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N6-methyladenosine RNA modification promotes viral genomic RNA stability and infection

Tianye Zhang, Chaonan Shi, Haichao Hu, Zhuo Zhang, Ziqiong Wang, Zhiqing Chen, Huimin Feng, Peng Liu, Jun Guo, Qisen Lu, Kaili Zhong, Zhihui Chen, Jiaqian Liu, Jiancheng Yu, Jianping Chen, Feng Chen, Jian Yang

2022Nature Communications78 citationsDOIOpen Access PDF

Abstract

Abstract Molecular manipulation of susceptibility ( S ) genes that are antipodes to resistance ( R ) genes has been adopted as an alternative strategy for controlling crop diseases. Here, we show the S gene encoding Triticum aestivum m 6 A methyltransferase B (TaMTB) is identified by a genome-wide association study and subsequently shown to be a positive regulator for wheat yellow mosaic virus (WYMV) infection. TaMTB is localized in the nucleus, is translocated into the cytoplasmic aggregates by binding to WYMV NIb to upregulate the m 6 A level of WYMV RNA1 and stabilize the viral RNA, thus promoting viral infection. A natural mutant allele TaMTB-SNP176C is found to confer an enhanced susceptibility to WYMV infection through genetic variation analysis on 243 wheat varieties. Our discovery highlights this allele can be a useful target for the molecular wheat breeding in the future.

Topics & Concepts

BiologyGeneRNAGeneticsAlleleMutantGenomeMutationRNA modifications and cancerPlant Virus Research StudiesPlant Disease Resistance and Genetics
N6-methyladenosine RNA modification promotes viral genomic RNA stability and infection | Litcius