Gibberellin Regulates the Arabidopsis Floral Transition through miR156-Targeted SQUAMOSA PROMOTER BINDING-LIKE Transcription Factors

Gibberellin Regulates the Arabidopsis Floral Transition through miR156-Targeted SQUAMOSA PROMOTER BINDING-LIKE Transcription Factors

Gibberellin (GA), a diterpene hormone, plays diverse roles in plant growth and development, including seed germination, stem elongation, and flowering time. Although it is known that GA accelerates flowering through degradation of transcription repressors, DELLAs, the underlying mechanism is poorly...

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Veröffentlicht in:The Plant cell 2012-08, Vol.24 (8), p.3320-3332
Hauptverfasser: Yu, Sha, Galvão, Vinicius C., Zhang, Yan-Chun, Horrer, Daniel, Zhang, Tian-Qi, Hao, Yan-Hong, Feng, Yu-Qi, Wang, Shui, Schmid, Markus, Markus, Schmid, Wang, Jia-Wei
Format: Artikel
Sprache:eng
Schlagworte:
Arabidopsis - drug effects
Arabidopsis - genetics
Arabidopsis - physiology
Arabidopsis Proteins - genetics
Arabidopsis Proteins - metabolism
DNA-Binding Proteins - genetics
DNA-Binding Proteins - metabolism
Flowering
Flowers - drug effects
Flowers - genetics
Flowers - physiology
Gene expression regulation
Gene Expression Regulation, Plant
Genes
Genes, Plant
Gibberellins
Gibberellins - metabolism
Gibberellins - pharmacology
Leaves
MADS Domain Proteins - genetics
MADS Domain Proteins - metabolism
MicroRNAs - genetics
MicroRNAs - metabolism
Photoperiod
Plant cells
Plant Leaves - drug effects
Plant Leaves - genetics
Plant Leaves - physiology
Plant Shoots
Plants
Promoter Regions, Genetic
Protein Binding
Protein Interaction Mapping
Proteolysis
Repressor Proteins - genetics
Repressor Proteins - metabolism
Time Factors
Trans-Activators - genetics
Trans-Activators - metabolism
Transcription factors
Transcription Factors - genetics
Transcription Factors - metabolism
Transcriptional Activation
Transcriptional regulatory elements
Transformation, Genetic
Two-Hybrid System Techniques
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Zusammenfassung:Gibberellin (GA), a diterpene hormone, plays diverse roles in plant growth and development, including seed germination, stem elongation, and flowering time. Although it is known that GA accelerates flowering through degradation of transcription repressors, DELLAs, the underlying mechanism is poorly understood. We show here that DELLA directly binds to microRNA156 (miR156)-targeted SQUAMOSA PROMOTER BINDING-LIKE (SPL) transcription factors, which promote flowering by activating miR172 and MADS box genes. The interaction between DELLA and SPL interferes with SPL transcriptional activity and consequently delays floral transition through inactivating miR172 in leaves and MADS box genes at shoot apex under long-day conditions or through repressing MADS box genes at the shoot apex under short-day conditions. Our results elucidate the molecular mechanism by which GA controls flowering and provide the missing link between DELLA and MADS box genes.
ISSN:1040-4651
1532-298X
1532-298X
DOI:10.1105/tpc.112.101014