Histone modification and signalling cascade of the dormancy-associated MADS-box gene, PpMADS13-1, in Japanese pear (Pyrus pyrifolia) during endodormancy.

Abstract

Dormancy-associated MADS-box (DAM) genes play an important role in endodormancy phase transition. We investigated histone modification in the DAM homolog (PpMADS13-1) from Japanese pear, via chromatin immunoprecipitation-quantitative PCR, to understand the mechanism behind the reduced expression of the PpMADS13-1 gene towards endodormancy release. Our results indicated that the reduction in the active histone mark by trimethylation of the histone H3 tail at lysine 4 contributed to the reduction of PpMADS13-1 expression towards endodormancy release. In contrast, the inactive histone mark by trimethylation of the histone H3 tail at lysine 27 in PpMADS13-1 locus was quite low, and these levels were more similar to a negative control [normal mouse immunoglobulin G (IgG)] than to a positive control (AGAMOUS) in endodormancy phase transition. The loss of histone variant H2A.Z also coincided with the down-regulation of PpMADS13-1. Subsequently, we investigated the PpMADS13-1 signalling cascade and found that PpCBF2, a pear C-repeated binding factor, regulated PpMADS13-1 expression via interaction of PpCBF2 with the 5'-upstream region of PpMADS13-1 by transient reporter assay. Furthermore, transient reporter assay confirmed no interaction between the PpMADS13-1 protein and the pear FLOWERING LOCUS T genes. Taken together, our results enhance understanding of the molecular mechanisms underlying endodormancy phase transition in Japanese pear.