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Publication DateFrontiers in Plant Science, ISSN 1664-462X, 06/2018, Volume 9, p. 831
In Arabidopsis thaliana, the E-class SEPALLATA (SEP) genes are generally expressed across all floral whorls. These genes play fundamental roles in floral organ...
SEPALLATA-like gene | Retrotransposon | Floral homeotic mutant | Orchidaceae | Greenish flower | MADS-box gene | HOMEOTIC GENES | ANTIRRHINUM | MUTAGENESIS | PETUNIA | greenish flower | floral homeotic mutant | FAMILY | PLANT SCIENCES | DEFICIENS | retrotransposon | EXPRESSION | SUBFAMILY | TOMATO | FLORAL ORGAN IDENTITY | Orchids | Phenotype | Genetic aspects | Gene mutations | Observations
SEPALLATA-like gene | Retrotransposon | Floral homeotic mutant | Orchidaceae | Greenish flower | MADS-box gene | HOMEOTIC GENES | ANTIRRHINUM | MUTAGENESIS | PETUNIA | greenish flower | floral homeotic mutant | FAMILY | PLANT SCIENCES | DEFICIENS | retrotransposon | EXPRESSION | SUBFAMILY | TOMATO | FLORAL ORGAN IDENTITY | Orchids | Phenotype | Genetic aspects | Gene mutations | Observations
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Loading RightsPlant Biotechnology Journal, ISSN 1467-7644, 01/2016, Volume 14, Issue 1, pp. 284 - 298
Summary Orchids exhibit a range of unique flower shapes and are a valuable ornamental crop. MADS‐box transcription factors are key regulatory components in...
bacteria artificial chromosome | flowering | subcellular localization | next‐generation sequencing | Bacteria artificial chromosome | Flowering | Next-generation sequencing | Subcellular localization | HOMEOTIC GENES | ARABIDOPSIS-THALIANA | ONCIDIUM GOWER RAMSEY | next-generation sequencing | PHALAENOPSIS-APHRODITE | LILY LILIUM-LONGIFLORUM | MODIFIED ABC MODEL | PLANT SCIENCES | SEPALLATA-LIKE GENES | FLOWER DEVELOPMENT | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | REPRODUCTIVE TISSUES | FLORAL ORGAN IDENTITY | Amino Acid Sequence | Multigene Family | Introns - genetics | Genes, Plant | MADS Domain Proteins - genetics | Databases, Genetic | Exons - genetics | Gene Expression Profiling | Phylogeny | Subcellular Fractions - metabolism | Amino Acid Motifs | Arabidopsis - genetics | MADS Domain Proteins - metabolism | Organ Specificity - genetics | Nucleotide Motifs | MADS Domain Proteins - chemistry | Gene Expression Regulation, Plant | Orchidaceae - genetics | Protein Domains | Flowers - genetics | Proteins | Arabidopsis thaliana | Cladistic analysis | Horticultural industry | Genes | Gene expression | Databases | Mathematical models | Flowers | Position (location)
bacteria artificial chromosome | flowering | subcellular localization | next‐generation sequencing | Bacteria artificial chromosome | Flowering | Next-generation sequencing | Subcellular localization | HOMEOTIC GENES | ARABIDOPSIS-THALIANA | ONCIDIUM GOWER RAMSEY | next-generation sequencing | PHALAENOPSIS-APHRODITE | LILY LILIUM-LONGIFLORUM | MODIFIED ABC MODEL | PLANT SCIENCES | SEPALLATA-LIKE GENES | FLOWER DEVELOPMENT | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | REPRODUCTIVE TISSUES | FLORAL ORGAN IDENTITY | Amino Acid Sequence | Multigene Family | Introns - genetics | Genes, Plant | MADS Domain Proteins - genetics | Databases, Genetic | Exons - genetics | Gene Expression Profiling | Phylogeny | Subcellular Fractions - metabolism | Amino Acid Motifs | Arabidopsis - genetics | MADS Domain Proteins - metabolism | Organ Specificity - genetics | Nucleotide Motifs | MADS Domain Proteins - chemistry | Gene Expression Regulation, Plant | Orchidaceae - genetics | Protein Domains | Flowers - genetics | Proteins | Arabidopsis thaliana | Cladistic analysis | Horticultural industry | Genes | Gene expression | Databases | Mathematical models | Flowers | Position (location)
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Loading RightsMolecular Biology and Evolution, ISSN 0737-4038, 11/2013, Volume 30, Issue 11, pp. 2401 - 2422
The diversity of floral forms in the plant order Zingiberales has evolved through alterations in floral organ morphology. One striking alteration is the shift...
