | Fluorescence | Staining | Confocal microscopy | miRNA
ClearSee | Expression | MIR164 | RS2200 | Fluorescence | Staining | Confocal microscopy | miRNA
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Loading RightsDevelopment, ISSN 0950-1991, 03/2007, Volume 134, Issue 6, pp. 1051 - 1060
In plants, members of microRNA (miRNA) families are often predicted to target the same or overlapping sets of genes. It has thus been hypothesized that these...
CUP-SHAPED COTYLEDON | MicroRNA | Developmental robustness | miR164 | Phyllotaxis | Organogenesis | ARABIDOPSIS-THALIANA | LEAF POLARITY | DEVELOPMENTAL BIOLOGY | organogenesis | phyllotaxis | FLOWER DEVELOPMENT | TARGET GENES | CUP-SHAPED-COTYLEDON | EVOLUTION | RNA PATHWAYS | SHOOT APICAL MERISTEM | GENE-EXPRESSION | microRNA | developmental robustness | DUPLICATION | Plant Shoots - growth & development | Arabidopsis Proteins - genetics | Arabidopsis Proteins - physiology | Morphogenesis - genetics | Arabidopsis - growth & development | Arabidopsis - genetics | Plant Shoots - anatomy & histology | Plant Leaves - genetics | Gene Expression Regulation, Developmental | Plant Leaves - growth & development | Arabidopsis - anatomy & histology | Gene Expression Regulation, Plant | Plant Leaves - anatomy & histology | MicroRNAs - genetics | MicroRNAs - physiology | Plant Shoots - genetics
CUP-SHAPED COTYLEDON | MicroRNA | Developmental robustness | miR164 | Phyllotaxis | Organogenesis | ARABIDOPSIS-THALIANA | LEAF POLARITY | DEVELOPMENTAL BIOLOGY | organogenesis | phyllotaxis | FLOWER DEVELOPMENT | TARGET GENES | CUP-SHAPED-COTYLEDON | EVOLUTION | RNA PATHWAYS | SHOOT APICAL MERISTEM | GENE-EXPRESSION | microRNA | developmental robustness | DUPLICATION | Plant Shoots - growth & development | Arabidopsis Proteins - genetics | Arabidopsis Proteins - physiology | Morphogenesis - genetics | Arabidopsis - growth & development | Arabidopsis - genetics | Plant Shoots - anatomy & histology | Plant Leaves - genetics | Gene Expression Regulation, Developmental | Plant Leaves - growth & development | Arabidopsis - anatomy & histology | Gene Expression Regulation, Plant | Plant Leaves - anatomy & histology | MicroRNAs - genetics | MicroRNAs - physiology | Plant Shoots - genetics
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RABBIT EARS regulates the transcription of TCP4 during petal development in Arabidopsis
Journal of experimental botany, ISSN 0022-0957, 12/2016, Volume 67, Issue 22, pp. 6473 - 6480
Plant organ growth requires the proper transition from cell proliferation to cell expansion and differentiation. The CIN-TCP transcription factor gene TCP4 and...
RABBIT EARS | organ growth | TCP4 | transcription | Arabidopsis | petal development | PROTEIN | CELL-PROLIFERATION | MICRORNAS | MATURATION | PLANT SCIENCES | THALIANA | MIR164 | GROWTH | SPECIALIZATION | EXPRESSION | BINDING | Repressor Proteins - physiology | Arabidopsis - physiology | Arabidopsis Proteins - physiology | Transcription Factors - physiology | In Situ Hybridization | Chromatin Immunoprecipitation | Arabidopsis - growth & development | Gene Expression Regulation, Plant - physiology | Flowers - physiology | Flowers - growth & development | Gene Expression Regulation, Developmental - physiology | Research Paper
RABBIT EARS | organ growth | TCP4 | transcription | Arabidopsis | petal development | PROTEIN | CELL-PROLIFERATION | MICRORNAS | MATURATION | PLANT SCIENCES | THALIANA | MIR164 | GROWTH | SPECIALIZATION | EXPRESSION | BINDING | Repressor Proteins - physiology | Arabidopsis - physiology | Arabidopsis Proteins - physiology | Transcription Factors - physiology | In Situ Hybridization | Chromatin Immunoprecipitation | Arabidopsis - growth & development | Gene Expression Regulation, Plant - physiology | Flowers - physiology | Flowers - growth & development | Gene Expression Regulation, Developmental - physiology | Research Paper
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Loading RightsThe Plant Journal, ISSN 0960-7412, 07/2008, Volume 55, Issue 1, pp. 65 - 76
Summary Aerial architecture in higher plants is established post‐embryonically by the inception of new meristems in the axils of leaves. These axillary...
