Mouse primordial germ cells (PGC) undergo sequential epigenetic changes and genome-wide DNA demethylation to reset the epigenome for totipotency. Here, we demonstrate that erasure of CpG methylation (5mC) in PGCs occurs via conversion to 5-hydroxymethylcytosine (5hmC), driven by high levels of TET1 and TET2. Global conversion to 5hmC initiates asynchronously among PGCs at embryonic day (E) 9.5-E10.5 and accounts for the unique process of imprint erasure. Mechanistically, 5hmC enrichment is followed by its protracted decline thereafter at a rate consistent with replication-coupled dilution. The conversion to 5hmC is a significant component of parallel redundant systems that drive comprehensive reprogramming in PGCs. Nonetheless, we identify rare regulatory elements that escape systematic DNA demethylation in PGCs, providing a potential mechanistic basis for transgenerational epigenetic inheritance.Specification of primordial germ cells (PGCs) from epiblast cells at ~E6.25 is linked with extensive epigenetic reprogramming, including global DNA demethylation, chromatin reorganisation and imprint erasure, that is vital for generating totipotency (1, 2). The erasure of CpG methylation (5mC) is a key component of this program, but the dynamics and underlying mechanisms of the process remain unclear (3). Here we report a comprehensive analysis of PGCs by combining immunofluorescence, genome-wide (h)meDIP-seq, single cell RNA-seq, bisulfite-seq and functional analyses to address the mechanistic basis of epigenetic reprogramming in PGCs.We investigated Tet expression using single cell RNA-seq, which revealed that Tet1 and Tet2 are expressed in PGCs and peak between E10.5-E11.5, but that Tet3 is undetectable (Fig. 1A). Immunofluorescence (IF) showed that TET1 and TET2 are nuclear and expressed at significantly higher levels in PGCs than neighbouring somatic cells between E9.5-E11.5 (Fig. 1B & S1-S2). This suggests that erasure of 5mC in PGCs could occur through conversion to 5-hydroxymethylcytosine (5hmC) by TET1/TET2 (4, 5).We pursued this possibility by IF and found a progressive reduction of 5mC in PGCs between E9.5-E10.5, until it became undetectable by E11.5 (Fig. 1C). The loss of 5mC occurs concurrently with a global enrichment of 5hmC in PGCs between E9.5-E10.5, † To whom correspondence should be addressed. a.surani@gurdon.cam.ac.uk.