Subfunctionalization | Zingiberales | Flower development | SEP-like | Zingiber | Gene expression | AGL6 | LOFSEP | Musa | SEP3 | Gene duplication | Plant evolution | SEPALLATA | HOMEOTIC GENES | FAMILY | gene duplication | GENETICS & HEREDITY | flower development | subfunctionalization | MADS-BOX GENES | TRANSCRIPTION FACTORS | DOMAIN PROTEINS | DNA-BINDING | CODON-SUBSTITUTION MODELS | EXPRESSION DIVERGENCE | BIOCHEMISTRY & MOLECULAR BIOLOGY | plant evolution | SEPALLATA-LIKE GENES | ORGAN IDENTITY | EVOLUTIONARY BIOLOGY | gene expression | Gene Duplication | Zingiberales - classification | Genes, Plant | MADS Domain Proteins - genetics | Selection, Genetic | Phylogeny | Gene Regulatory Networks | Flowers - growth & development | MADS Domain Proteins - metabolism | Plant Proteins - genetics | Phenotype | Gene Expression Regulation, Plant | Plant Proteins - metabolism | Zingiberales - genetics | Flowers - genetics | Evolution, Molecular | Zingiberales - growth & development
Subfunctionalization | Zingiberales | Flower development | SEP-like | Zingiber | Gene expression | AGL6 | LOFSEP | Musa | SEP3 | Gene duplication | Plant evolution | SEPALLATA | HOMEOTIC GENES | FAMILY | gene duplication | GENETICS & HEREDITY | flower development | subfunctionalization | MADS-BOX GENES | TRANSCRIPTION FACTORS | DOMAIN PROTEINS | DNA-BINDING | CODON-SUBSTITUTION MODELS | EXPRESSION DIVERGENCE | BIOCHEMISTRY & MOLECULAR BIOLOGY | plant evolution | SEPALLATA-LIKE GENES | ORGAN IDENTITY | EVOLUTIONARY BIOLOGY | gene expression | Gene Duplication | Zingiberales - classification | Genes, Plant | MADS Domain Proteins - genetics | Selection, Genetic | Phylogeny | Gene Regulatory Networks | Flowers - growth & development | MADS Domain Proteins - metabolism | Plant Proteins - genetics | Phenotype | Gene Expression Regulation, Plant | Plant Proteins - metabolism | Zingiberales - genetics | Flowers - genetics | Evolution, Molecular | Zingiberales - growth & development
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Loading RightsJournal of Experimental Botany, ISSN 0022-0957, 04/2018, Volume 69, Issue 10, pp. 2435 - 2459
We review how changes in MADS-box proteins throughout evolution have created a diverse range of monocot flowers and identify key targets for crop improvement...
MADS-box | floral development | Arabidopsis | transcription factors | inflorescence | lily | barley | wheat | rice | monocots | orchid | HOMEOTIC GENES | TRITICUM-AESTIVUM L | ARABIDOPSIS-THALIANA | ONCIDIUM GOWER RAMSEY | LILY LILIUM-LONGIFLORUM | PLANT SCIENCES | TEMPORALLY REGULATED EXPRESSION | ORGAN IDENTITY | SEPALLATA-LIKE GENE | ECTOPIC EXPRESSION | RICE FLOWER DEVELOPMENT
MADS-box | floral development | Arabidopsis | transcription factors | inflorescence | lily | barley | wheat | rice | monocots | orchid | HOMEOTIC GENES | TRITICUM-AESTIVUM L | ARABIDOPSIS-THALIANA | ONCIDIUM GOWER RAMSEY | LILY LILIUM-LONGIFLORUM | PLANT SCIENCES | TEMPORALLY REGULATED EXPRESSION | ORGAN IDENTITY | SEPALLATA-LIKE GENE | ECTOPIC EXPRESSION | RICE FLOWER DEVELOPMENT
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Loading RightsInternational Journal of Molecular Sciences, ISSN 1661-6596, 08/2018, Volume 19, Issue 8, p. 2217
The Formosa lily (Lilium formosanum) is one of the most common horticultural species in Taiwan. To explore gene regulation involved in this species, we used...