CUC | axillary meristem | miR164 | Arabidopsis | LAS | Axillary meristem | IDENTIFICATION | NAC-DOMAIN | FAMILY | MEMBER | PREDICTION | PLANT SCIENCES | SHOOT APICAL MERISTEM | TARGETS | BOUNDARY | TRANSCRIPTION FACTOR | PLANT MICRORNAS | Arabidopsis - genetics | Arabidopsis Proteins - metabolism | Transcription Factors - metabolism | Arabidopsis Proteins - genetics | Multigene Family | Arabidopsis - growth & development | Meristem - metabolism | MicroRNAs - metabolism | Transcription Factors - genetics | Meristem - growth & development | Arabidopsis - metabolism | Genetic research | Genetics | Mutation | Gene expression | Botany | Life Sciences
CUC | axillary meristem | miR164 | Arabidopsis | LAS | Axillary meristem | IDENTIFICATION | NAC-DOMAIN | FAMILY | MEMBER | PREDICTION | PLANT SCIENCES | SHOOT APICAL MERISTEM | TARGETS | BOUNDARY | TRANSCRIPTION FACTOR | PLANT MICRORNAS | Arabidopsis - genetics | Arabidopsis Proteins - metabolism | Transcription Factors - metabolism | Arabidopsis Proteins - genetics | Multigene Family | Arabidopsis - growth & development | Meristem - metabolism | MicroRNAs - metabolism | Transcription Factors - genetics | Meristem - growth & development | Arabidopsis - metabolism | Genetic research | Genetics | Mutation | Gene expression | Botany | Life Sciences
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Loading RightsIUBMB Life, ISSN 1521-6543, 03/2014, Volume 66, Issue 3, pp. 156 - 166
Plant‐specific NAM/ATAF/CUC (NAC) transcription factors (TFs) have recently received considerable attention due to their significant roles in plant development...
senescence | stress response | gene regulatory networks | interactomes | NAC transcription factors | FACTOR FAMILY | BIOCHEMISTRY & MOLECULAR BIOLOGY | DISTINCT | DROUGHT | CASCADE | CELL BIOLOGY | LEAF SENESCENCE | MIR164 | EXPRESSION | Genetic research | Genetic aspects | Genes | Protein-protein interactions
senescence | stress response | gene regulatory networks | interactomes | NAC transcription factors | FACTOR FAMILY | BIOCHEMISTRY & MOLECULAR BIOLOGY | DISTINCT | DROUGHT | CASCADE | CELL BIOLOGY | LEAF SENESCENCE | MIR164 | EXPRESSION | Genetic research | Genetic aspects | Genes | Protein-protein interactions
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The tomato NAC transcription factor SlNAM2 is involved in flower-boundary morphogenesis
Journal of Experimental Botany, ISSN 0022-0957, 12/2013, Volume 64, Issue 18, pp. 5497 - 5507
Being composed of several whorls of distinct floral organs, the flower is one of the most complex organs in the plant. As such, the formation and maintenance...
NAC | development | tomato | miR164 | Boundary | flower | SHAPED-COTYLEDON GENES | ARABIDOPSIS-THALIANA | MICRORNA REGULATION | LATERAL ROOT DEVELOPMENT | LEAF DEVELOPMENT | MERISTEM FORMATION | PLANT SCIENCES | ORGAN BOUNDARIES | DOWNSTREAM | EXPRESSION | Plant Development | Plants, Genetically Modified - genetics | Flowers - metabolism | Transcription Factors - genetics | Lycopersicon esculentum - physiology | Flowers - growth & development | Meristem - growth & development | Transcription Factors - metabolism | Plant Proteins - genetics | Plants, Genetically Modified - metabolism | Meristem - genetics | RNA Interference | MicroRNAs | Gene Expression Regulation, Plant | Meristem - metabolism | Plant Proteins - metabolism | Flowers - genetics | Research Paper
NAC | development | tomato | miR164 | Boundary | flower | SHAPED-COTYLEDON GENES | ARABIDOPSIS-THALIANA | MICRORNA REGULATION | LATERAL ROOT DEVELOPMENT | LEAF DEVELOPMENT | MERISTEM FORMATION | PLANT SCIENCES | ORGAN BOUNDARIES | DOWNSTREAM | EXPRESSION | Plant Development | Plants, Genetically Modified - genetics | Flowers - metabolism | Transcription Factors - genetics | Lycopersicon esculentum - physiology | Flowers - growth & development | Meristem - growth & development | Transcription Factors - metabolism | Plant Proteins - genetics | Plants, Genetically Modified - metabolism | Meristem - genetics | RNA Interference | MicroRNAs | Gene Expression Regulation, Plant | Meristem - metabolism | Plant Proteins - metabolism | Flowers - genetics | Research Paper
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Loading RightsDevelopment (Cambridge), ISSN 0950-1991, 06/2012, Volume 139, Issue 12, pp. 2161 - 2169
The establishment and maintenance of organ boundaries are vital for animal and plant development. In the Arabidopsis flower, three microRNA164 genes (MIR164a,...
