DNA methylation signature of intergenic region involves in nucleosome remodeler DDM1-mediated repression of aberrant gene transcriptional read-through

Abstract

The strict and efficient transcription termination is required to prevent production of aberrant read-through transcripts that may cause transcriptional interference at neighboring genes. However, the exact regulatory mechanism remains poorly understood. Through a genetic screening of a LUCIFERASE (LUC) reporter system, we found that Arabidopsis nucleosome remodeler DECREASE IN DNA METHYLATION1 (DDM1) is a key component of this regulatory machinery and plays an important role in transcription termination, thus limiting transcriptional read-through (TRT). By whole-genome strand-specific RNA sequencing, we identified and confirmed 43 endogenous TRTs between genes, transposable elements (TEs), or genes and TEs in the ddm1-10 mutant, which mainly occurred at heterochromatin regions. The DNA methylation analysis of these TRT regions revealed that TRT occurred frequently at the intergenic regions with a higher methylation level in wild type comparing to the regions where TRT did not occur. Our results suggest that the level of intergenic DNA methylation may involve in preventing aberrant gene TRT or producing new gene during evolution.