Single-Cell 5-Formylcytosine Landscapes of Mammalian Early Embryos and ESCs at Single-Base Resolution

Abstract

Active DNA demethylation in mammals involves ten-eleven translocation (TET) family protein-mediated oxidation of 5-methylcytosine (5mC). However, base-resolution landscapes of 5-formylcytosine (5fC) (an oxidized derivative of 5mC) at the single-cell level remain unexplored. Here, we present "CLEVER-seq"(chemical-labeling-enabled C-to-T conversion sequencing), which is a single-cell, single-base resolution 5fC-sequencing technology, based on biocompatible, selective chemical labeling of 5fC and subsequent C-to-T conversion during amplification and sequencing. CLEVER-seq shows intrinsic 5fC heterogeneity in mouse early embryos, Epi stem cells (EpiSCs), and embryonic stem cells (ESCs). CLEVER-seq of mouse early embryos also reveals the highly patterned genomic distribution and parental-specific dynamics of 5fC during mouse early pre-implantation development. Integrated analysis demonstrates that promoter 5fC production precedes the expression upregulation of a clear set of developmentally and metabolically critical genes. Collectively, our work reveals the dynamics of active DNA demethylation during mouse pre-implantation development and provides an important resource for further functional studies of epigenetic reprogramming in single cells.