Flower development | Arabidopsis | miRNA | RABBIT-EARS | ARABIDOPSIS-THALIANA | DEVELOPMENTAL BIOLOGY | PETAL | CUP-SHAPED-COTYLEDON | BOUNDARY FORMATION | MIR164 | GENES | SHOOT APICAL MERISTEM | TARGETS | PLANT MICRORNAS | Arabidopsis Proteins - genetics | Protein Binding - genetics | Arabidopsis - cytology | Flowers - cytology | Repressor Proteins - genetics | Arabidopsis - embryology | MicroRNAs - metabolism | Mutation - genetics | Promoter Regions, Genetic - genetics | Arabidopsis - genetics | Arabidopsis Proteins - metabolism | Organ Specificity - genetics | Flowers - embryology | Time Factors | Gene Expression Regulation, Developmental | Genes, Plant - genetics | Organogenesis - genetics | Gene Expression Regulation, Plant | MicroRNAs - genetics | Flowers - genetics | Repressor Proteins - metabolism
Flower development | Arabidopsis | miRNA | RABBIT-EARS | ARABIDOPSIS-THALIANA | DEVELOPMENTAL BIOLOGY | PETAL | CUP-SHAPED-COTYLEDON | BOUNDARY FORMATION | MIR164 | GENES | SHOOT APICAL MERISTEM | TARGETS | PLANT MICRORNAS | Arabidopsis Proteins - genetics | Protein Binding - genetics | Arabidopsis - cytology | Flowers - cytology | Repressor Proteins - genetics | Arabidopsis - embryology | MicroRNAs - metabolism | Mutation - genetics | Promoter Regions, Genetic - genetics | Arabidopsis - genetics | Arabidopsis Proteins - metabolism | Organ Specificity - genetics | Flowers - embryology | Time Factors | Gene Expression Regulation, Developmental | Genes, Plant - genetics | Organogenesis - genetics | Gene Expression Regulation, Plant | MicroRNAs - genetics | Flowers - genetics | Repressor Proteins - metabolism
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Loading RightsPlant Signaling & Behavior, ISSN 1559-2316, 10/2013, Volume 8, Issue 10, p. e26753
The roles of auxin in the regulation of symbiotic legume nodule formation are unclear. We recently showed that enhanced sensitivity to auxin resulting from...
soybean | auxin | legume | miR164 | symbiosis | Medicago | microRNA | miR393 | rhizobium | Symbiosis | Auxin | Rhizobium | Soybean | Legume | BIOCHEMISTRY & MOLECULAR BIOLOGY | PLANT SCIENCES
soybean | auxin | legume | miR164 | symbiosis | Medicago | microRNA | miR393 | rhizobium | Symbiosis | Auxin | Rhizobium | Soybean | Legume | BIOCHEMISTRY & MOLECULAR BIOLOGY | PLANT SCIENCES
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Loading RightsMolecular Plant Pathology, ISSN 1464-6722, 04/2014, Volume 15, Issue 3, pp. 284 - 296
Summary microRNA (miRNA) participates in various physiological and biochemical processes in plants by regulating corresponding target genes. NAC [NAM (no...
