A YTHDF-PABP axis is required for m6A-mediated organogenesis in plants

Abstract

ABSTRACTN6-methyladenosine (m6A) in mRNA is key to eukaryotic gene regulation. Many m6A functions involve specialized RNA-binding proteins that recognize m6A via a YT521-B Homology (YTH) domain. YTH domain proteins contain long intrinsically disordered regions (IDRs) that may mediate phase separation and interaction with protein partners, but whose precise biochemical functions remain largely unknown. TheArabidopsis thalianaYTH domain proteins ECT2, ECT3 and ECT4 accelerate organogenesis through stimulation of cell division in organ primordia. Here, we focus on ECT2 to reveal molecular underpinnings of this function of ECT2/3/4. We show that stimulation of leaf formation requires the long N-terminal IDR, and we identify two short IDR-elements required for ECT2-mediated organogenesis. Of these two, a tyrosine-rich 19-amino acid region is necessary for binding to a small subset of proteins that includes the major cytoplasmic poly(A)-binding proteins PAB2, PAB4 and PAB8. Remarkably, overexpression of PAB4 in leaf primordia partially rescues the delayed leaf formation inect2 ect3 ect4mutants, suggesting that the ECT2-PAB2/4/8 interaction on target mRNAs of organogenesis-related genes may overcome limiting PAB concentrations in primordial cells.