Hepatitis delta virus (HDV) is a defective satellite virus which is capable of replication in the presence of its helper virus, hepatitis B virus (HBV). The only open reading frame in its genome encodes hepatitis delta antigen (HDAg) expressing in 2 forms: the small delta antigen (S-HDAg, δAg-S) and the large delta antigen (L-HDAg, δAg-L). δAg-S is an essential factor for the initiation and maintenance of HDV RNA replication in vivo. So far some post-translational modifications (PTMs) in δAg-S such as phosphorylation, methylation, and acetylation have already been demonstrated to participate in modulating its functions and properties. A previous research showed that Arg13 of δAg-S could be methylated by protein arginine methyltransferase (PRMT1). Moreover, the R13A mutant of δAg-S could not facilitate HDV RNA replication through affecting its subcellular localization and thus the association with different components of the replication machineries. Here we use another mutant R13K as well as R13A to analyze the contribution of this amino acid residue of δAg-S in promoting HDV RNA replication. We have the following preliminary findings: 1) In spite of the opposite effects of δAg-S R13A and R13K mutants on HDV replication, the two R13 mutants both exerted little effect on S177 phosphorylation. 2) The in vivo methylation level of R13 mutants was not significantly affected. Therefore, we are not able to conclude whether R13 is methylated in vivo or not. We could see a slight but not significant decrease in wildtype-transfected cells treated with methylation inhibitor- S-AdoHcy (S-adenosyl-homocysteine). 3) Our IFA data of R13A and R13K mutants were not consistent with the previous research describing that the methylation on R13 affects its subcellular localization, and thus affects HDV RNA replication. In our results, R13K and R13A showed similar subcellular distribution pattern. However, R13K mutant could facilitate the HDV G-RNA replication, while R13A mutant could not. It revealed that the inability of δAg-S mutant R13A to promote HDV G-RNA replication may not lie in its deficiency of R13 methylation. 4) TheδAg-S R13A mutant may not affect: a) the protein secondary structure of its N-terminal amino acid 1-60 b) its binding ability to wild type δAg-S to form dimers c) its association with RNAPII According to our results, there might be some other mechanisms involved in the role of R13 on HDV RNA replication other than the methylation modification.