Bioinformatic Analysis Reveals the Distinct Role of 5 ’UTR-specific m6A RNA Modification in Mice Developing Cerebral Cortices

N6-methyladenosine (m6A) abundantly exists in the cerebral cortex, and is emerging as an essential factor in cortical development and function. As the m6A binding site appears to be dynamically methylated in different RNA regions at the temporal-specific developing stage, it is of value to distinguish the unique character of region- and temporal-specific m6A. Herein, we analyzed the status of temporal-specific m6A within RNA 5 ’ untranslated region (5’UTR) using m6A-methylated sequencing data and transcriptomic sequencing data from 12.5-13-day embryonic cerebral cortices and 14-day postnatal ones. We identified sorts of RNAs that are uniquely m6A-methylated in the 5’UTR region and sorted them into specific neurologi cal processes. Compared with 3’UTR-m6A-methylated RNAs, 5’UTR-m6A-methylated RNAs showed unique functions and mechanisms in regulating cortical development, especially through the pathway of mRNA transport and surveillance. Moreover, the 5’UTR-specific m6A was associated with neurological diso rders as well. The FoxO signaling pathway was then focused by these pathogenic 5’UTR-m6A-methylated RNAs, and explored to be involved in the determination of neurological disorders. Additionally, the 5’UTR-m6A-modification patterns and transcriptional patterns play independent but cohesive roles in the developing cortices. Our study emphasizes the importance of 5’UTR-specific m6A in the developing cortex and provides an informative reference for future stud...
Source: Developmental Neuroscience - Category: Neuroscience Source Type: research