Multiple functions of capsid protein phosphorylation in duck hepatitis B virus replication.

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J Virol. 1994 July; 68(7): 4341-4348

Multiple functions of capsid protein phosphorylation in duck hepatitis B virus replication.

M Yu and J Summers

Department of Cell Biology, University of New Mexico School of Medicine, Albuquerque 87131.

ABSTRACT

We have investigated the role of phosphorylation of the capsidprotein of the avian hepadnavirus duck hepatitis B virus inviral replication. We found previously that three serines andone threonine in the C-terminal 24 amino acids of the capsidprotein serve as phosphorylation sites and that the patternof phosphorylation at these sites in intracellular viral capsidsis complex. In this study, we present evidence that the phosphorylationstate of three of these residues affects distinct steps in viralreplication. By substituting these residues with alanine inorder to mimic serine, or with aspartic acid in order to mimicphosphoserine, and assaying the effects of these substitutionson various steps in virus replication, we were able to makethe following inferences. (i) The presence of phosphoserinesat residues 245 and 259 stimulates DNA synthesis within viralnucleocapsids. (ii) The absence of phosphoserine at residue257 and at residues 257 and 259 stimulates covalently closedcircular DNA synthesis and virus production, respectively. (iii)The presence of phosphoserine at position 259 is required forinitiation of infection. The results implied that both phosphorylatedand nonphosphorylated capsid proteins were necessary for a nucleocapsidparticle to carry out all its functions in virus replication,explaining why differential phosphorylation of the capsid proteinoccurs in hepadnaviruses. Whether these differentially phosphorylatedproteins coexist on the same nucleocapsid, or whether the nucleocapsidacquires sequential functions through selective phosphorylationand dephosphorylation, is discussed.

J Virol. 1994 July; 68(7): 4341-4348

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