Epigenetic regulation of flowering

Tipo de material: Texto

TextoSeries ; Current Opinion in Plant Biology, 10(5), p.520-527, 2007Trabajos contenidos:

Dennis, E.S
Peacock, W.J

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Resumen: The acceleration of flowering by prolonged low temperature treatment (vernalization)has unique properties including the floral transition occurring at a time separate from the vernalization treatment. This implies the vernalization condition is inherited through mitotic divisions, but this vernalized state is not inherited from one generation o the next. FLC, the key gene mediating this response in the Arabidopsis is repressed by histone modifications involving the VRN2 protein complex. Other protein complexes participate in activating the gene. While many plant species depend on vernalization for optimising flowering time, the genes involved differ between dicot and monocot plants in both Arabidopsis and cereals, vernalization regulates photoperiod control of flowering by preventing the induction of the floral promoter FT by long days in autumn but allowing induction of FT in spring and hence flowering occurs at an optimal time in the annual life cycle.

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Item type	Current library	Collection	Call number	Status	Date due	Barcode
Documentos solicitados	CICY Documento préstamo interbibliotecario	Ref1	B-12704 (Browse shelf(Opens below))	Available

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Previous	B-12701 Cytosine methylation is associated with RNA silencing in silenced plants but not with systemic and transitive RNA silencing through grafting	B-12702 Dynamics of DNA Methylation in Chestnut Trees Development	B-12703 Nuclear reprogramming and pluripotency	B-12704 Epigenetic regulation of flowering	B-12705 Chromatin rearrangements in development	B-12706 Convergent evolution of genomic mprinting in plants and mammals	B-12707 Epigenetic germline inheritance	Next

The acceleration of flowering by prolonged low temperature treatment (vernalization)has unique properties including the floral transition occurring at a time separate from the vernalization treatment. This implies the vernalization condition is inherited through mitotic divisions, but this vernalized state is not inherited from one generation o the next. FLC, the key gene mediating this response in the Arabidopsis is repressed by histone modifications involving the VRN2 protein complex. Other protein complexes participate in activating the gene. While many plant species depend on vernalization for optimising flowering time, the genes involved differ between dicot and monocot plants in both Arabidopsis and cereals, vernalization regulates photoperiod control of flowering by preventing the induction of the floral promoter FT by long days in autumn but allowing induction of FT in spring and hence flowering occurs at an optimal time in the annual life cycle.

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