Abstract
In plants, a particular class of small non-coding RNAs, short interfering RNAs, can serve as a signal to induce cytosine methylation at homologous genomic DNA regions in the nucleus. If the targeted DNA regions have promoter function, this RNA-directed DNA methylation (RdDM) can result in transcriptional gene silencing (TGS). RNA-directed transcriptional gene silencing of transgenes provides a versatile system for the study of epigenetic gene regulation in plants. In our experimental setup in
Arabidopsis thaliana
, transcription of a promoter-inverted repeat provides a RNA signal that triggers
de novo
cytosine methylation and TGS of a homologous nopaline synthase promoter (
proNOS
)
in trans
. Utilising this two component transgene system in a forward-genetic screen for “suppressor of silencing” mutations, we were able to identify new candidates for factors involved in RdDM of transgenic as well as endogenous target regions.