Antagonistic Actions of FPA and IBM2 Regulate Transcript Processing from Genes Containing Heterochromatin.

Repressive epigenetic marks, such as DNA and histone methylation, are sometimes located within introns. In Arabidopsis (), INCREASE IN BONSAI METHYLATION2 (IBM2), an RNA-binding protein containing a bromo-adjacent homology domain, is required to process functional transcript isoforms of genes carrying intronic heterochromatin. In a genetic screen for suppressors of the mutation, we identified FPA, an RNA-binding protein that promotes use of proximal polyadenylation sites in genes targeted by IBM2, including encoding an essential H3K9 histone demethylase and the disease resistance gene Both IBM2 and FPA are involved in the processing of their common mRNA targets: Transcription of IBM2 target genes is restored when is mutated in and impaired in transgenic plants overexpressing By contrast, transposons targeted by IBM2 and localized outside introns are not under this antagonistic control.

A non-canonical plant microRNA target site.

Plant microRNAs (miRNAs) typically form near-perfect duplexes with their targets and mediate mRNA cleavage. Here, we describe an unconventional miRNA target of miR398 in Arabidopsis, an mRNA encoding the blue copper-binding protein (BCBP). BCBP mRNA carries an miR398 complementary site in its 5'-untranslated region (UTR) with a bulge of six nucleotides opposite to the 5' region of the miRNA.

SHOOT GROWTH1 maintains Arabidopsis epigenomes by regulating IBM1.

Maintaining correct DNA and histone methylation patterns is essential for the development of all eukaryotes. In Arabidopsis, we identified SHOOT GROWTH1 (SG1), a novel protein involved in the control of gene methylation. SG1 contains both a Bromo-Adjacent Homology (BAH) domain found in several chromatin regulators and an RNA-Recognition Motif (RRM).