MADS-box genes | Transcriptome analysis | Lilium formosanum | Floral transition | Floral organ identity | floral transition | TULIPA-GESNERIANA | BIOCHEMISTRY & MOLECULAR BIOLOGY | CHEMISTRY, MULTIDISCIPLINARY | MODIFIED ABC MODEL | SEPALLATA-LIKE GENES | ORGAN IDENTITY | PROTEIN INTERACTIONS | floral organ identity | RNA-SEQ | ECTOPIC EXPRESSION | FUNCTIONAL-ANALYSIS | transcriptome analysis | TRANSCRIPTION FACTOR | MOLECULAR-MECHANISMS | Phenotypes | Transcription factors | Yeast | Genes | Gene regulation | Phylogeny | Gene expression | Transgenic plants | Proteins | Leaves | Tobacco | Data sets | Flowering | Protein interaction | Buds
MADS-box genes | Transcriptome analysis | Lilium formosanum | Floral transition | Floral organ identity | floral transition | TULIPA-GESNERIANA | BIOCHEMISTRY & MOLECULAR BIOLOGY | CHEMISTRY, MULTIDISCIPLINARY | MODIFIED ABC MODEL | SEPALLATA-LIKE GENES | ORGAN IDENTITY | PROTEIN INTERACTIONS | floral organ identity | RNA-SEQ | ECTOPIC EXPRESSION | FUNCTIONAL-ANALYSIS | transcriptome analysis | TRANSCRIPTION FACTOR | MOLECULAR-MECHANISMS | Phenotypes | Transcription factors | Yeast | Genes | Gene regulation | Phylogeny | Gene expression | Transgenic plants | Proteins | Leaves | Tobacco | Data sets | Flowering | Protein interaction | Buds
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Loading RightsBiotechnology & Biotechnological Equipment, ISSN 1310-2818, 01/2019, Volume 33, Issue 1, pp. 54 - 63
The MADS-box family genes are important transcription factors that play essential roles in plant growth and development. In this study, a MADS-box gene,...
MADS-box | SEPALLATA (SEP) | transgenic Arabidopsis | flowering time | cucumber | TRANSCRIPTION FACTORS | EXPRESSION ANALYSIS | TOLERANCE | LATERAL ROOT DEVELOPMENT | FLORAL ORGAN | TRANSITION | SEPALLATA-LIKE GENES | MORPHOGENESIS | EVOLUTION | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | MOLECULAR-MECHANISMS
MADS-box | SEPALLATA (SEP) | transgenic Arabidopsis | flowering time | cucumber | TRANSCRIPTION FACTORS | EXPRESSION ANALYSIS | TOLERANCE | LATERAL ROOT DEVELOPMENT | FLORAL ORGAN | TRANSITION | SEPALLATA-LIKE GENES | MORPHOGENESIS | EVOLUTION | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | MOLECULAR-MECHANISMS
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Loading RightsPlant and Cell Physiology, ISSN 0032-0781, 8/2009, Volume 50, Issue 8, pp. 1425 - 1438
Four AP1/AGL9 functional MADS box genes were characterized from the orchid (Oncidium Gower Ramsey). OMADS6 is a SEP3 ortholog, OMADS11 is a SEP1/2 ortholog,...
