Phosphorylation of human immunodeficiency virus type 1 Vpr regulates cell cycle arrest
Y Zhou, L Ratner - Journal of virology, 2000 - Am Soc Microbiol
Y Zhou, L Ratner
Journal of virology, 2000•Am Soc MicrobiolHuman immunodeficiency virus type 1 (HIV-1) Vpr regulates nuclear transport of the viral
preintegration complex, G2 cell cycle arrest, and transcriptional transactivation. We asked
whether phosphorylation could affect Vpr activity. Vpr was found to be phosphorylated on
serine residues in transiently transfected and infected cells. Residues 79, 94, and 96 were
all found to be phosphorylated, as assessed by alanine mutations. Mutation of Ser-79 to Ala
abrogated effects of Vpr on cell cycle progression, whereas mutation of Ser-94 and Ser-96 …
preintegration complex, G2 cell cycle arrest, and transcriptional transactivation. We asked
whether phosphorylation could affect Vpr activity. Vpr was found to be phosphorylated on
serine residues in transiently transfected and infected cells. Residues 79, 94, and 96 were
all found to be phosphorylated, as assessed by alanine mutations. Mutation of Ser-79 to Ala
abrogated effects of Vpr on cell cycle progression, whereas mutation of Ser-94 and Ser-96 …
Abstract
Human immunodeficiency virus type 1 (HIV-1) Vpr regulates nuclear transport of the viral preintegration complex, G2 cell cycle arrest, and transcriptional transactivation. We asked whether phosphorylation could affect Vpr activity. Vpr was found to be phosphorylated on serine residues in transiently transfected and infected cells. Residues 79, 94, and 96 were all found to be phosphorylated, as assessed by alanine mutations. Mutation of Ser-79 to Ala abrogated effects of Vpr on cell cycle progression, whereas mutation of Ser-94 and Ser-96 had no effect. Simultaneous mutation of all three Vpr serine residues attenuated HIV-1 replication in macrophages, whereas single and double Ser mutations had no effect.
American Society for Microbiology