m6A Profile Dynamics Indicates Regulation of Oyster Development by m6A-RNA Epitranscriptomes
2023
Lorane Le Franc | Bruno Petton | Pascal Favrel | Guillaume Rivière
The N6-methylation of RNA adenosines (N6-methyladenosine, m6A) is an important regulator of gene expression with critical implications in vertebrate and insect development. However, the developmental significance of epitranscriptomes in lophotrochozoan organisms remains unknown. Using methylated RNA immunoprecipitation sequencing (MeRIP-seq), we generated transcriptome-wide m6A-RNA methylomes covering the entire development of the oyster from oocytes to juveniles. Oyster RNA classes display specific m6A signatures, with messenger RNAs (mRNAs) and long non-coding RNAs (lncRNAs) exhibiting distinct profiles and being highly methylated compared to transposable element (TE) transcripts. Epitranscriptomes are dynamic and correspond to the chronological steps of development (cleavage, gastrulation, organogenesis, and metamorphosis), with minimal mRNA and lncRNA methylation at the morula stage followed by a global increase. mRNA m6A levels are correlated with transcript levels, and shifts in methylation profiles correspond to expression kinetics. Differentially methylated transcripts cluster according to embryo-larval stages and bear the corresponding developmental functions (cell division, signal transduction, morphogenesis, and cell differentiation). The m6A level of TE transcripts is also regulated and peaks during the gastrulation. We demonstrate that m6A-RNA methylomes are dynamic and associated with gene expression regulation during oyster development. The putative epitranscriptome implication in the cleavage, maternal-to-zygotic transition, and cell differentiation in a lophotrochozoan model brings new insights into the control and evolution of developmental processes.
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