Abstract
PICKLE (PKL), a putative CHD3 chromatin remodeling factor, has been suggested to be involved in multiple processes in Arabidopsis. Here, we confirmed the late-flowering phenotype caused by pkl mutation with pkl mutants in two different ecotypes, and investigated the possible mechanisms that account for PKL regulation of flowering time. Quantitative RT-PCR and RNA-seq assays showed that expression of the LEAFY gene (LFY) and a number of LFY-regulated floral homeotic genes were down-regulated in seedlings of the pkl mutants. As predicted, overexpression of LFY restored normal flowering time of pkl mutants. Our results suggest that PKL may be involved in regulating flowering time via LFY expression. To uncover the underlying mechanism, ChIP-PCR using anti-PKL was performed on materials from three developmental stages of seedlings. Our results showed that PKL associated with the genomic sequences of LFY, particularly at 10-day and 25-day after germination. We also showed that loss of PKL affected H3K27me3 level at the promoter of LFY. Taken together, our data suggest that transcriptional regulation of LFY at the chromatin level by PKL may at least partially account for the late-flowering phenotype of pkl mutants.
Highlights
Flowering is a hallmark for the transition from vegetative to reproductive phase in flowering plants
Quantitative RT-PCR and RNA-seq assays showed that expression of the LEAFY gene (LFY) and a number of LFY-regulated floral homeotic genes were down-regulated in seedlings of the pkl mutants
Our data suggest that transcriptional regulation of LFY at the chromatin level by PKL may at least partially account for the late-flowering phenotype of pkl mutants
Summary
Flowering is a hallmark for the transition from vegetative to reproductive phase in flowering plants. It is widely accepted that there are four signaling pathways that regulate flowering They are (i) the vernalization pathway, (ii) light-dependent pathway, (ii) autonomous pathway, and (iv) gibberellin pathway (Komeda, 2004). A group of floral meristem identity genes were identified as the key factors for floral morphogenesis in the develop-. In addition to its role in determining floral meristem identity, increasing the copy number of wild-type LFY alleles or constitutive expression of LFY in 35S::LFY plants causes early flowering in Arabidopsis, indicating that LFY may play a critical role in the initiation of flowering (Weigel and Nilsson, 1995; Blazquez et al, 1997)
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