Mapping of Functional Subdomains in the atALKBH9B m6A-Demethylase Required for Its Binding to the Viral RNA and to the Coat Protein of Alfalfa Mosaic Virus.

Luis Alvarado-Marchena,Joan Marquez-Molins,Vicente Pallás,Frederic Aparicio,Mireya Martinez-Perez

doi:10.3389/fpls.2021.701683

Luis Alvarado-Marchena, Joan Marquez-Molins + Show 3 more

Open Access

https://doi.org/10.3389/fpls.2021.701683

Copy DOI

Abstract

N6-methyladenosine (m6A) modification is a dynamically regulated RNA modification that impacts many cellular processes and pathways. This epitranscriptomic methylation relies on the participation of RNA methyltransferases (referred to as “writers”) and demethylases (referred to as “erasers”), respectively. We previously demonstrated that the Arabidopsis thaliana protein atALKBH9B showed m6A-demethylase activity and interacted with the coat protein (CP) of alfalfa mosaic virus (AMV), causing a profound impact on the viral infection cycle. To dissect the functional activity of atALKBH9B in AMV infection, we performed a protein-mapping analysis to identify the putative domains required for regulating this process. In this context, the mutational analysis of the protein revealed that the residues between 427 and 467 positions are critical for in vitro binding to the AMV RNA. The atALKBH9B amino acid sequence showed intrinsically disordered regions (IDRs) located at the N-terminal part delimiting the internal AlkB-like domain and at the C-terminal part. We identified an RNA binding domain containing an RGxxxRGG motif that overlaps with the C-terminal IDR. Moreover, bimolecular fluorescent experiments allowed us to determine that residues located between 387 and 427 are critical for the interaction with the AMV CP, which should be critical for modulating the viral infection process. Finally, we observed that atALKBH9B deletions of either N-terminal 20 residues or the C-terminal’s last 40 amino acids impede their accumulation in siRNA bodies. The involvement of the regions responsible for RNA and viral CP binding and those required for its localization in stress granules in the viral cycle is discussed.

Highlights

The addition of a methyl group to the N6 position of adenosine (m6A) is the most abundant internal modification in eukaryote mRNAs (Boccaletto et al, 2018; Covelo-Molares et al, 2018; Arribas-Hernández and Brodersen, 2020; Zhou et al, 2020)
Due to the functional relevance of atALKBH9B, the first m6A demethylase described in plants, we carried out a functional mapping of the protein to identify putative domains implicated in the diverse interactions of this m6A-demethylase with both the viral RNA and the coat protein
We demonstrated that atALKBH9B interacts with the viral RNA, the kinetic parameters of this interaction, as well as the identification of the RNA-binding domains (RBD), were not analyzed (Martínez-Pérez et al, 2017)

Summary

INTRODUCTION

The addition of a methyl group to the N6 position of adenosine (m6A) is the most abundant internal modification in eukaryote mRNAs (Boccaletto et al, 2018; Covelo-Molares et al, 2018; Arribas-Hernández and Brodersen, 2020; Zhou et al, 2020). Functional Subdomains in atALKBH9B m6A-Demethylase (Meyer et al, 2015), nuclear-export (Zheng et al, 2013), RNA structures (Bayoumi et al, 2020), and protein/RNA interactions (Liu et al, 2015). The Arabidopsis genome encodes 14 homologs of Alk B family of “eraser” proteins (atALKBH1AD, atALKBH2, atALKBH6, atALKBH8A-B, atALKBH9A-C, and atALKBH10A-B) (Mielecki et al, 2012; Kawai et al, 2014), of which, atALKBH9B and atALKBH10B, have been shown to present m6A demethylase activity in vitro and m6A-related functions in vivo (Duan et al, 2017; Martínez-Pérez et al, 2017). IDRs participate in protein-protein and protein-RNA interactions and are enriched in “disorder-promoting amino acids” such as G, P, or R (Gsponer and Madan Babu, 2009) In this context, IDRs can encompass diverse functional motives such as RNA binding motifs or low-complexity (LC) domains (Castello et al, 2012). Due to the functional relevance of atALKBH9B, the first m6A demethylase described in plants, we carried out a functional mapping of the protein to identify putative domains implicated in the diverse interactions of this m6A-demethylase with both the viral RNA and the coat protein

RESULTS

MATERIALS AND METHODS

DATA AVAILABILITY STATEMENT