Snow goose hepatitis B virus (SGHBV) envelope and capsid proteins independently contribute to the ability of SGHBV to package capsids containing single-stranded DNA in virions.

UNLABELLED: Hepadnaviruses selectively package capsids containing mature double-stranded DNA (dsDNA) genomes in virions. Snow goose hepatitis B virus (SGHBV) is the only known hepadnavirus that packages capsids containing single-stranded DNA (ssDNA) in virions. We found that cells replicating SGHBV produce virions containing ssDNA as efficiently as virions containing mature dsDNA. We determined that SGHBV capsid and envelope proteins independently contribute to the production of virions containing ssDNA, with the capsid protein (Cp) making a larger contribution. We identified that amino acid residues 74 and 107 of SGHBV Cp contribute to this feature of SGHBV. When we changed these residues in duck hepatitis B virus (DHBV) Cp, capsids containing immature ssDNA were packaged in virions. This result suggests that residues 74 and 107 contribute to the appearance of the "capsid packaging signal" on the surface of capsids and interact with the envelope proteins during virion formation. We also found that cells replicating SGHBV package a larger fraction of the total dsDNA they synthesize into virions than do those replicating DHBV. We determined that the SGHBV envelope proteins are responsible for this property of SGHBV. Determining if the ability of SGHBV envelope proteins to cause the formation of virions containing ssDNA is related to its ability to support high levels of virion production or if these two properties are mechanistically distinct will provide insights into virion morphogenesis. IMPORTANCE: Cells replicating hepadnaviruses contain cytoplasmic capsids that contain mature and immature genomes. However, only capsids containing mature dsDNA genomes are packaged in virions. A mechanistic understanding of this phenomenon, which is currently lacking, is critical to understanding the process of hepadnaviral virion morphogenesis. In this study, we determined that the envelope proteins contribute to the ability of hepadnaviruses to selectively produce virions containing mature dsDNA genomes. Our finding sheds new light on the mechanisms underlying virion morphogenesis and challenges the dogma that "capsid maturation," and therefore the capsid protein (Cp), is solely responsible for the selective production of virions containing mature dsDNA genomes. Further, we identified amino acid residues of Cp that contribute to its ability to cause the selective production of virions containing mature dsDNA genomes. Future studies on the role of these residues in selective secretion will broaden our understanding of this poorly understood aspect of virus replication.