Abstract
RNA methylation and demethylation, which is mediated by RNA methyltransferases (referred to as “writers”) and demethylases (referred to as “erasers”), respectively, are emerging as a key regulatory process in plant development and stress responses. Although several studies have shown that AlkB homolog (ALKBH) proteins are potential RNA demethylases, the function of most ALKBHs is yet to be determined. The Arabidopsis thaliana genome contains thirteen genes encoding ALKBH proteins, the functions of which are largely unknown. In this study, we characterized the function of a potential eraser protein, ALKBH6 (At4g20350), during seed germination and seedling growth in Arabidopsis under abiotic stresses. The seeds of T-DNA insertion alkbh6 knockdown mutants germinated faster than the wild-type seeds under cold, salt, or abscisic acid (ABA) treatment conditions but not under dehydration stress conditions. Although no differences in seedling and root growth were observed between the alkbh6 mutant and wild-type under normal conditions, the alkbh6 mutant showed a much lower survival rate than the wild-type under salt, drought, or heat stress. Cotyledon greening of the alkbh6 mutants was much higher than that of the wild-type upon ABA application. Moreover, the transcript levels of ABA signaling-related genes, including ABI3 and ABI4, were down-regulated in the alkbh6 mutant compared to wild-type plants. Importantly, the ALKBH6 protein had an ability to bind to both m6A-labeled and m5C-labeled RNAs. Collectively, these results indicate that the potential eraser ALKBH6 plays important roles in seed germination, seedling growth, and survival of Arabidopsis under abiotic stresses.
Highlights
RNA modifications are recently emerging as an important cellular process of epigenetic gene regulation in addition to DNA methylation and histone modifications [1,2]
The results showed that the green fluorescence protein (GFP) signals were clearly merged with the 4,6-diamidino-2-phenylindole (DAPI) signals that stain the nucleus (Figure 1B), indicating that ALKBH6 is localized in the nucleus
RNA demethylation mediated by eraser proteins is emerging as an important cellular process of epigenetic gene regulation in the response of plants to abiotic stresses, as well as in plant development
Summary
RNA modifications are recently emerging as an important cellular process of epigenetic gene regulation in addition to DNA methylation and histone modifications [1,2]. 160 RNA modifications in mRNAs, tRNAs, and rRNAs have been identified to date [3,4], among which the most abundant modifications are 2 -O-ribose methylation and pseudouridilation in rRNA, 5-methylcytosine (m5C) and 1-methylguanidine (m1G) in tRNA, and N6-methyladenine (m6A) in mRNA [4,5,6,7]. These modifications affect the chemical property, charge, and hydrophobicity of bases, which influence base stacking, base pairing, and interactions of RNAs with other molecules [5,7,8,9]. Human ALKBH5 and FTO protein have been demonstrated to function as m6A demethylases, which are involved in obesity, diabetes, and hypoxia response [33,34]
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