5-Methylcytosine profiles in mouse transcriptomes suggest the randomness of m5C formation catalyzed by RNA methyltransferase

Abstract

Abstract Objective 5-Methylcytosine (m5C) is a type of chemical modification on the nucleotides and is widespread in both DNA and RNA. Although the DNA m5C has been extensively studied over the past years, the distribution and biological function of RNA m5C still remain to be elucidated. Here, I explored the profiles of RNA m5C in four mouse tissues by applying a RNA cytosine methylation data analysis tool to public mouse RNA m5C data. Results I found that the methylation rates of cytosine were the same with the averages of methylation level at single-nucleotide level. Furthermore, I gave a mathematical formula to describe the observed relationship and analyzed it deeply. The sufficient necessary condition for the given formula suggests that the methylation levels at most m5C sites are the same in four mouse tissues. Therefore, I proposed a hypothesis that the m5C formation catalyzed by RNA methyltransferase is random and with the same probability at most m5C sites, which is the methylation rate of cytosine. My hypothesis can be used to explain the observed profiles of RNA m5C in four mouse tissues and will be benefit to future studies of the distribution and biological function of RNA m5C in mammals.