A single amino acid in human APOBEC3F alters susceptibility to HIV-1 Vif

John S. Albin; Rebecca S. LaRue; Jessalyn A. Weaver; William L. Brown; Keisuke Shindo; Elena Harjes; Hiroshi Matsuo; Reuben S. Harris

doi:10.1074/jbc.M110.173161

A single amino acid in human APOBEC3F alters susceptibility to HIV-1 Vif

John S. Albin, Rebecca S. LaRue, Jessalyn A. Weaver, William L. Brown, Keisuke Shindo, Elena Harjes, Hiroshi Matsuo, Reuben S. Harris

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Abstract

Human APOBEC3F (huA3F) potently restricts the infectivity of HIV-1 in the absence of the viral accessory protein virion infectivity factor (Vif). Vif functions to preserve viral infectivity by triggering the degradation of huA3F but not rhesus macaque A3F (rhA3F). Here, we use a combination of deletions, chimeras, and systematic mutagenesis between huA3F and rhA3F to identify Glu³²⁴ as a critical determinant of huA3F susceptibility to HIV-1 Vif-mediated degradation. A structural model of the C-terminal deaminase domain of huA3F indicates that Glu³²⁴ is a surface residue within the α4 helix adjacent to residues corresponding to other known Vif susceptibility determinants in APOBEC3G and APOBEC3H. This structural clustering suggests that Vif may bind a conserved surface present in multiple APOBEC3 proteins.

Original language	English (US)
Pages (from-to)	40785-40792
Number of pages	8
Journal	Journal of Biological Chemistry
Volume	285
Issue number	52
DOIs	https://doi.org/10.1074/jbc.M110.173161
State	Published - Dec 24 2010

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title = "A single amino acid in human APOBEC3F alters susceptibility to HIV-1 Vif",

abstract = "Human APOBEC3F (huA3F) potently restricts the infectivity of HIV-1 in the absence of the viral accessory protein virion infectivity factor (Vif). Vif functions to preserve viral infectivity by triggering the degradation of huA3F but not rhesus macaque A3F (rhA3F). Here, we use a combination of deletions, chimeras, and systematic mutagenesis between huA3F and rhA3F to identify Glu324 as a critical determinant of huA3F susceptibility to HIV-1 Vif-mediated degradation. A structural model of the C-terminal deaminase domain of huA3F indicates that Glu324 is a surface residue within the α4 helix adjacent to residues corresponding to other known Vif susceptibility determinants in APOBEC3G and APOBEC3H. This structural clustering suggests that Vif may bind a conserved surface present in multiple APOBEC3 proteins.",

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AU - Albin, John S.

AU - LaRue, Rebecca S.

AU - Weaver, Jessalyn A.

AU - Brown, William L.

AU - Shindo, Keisuke

AU - Harjes, Elena

AU - Matsuo, Hiroshi

AU - Harris, Reuben S.

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N2 - Human APOBEC3F (huA3F) potently restricts the infectivity of HIV-1 in the absence of the viral accessory protein virion infectivity factor (Vif). Vif functions to preserve viral infectivity by triggering the degradation of huA3F but not rhesus macaque A3F (rhA3F). Here, we use a combination of deletions, chimeras, and systematic mutagenesis between huA3F and rhA3F to identify Glu324 as a critical determinant of huA3F susceptibility to HIV-1 Vif-mediated degradation. A structural model of the C-terminal deaminase domain of huA3F indicates that Glu324 is a surface residue within the α4 helix adjacent to residues corresponding to other known Vif susceptibility determinants in APOBEC3G and APOBEC3H. This structural clustering suggests that Vif may bind a conserved surface present in multiple APOBEC3 proteins.

AB - Human APOBEC3F (huA3F) potently restricts the infectivity of HIV-1 in the absence of the viral accessory protein virion infectivity factor (Vif). Vif functions to preserve viral infectivity by triggering the degradation of huA3F but not rhesus macaque A3F (rhA3F). Here, we use a combination of deletions, chimeras, and systematic mutagenesis between huA3F and rhA3F to identify Glu324 as a critical determinant of huA3F susceptibility to HIV-1 Vif-mediated degradation. A structural model of the C-terminal deaminase domain of huA3F indicates that Glu324 is a surface residue within the α4 helix adjacent to residues corresponding to other known Vif susceptibility determinants in APOBEC3G and APOBEC3H. This structural clustering suggests that Vif may bind a conserved surface present in multiple APOBEC3 proteins.

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A single amino acid in human APOBEC3F alters susceptibility to HIV-1 Vif

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