Arabidopsis thaliana | MADS box genes | SEPALLATA | SQUAMOSA | Oncidium Gower Ramsey | TRANSCRIPTION FACTORS | WILD-TYPE | APETALA1 | MERISTEM IDENTITY | PLANT SCIENCES | CELL BIOLOGY | TEMPORALLY REGULATED EXPRESSION | SEPALLATA-LIKE GENES | FLOWER DEVELOPMENT | ORGAN IDENTITY | ECTOPIC EXPRESSION | PROTEIN-PROTEIN INTERACTIONS | Amino Acid Sequence | Plants, Genetically Modified - genetics | Arabidopsis - growth & development | Genes, Plant | MADS Domain Proteins - genetics | DNA, Complementary - genetics | Molecular Sequence Data | Phylogeny | RNA, Plant - genetics | Flowers - growth & development | Arabidopsis - genetics | MADS Domain Proteins - metabolism | Sequence Homology, Amino Acid | Plant Proteins - genetics | Sequence Alignment | Plants, Genetically Modified - metabolism | Cloning, Molecular | Gene Expression Regulation, Plant | Orchidaceae - genetics | Plant Proteins - metabolism | Flowers - genetics
Arabidopsis thaliana | MADS box genes | SEPALLATA | SQUAMOSA | Oncidium Gower Ramsey | TRANSCRIPTION FACTORS | WILD-TYPE | APETALA1 | MERISTEM IDENTITY | PLANT SCIENCES | CELL BIOLOGY | TEMPORALLY REGULATED EXPRESSION | SEPALLATA-LIKE GENES | FLOWER DEVELOPMENT | ORGAN IDENTITY | ECTOPIC EXPRESSION | PROTEIN-PROTEIN INTERACTIONS | Amino Acid Sequence | Plants, Genetically Modified - genetics | Arabidopsis - growth & development | Genes, Plant | MADS Domain Proteins - genetics | DNA, Complementary - genetics | Molecular Sequence Data | Phylogeny | RNA, Plant - genetics | Flowers - growth & development | Arabidopsis - genetics | MADS Domain Proteins - metabolism | Sequence Homology, Amino Acid | Plant Proteins - genetics | Sequence Alignment | Plants, Genetically Modified - metabolism | Cloning, Molecular | Gene Expression Regulation, Plant | Orchidaceae - genetics | Plant Proteins - metabolism | Flowers - genetics
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Loading RightsINTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, ISSN 1422-0067, 06/2019, Volume 20, Issue 11, p. 2743
Grasses represent a major family of monocots comprising mostly cereals. When compared to their eudicot counterparts, cereals show a remarkable morphological...
HOMEOTIC GENES | AGAMOUS SUBFAMILY | BIOCHEMISTRY & MOLECULAR BIOLOGY | floral speciation | flower organ identity | cereals | evolutionary relationships | MERISTEM IDENTITY | SPIKELET MERISTEM | CHEMISTRY, MULTIDISCIPLINARY | FUNCTIONAL DIVERSIFICATION | MADS-box genes | FLOWER DEVELOPMENT | SEPALLATA-LIKE GENE | ABCDE model | DROOPING-LEAF | INFLORESCENCE ARCHITECTURE | Barley | Cereals | E protein | Developmental biology | Genes | Genomics | Biological evolution | Cloning | Organs | Corn | Sorghum | Genomes | Grasses | Organogenesis | Food security | Morphology | Genetics | Flowers & plants | Wheat | Combinatorial analysis | Crop yield | Rice
HOMEOTIC GENES | AGAMOUS SUBFAMILY | BIOCHEMISTRY & MOLECULAR BIOLOGY | floral speciation | flower organ identity | cereals | evolutionary relationships | MERISTEM IDENTITY | SPIKELET MERISTEM | CHEMISTRY, MULTIDISCIPLINARY | FUNCTIONAL DIVERSIFICATION | MADS-box genes | FLOWER DEVELOPMENT | SEPALLATA-LIKE GENE | ABCDE model | DROOPING-LEAF | INFLORESCENCE ARCHITECTURE | Barley | Cereals | E protein | Developmental biology | Genes | Genomics | Biological evolution | Cloning | Organs | Corn | Sorghum | Genomes | Grasses | Organogenesis | Food security | Morphology | Genetics | Flowers & plants | Wheat | Combinatorial analysis | Crop yield | Rice
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Loading RightsMolecular Biology Reports, ISSN 0301-4851, 2/2010, Volume 37, Issue 2, pp. 917 - 922
A cDNA clone, AhSEP3 was isolated from the young inflorescences of Alpinia hainanensis. AhSEP3 cDNA is 891 bp long with an open reading frame of 726 bp that...