MOLECULAR CHARACTERIZATION | OVEREXPRESSION | MICRORNA REGULATION | TOLERANCE | MIR164 | ENDOGENOUS SMALL RNAS | INFECTION | GRAIN PROTEIN | NO-APICAL-MERISTEM | FAMILY | PLANT SCIENCES | Triticum - immunology | Transcription Factors - chemistry | Genes, Plant | Basidiomycota - physiology | Transcriptional Activation | DNA, Complementary - genetics | Molecular Sequence Data | Plant Diseases - microbiology | Phylogeny | Gene Knockdown Techniques | Saccharomyces cerevisiae - metabolism | Cell Nucleus - metabolism | Plant Proteins - chemistry | Base Sequence | Basidiomycota - cytology | Gene Expression Regulation, Plant | Plant Diseases - genetics | Plant Proteins - metabolism | Basidiomycota - growth & development | Disease Resistance - genetics | Triticum - microbiology | Transformation, Genetic | Amino Acid Sequence | Reproducibility of Results | Transcription Factors - genetics | Reverse Transcriptase Polymerase Chain Reaction | DNA, Complementary - isolation & purification | Subcellular Fractions - metabolism | Plant Leaves - cytology | Transcription Factors - metabolism | Triticum - genetics | Plant Proteins - genetics | Phenotype | MicroRNAs | Plant Leaves - microbiology | Proteins | Arabidopsis thaliana | Analysis | Genes | Genetic research | Physiological aspects | Wheat | Transcription factors
MOLECULAR CHARACTERIZATION | OVEREXPRESSION | MICRORNA REGULATION | TOLERANCE | MIR164 | ENDOGENOUS SMALL RNAS | INFECTION | GRAIN PROTEIN | NO-APICAL-MERISTEM | FAMILY | PLANT SCIENCES | Triticum - immunology | Transcription Factors - chemistry | Genes, Plant | Basidiomycota - physiology | Transcriptional Activation | DNA, Complementary - genetics | Molecular Sequence Data | Plant Diseases - microbiology | Phylogeny | Gene Knockdown Techniques | Saccharomyces cerevisiae - metabolism | Cell Nucleus - metabolism | Plant Proteins - chemistry | Base Sequence | Basidiomycota - cytology | Gene Expression Regulation, Plant | Plant Diseases - genetics | Plant Proteins - metabolism | Basidiomycota - growth & development | Disease Resistance - genetics | Triticum - microbiology | Transformation, Genetic | Amino Acid Sequence | Reproducibility of Results | Transcription Factors - genetics | Reverse Transcriptase Polymerase Chain Reaction | DNA, Complementary - isolation & purification | Subcellular Fractions - metabolism | Plant Leaves - cytology | Transcription Factors - metabolism | Triticum - genetics | Plant Proteins - genetics | Phenotype | MicroRNAs | Plant Leaves - microbiology | Proteins | Arabidopsis thaliana | Analysis | Genes | Genetic research | Physiological aspects | Wheat | Transcription factors
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Loading RightsApplications in Plant Sciences, ISSN 2168-0450, 09/2015, Volume 3, Issue 9, pp. 1500046 - n/a
Premise of the study: Sacred lotus (Nelumbo nucifera) is a perennial aquatic herbaceous plant of ecological, ornamental, and economic importance. MicroRNAs...
miRNA | qRT‐PCR | target genes | Nelumbo nucifera | expressed sequence tag (EST) | qRT-PCR | CONSERVED MICRORNAS | GENOME | PLANT SCIENCES | BIOGENESIS | MIR164 | GENES | MIR394 | GROWTH | LOTUS | FLOWERING TIME | Transcription factors | Abiotic stress | Aquatic plants | MiRNA | Economic importance | Homology | Identification | Genomes | Biosynthesis | RNA polymerase | Flowers | Gene expression | Phase transitions | Data bases | Morphogenesis | Proteins | Signal transduction | MicroRNAs | Ornamental plants | Software | Flowers & plants | Bioinformatics
miRNA | qRT‐PCR | target genes | Nelumbo nucifera | expressed sequence tag (EST) | qRT-PCR | CONSERVED MICRORNAS | GENOME | PLANT SCIENCES | BIOGENESIS | MIR164 | GENES | MIR394 | GROWTH | LOTUS | FLOWERING TIME | Transcription factors | Abiotic stress | Aquatic plants | MiRNA | Economic importance | Homology | Identification | Genomes | Biosynthesis | RNA polymerase | Flowers | Gene expression | Phase transitions | Data bases | Morphogenesis | Proteins | Signal transduction | MicroRNAs | Ornamental plants | Software | Flowers & plants | Bioinformatics
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Loading RightsPlanta, ISSN 0032-0935, 2/2015, Volume 241, Issue 2, pp. 435 - 448
miRNAs are a class of small non-coding RNAs that regulate gene expression. They are involved in the control of many developmental processes, including fruit...
