Analysis of the Arabidopsis MADS AFFECTING FLOWERING Gene Family: MAF2 Prevents Vernalization by Short Periods of Cold

doi:10.1105/tpc.009506

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Analysis of the Arabidopsis MADS AFFECTING FLOWERING Gene Family: MAF2 Prevents Vernalization by Short Periods of Cold

Oliver J. Ratcliffe¹, Roderick W. Kumimoto, Becky J. Wong and José Luis Riechmann²

Mendel Biotechnology, Inc., Hayward, California 94545

^¹ To whom correspondence should be addressed. E-mail oratclif{at}mendelbio.com; fax 510-264-0254

The Arabidopsis FLOWERING LOCUS C (FLC) gene is a key floralrepressor in the maintenance of a vernalization response. Invernalization-sensitive genetic backgrounds, FLC levels arehigh, and they decline after exposure to long cold periods.Four FLC paralogs (MAF2 [MADS AFFECTING FLOWERING2] to MAF5)are arranged in a tandem array on the bottom of Arabidopsischromosome V. We used a reverse genetics approach to analyzetheir functions. Loss-of-function and gain-of-function studiesindicate that MAF2 acts as a floral repressor. In particular,maf2 mutant plants display a pronounced vernalization responsewhen subjected to relatively short cold periods, which are insufficientto elicit a strong flowering response in the wild type, despiteproducing a large reduction in FLC levels. MAF2 expression isless sensitive to vernalization than that of FLC, and its repressoractivity is exerted independently or downstream of FLC transcription.Thus, MAF2 can prevent premature vernalization in response tobrief cold spells. Overexpression of MAF3 or MAF4 produces alterationsin flowering time that suggest that these genes also act asfloral repressors and might contribute to the maintenance ofa vernalization requirement. However, the final gene in thecluster, MAF5, is upregulated by vernalization. Therefore, MAF5could play an opposite role to FLC in the vernalization response.

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