Abstract
The N6-methyladenosine (m6A) pathway has been widely described as a viral regulatory mechanism in animals. We previously reported that the capsid protein (CP) of alfalfa mosaic virus (AMV) interacts with the Arabidopsis m6A demethylase ALKBH9B regulating m6A abundance on viral RNAs (vRNAs) and systemic invasion of floral stems. Here, we analyze the involvement of other ALKBH9 proteins in AMV infection and we carry out a detailed evaluation of the infection restraint observed in alkbh9b mutant plants. Thus, via viral titer quantification experiments and in situ hybridization assays, we define the viral cycle steps that are altered by the absence of the m6A demethylase ALKBH9B in Arabidopsis. We found that ALKBH9A and ALKBH9C do not regulate the AMV cycle, so ALKBH9B activity seems to be highly specific. We also define that not only systemic movement is affected by the absence of the demethylase, but also early stages of viral infection. Moreover, our findings suggest that viral upload into the phloem could be blocked in alkbh9b plants. Overall, our results point to ALKBH9B as a possible new component of phloem transport, at least for AMV, and as a potential target to obtain virus resistance crops.
Highlights
N6-methyladenosine (m6A) is one of the most abundant modified bases included in the mRNAs of eukaryotes
We carried out a study to check whether ALKBH9A and/or ALKBH9C might be playing a role in alfalfa mosaic virus (AMV) systemic infection
We previously reported that AMV infection was severely impaired at local level and almost blocked in alkbh9b floral stems compared to WT plants
Summary
N6-methyladenosine (m6A) is one of the most abundant modified bases included in the mRNAs of eukaryotes It has been found in distinct types of RNAs and in the genomes of some viruses (Martínez-Pérez et al, 2017; Liang et al, 2018; Dang et al, 2019; Arribas-Hernández and Brodersen, 2020). In plants, this chemical modification is conducted by a methylation complex composed of N6-ADENOSINE-METHYLTRANSFERASE MT-A70-like (MTA, AT4G10760) and N6-ADENOSINE-METHYLTRANSFERASE NON-CATALYTIC SUBUNIT MTB (MTB, AT4G09980) and several cofactors, such as FKBP12-INTERACTING PROTEINS OF 30 KDA (FIP37, AT3G54170), PROTEIN VIRILIZER HOMOLOG (VIRILIZER, AT3G05680), and E3 UBIQUITIN-PROTEIN LIGASE HAKAI HOMOLOG There are multiple examples of such modulation in animals, but not in plants
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