Life Sciences | MADS-box | Animal Biochemistry | AhSEP3 | Alpinia hainanensis | Animal Anatomy / Morphology / Histology | Zingiberaceae | ARABIDOPSIS-THALIANA | BIOCHEMISTRY & MOLECULAR BIOLOGY | PETUNIA | IDENTIFICATION | TRANSITION | SEPALLATA-LIKE GENES | FLOWER DEVELOPMENT | ORCHID | MADS-BOX GENES | EXPRESSION | FLORAL ORGAN IDENTITY | Amino Acid Sequence | Arabidopsis Proteins - genetics | Flowers - metabolism | Genes, Plant | Homeodomain Proteins - metabolism | Molecular Sequence Data | Phylogeny | Transcription Factors - genetics | Homeodomain Proteins - genetics | Sequence Homology | Tissue Distribution | Transcription Factors - metabolism | Homeodomain Proteins - analysis | Base Sequence | Cloning, Molecular | Alpinia - genetics | Transcription Factors - analysis | Flowers - genetics | Flowers & plants | Molecular biology | Gene expression | Cloning | Deoxyribonucleic acid--DNA | Hybridization analysis | Open reading frames
Life Sciences | MADS-box | Animal Biochemistry | AhSEP3 | Alpinia hainanensis | Animal Anatomy / Morphology / Histology | Zingiberaceae | ARABIDOPSIS-THALIANA | BIOCHEMISTRY & MOLECULAR BIOLOGY | PETUNIA | IDENTIFICATION | TRANSITION | SEPALLATA-LIKE GENES | FLOWER DEVELOPMENT | ORCHID | MADS-BOX GENES | EXPRESSION | FLORAL ORGAN IDENTITY | Amino Acid Sequence | Arabidopsis Proteins - genetics | Flowers - metabolism | Genes, Plant | Homeodomain Proteins - metabolism | Molecular Sequence Data | Phylogeny | Transcription Factors - genetics | Homeodomain Proteins - genetics | Sequence Homology | Tissue Distribution | Transcription Factors - metabolism | Homeodomain Proteins - analysis | Base Sequence | Cloning, Molecular | Alpinia - genetics | Transcription Factors - analysis | Flowers - genetics | Flowers & plants | Molecular biology | Gene expression | Cloning | Deoxyribonucleic acid--DNA | Hybridization analysis | Open reading frames
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Loading RightsSexual Plant Reproduction, ISSN 0934-0882, 12/2011, Volume 24, Issue 4, pp. 247 - 282
The grass family (Poaceae) of the monocotyledons includes about 10,000 species and represents one of the most important taxa among angiosperms. Their flower...
Life Sciences | MADS-box genes | Floral organogenesis | Phylogenesis | Agriculture | Floral transcription factors | Plant Sciences | Spikelet | Cell Biology | HOMEOTIC GENES | CLASS-B | MERISTEM IDENTITY | FUNCTIONAL DIVERSIFICATION | REPRODUCTIVE BIOLOGY | SEPALLATA-LIKE GENE | ZINC-FINGER PROTEIN | ECTOPIC EXPRESSION | DROOPING-LEAF | FLORAL ORGAN IDENTITY | Plant Proteins - genetics | Poaceae - metabolism | Flowers - metabolism | Gene Expression Regulation, Plant | Plant Proteins - metabolism | Poaceae - genetics | Phylogeny | Flowers - genetics | Flowers - growth & development | Poaceae - growth & development | Evolution, Molecular | Poaceae - classification | Genetic transcription | Flowers | Grasses | Analysis
Life Sciences | MADS-box genes | Floral organogenesis | Phylogenesis | Agriculture | Floral transcription factors | Plant Sciences | Spikelet | Cell Biology | HOMEOTIC GENES | CLASS-B | MERISTEM IDENTITY | FUNCTIONAL DIVERSIFICATION | REPRODUCTIVE BIOLOGY | SEPALLATA-LIKE GENE | ZINC-FINGER PROTEIN | ECTOPIC EXPRESSION | DROOPING-LEAF | FLORAL ORGAN IDENTITY | Plant Proteins - genetics | Poaceae - metabolism | Flowers - metabolism | Gene Expression Regulation, Plant | Plant Proteins - metabolism | Poaceae - genetics | Phylogeny | Flowers - genetics | Flowers - growth & development | Poaceae - growth & development | Evolution, Molecular | Poaceae - classification | Genetic transcription | Flowers | Grasses | Analysis
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