Chronic HBV infection still remains a global public health problem. Up to date, the 3.2 kb HBV transcribes four major unspliced RNA as well as 16 types of spliced RNAs (SpRNAs) which have been identified. The most abundant spliced variant Sp1, which its functions still remain obscure. Among the novel protein it encodes, HBV core minus one cysteine (HBc-Cys) has been reported to interfere with nucleocapsid formation which is associated with HBV capsid disassembly and replication during infection, raising the possibility that with the increased expression, it may play a functional role in HBV replication [1]. Previous studies have reported these spliced variants are not important for viral replication in transfection system. However, in our preliminary results from in vivo experiment indicated that splicing-deficient HBV shows impaired infectivity compared to HBV wild-type in humanized liver chimera mice. In this study, we sought to explore the functional role of the spliced RNA specifically the HBc-Cys protein encoded by the SP1 spliced RNA species. In addition, the capsid integrity of wild-type encoding the HBc-Cys is different from the A487C splicing-deficient mutant under treatment with β-mercaptoethanol. This result may suggest the cysteine-mediated disulfide bond linkages regulate the formation of the capsid integrity. Thus, the possibilities of which it may influence the steps of viral entry and uncoating process at the early phase of HBV infection in vitro. Our result thus indicates wild type HBV through capsid disassembly and DNA deproteinization, PF-rcDNA is detected in the cytoplasmic fraction with more amount compared to spliced-deficient mutant.