Hepatitis B virus nucleocapsid assembly: primary structure requirements in the core protein.

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J Virol. 1990 July; 64(7): 3319-3330

Hepatitis B virus nucleocapsid assembly: primary structure requirements in the core protein.

F Birnbaum and M Nassal

Zentrum für Molekulare Biologie Heidelberg, Universität Heidelberg, Federal Republic of Germany.

ABSTRACT

As a step toward understanding the assembly of the hepatitisB virus (HBV) nucleocapsid at a molecular level, we sought todefine the primary sequence requirements for assembly of theHBV core protein. This protein can self assemble upon expressionin Escherichia coli. Applying this system to a series of C-terminallytruncated core protein variants, we mapped the C-terminal limitfor assembly to the region between amino acid residues 139 and144. The size of this domain agrees well with the minimum lengthof RNA virus capsid proteins that fold into an eight-strandedbeta-barrel structure. The entire Arg-rich C-terminal domainof the HBV core protein is not necessary for assembly. However,the nucleic acid content of particles formed by assembly-competentcore protein variants correlates with the presence or absenceof this region, as does particle stability. The nucleic acidfound in the particles is RNA, between about 100 to some 3,000nucleotides in length. In particles formed by the full-lengthprotein, the core protein mRNA appears to be enriched over other,cellular RNAs. These data indicate that protein-protein interactionsprovided by the core protein domain from the N terminus to theregion around amino acid 144 are the major factor in HBV capsidassembly, which proceeds without the need for substantial amountsof nucleic acid. The presence of the basic C terminus, however,greatly enhances encapsidation of nucleic acid and appears tomake an important contribution to capsid stability via protein-nucleicacid interactions. The observation of low but detectable levelsof nucleic acid in particles formed by core protein variantslacking the Arg-rich C terminus suggests the presence of a secondnucleic acid-binding motif in the first 144 amino acids of thecore protein. Based on these findings, the potential importanceof the C-terminal core protein region during assembly in vivointo authentic, replication-competent nucleocapsids is discussed.

J Virol. 1990 July; 64(7): 3319-3330

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