Fruit | miR164 | miRNAs | Opuntia | Prickly pear cactus | SMALL RNAS | MICRORNA REGULATION | TRANSCRIPTOME | TOLERANCE | GRAPEVINE MICRORNAS | IDENTIFICATION | MATURATION | PLANT SCIENCES | TARGET GENES | PATHWAY | FLORAL DEVELOPMENT | Opuntia - genetics | MicroRNAs - genetics | Fruit - genetics | Gene Expression Regulation, Plant | Wildlife conservation | MicroRNA | Gene expression | Analysis
Fruit | miR164 | miRNAs | Opuntia | Prickly pear cactus | SMALL RNAS | MICRORNA REGULATION | TRANSCRIPTOME | TOLERANCE | GRAPEVINE MICRORNAS | IDENTIFICATION | MATURATION | PLANT SCIENCES | TARGET GENES | PATHWAY | FLORAL DEVELOPMENT | Opuntia - genetics | MicroRNAs - genetics | Fruit - genetics | Gene Expression Regulation, Plant | Wildlife conservation | MicroRNA | Gene expression | Analysis
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Loading RightsPlant Physiology and Biochemistry, ISSN 0981-9428, 02/2017, Volume 111, pp. 50 - 58
Leaves are the main organs in which photosynthates are produced. Leaf senescence facilitates the translocation of photosynthates and nutrients from source to...
YLD | Salicylic acid | Reactive oxygen species | SNP | ROS | Leaf senescence | MutMap | Single nucleotide polymorphism | Yellow leaf and dwarf | Wild type | Chloroplast | PROTEIN | TRANSCRIPTION | SIGNALS | FAMILY | PLANT SCIENCES | MIR164 | GENES | PURIFICATION | ARABIDOPSIS | ABSCISIC-ACID | SUBUNIT | Genes, Plant | Oryza - ultrastructure | Oryza - anatomy & histology | Pigments, Biological - metabolism | Oryza - growth & development | Salicylic Acid - pharmacology | Oryza - genetics | Physical Chromosome Mapping - methods | Mesophyll Cells - drug effects | Plant Proteins - metabolism | Mesophyll Cells - ultrastructure | Chloroplasts - drug effects | Mesophyll Cells - cytology | Genetic Association Studies | Quantitative Trait, Heritable | Mutation - genetics | Chloroplasts - metabolism | Plant Proteins - genetics | Gene Expression Regulation, Plant - drug effects | Phenotype | Plant Leaves - genetics | Photosynthesis - drug effects | Plant Leaves - growth & development | Plant Leaves - anatomy & histology | Plant Growth Regulators - metabolism | Plant Leaves - ultrastructure | Physiological aspects | Single nucleotide polymorphisms | Photosynthesis | Plant hormones | Chromosomes | Analysis
YLD | Salicylic acid | Reactive oxygen species | SNP | ROS | Leaf senescence | MutMap | Single nucleotide polymorphism | Yellow leaf and dwarf | Wild type | Chloroplast | PROTEIN | TRANSCRIPTION | SIGNALS | FAMILY | PLANT SCIENCES | MIR164 | GENES | PURIFICATION | ARABIDOPSIS | ABSCISIC-ACID | SUBUNIT | Genes, Plant | Oryza - ultrastructure | Oryza - anatomy & histology | Pigments, Biological - metabolism | Oryza - growth & development | Salicylic Acid - pharmacology | Oryza - genetics | Physical Chromosome Mapping - methods | Mesophyll Cells - drug effects | Plant Proteins - metabolism | Mesophyll Cells - ultrastructure | Chloroplasts - drug effects | Mesophyll Cells - cytology | Genetic Association Studies | Quantitative Trait, Heritable | Mutation - genetics | Chloroplasts - metabolism | Plant Proteins - genetics | Gene Expression Regulation, Plant - drug effects | Phenotype | Plant Leaves - genetics | Photosynthesis - drug effects | Plant Leaves - growth & development | Plant Leaves - anatomy & histology | Plant Growth Regulators - metabolism | Plant Leaves - ultrastructure | Physiological aspects | Single nucleotide polymorphisms | Photosynthesis | Plant hormones | Chromosomes | Analysis
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