Michael Bateson scite author profile

The human immunodeficiency virus type 1 (HIV-1) Vpr protein is known to arrest the cell cycle in G(2)/M and induce apoptosis following arrest. The functions of Vpr relative to its location in the cell remain unresolved. We now demonstrate that the location and function of Vpr are dependent on the makeup of fusion proteins and that the functions of G(2)/M arrest and apoptosis are separable. Using green fluorescence protein mutants (EGFP or EYFP), we found that fusion at either the N- or C-terminus compromised the ability of Vpr to arrest cell cycling, relative to that of His-Vpr or wild-type protein. Additionally, utilizing the ability to specifically identify cells expressing the fusion proteins, we confirm that Vpr can induce apoptosis, but appears to be independent of cell-cycle arrest in G(2)/M. Both N- and C-terminal Vpr/EYFP fusion proteins induced apoptosis but caused minimal G(2)/M arrest. These studies with Vpr fusion proteins indicate that the functions of Vpr leading to G(2)/M arrest and apoptosis are separable and that fusion of Vpr to EGFP or EYFP affected the localization of the protein. Our findings suggest that nuclear membrane localization and nuclear import and export are strongly governed by modification of the N-terminus of Vpr.

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Entrapment by Immobilized Metal Ion Affinity Chromatography of Assembled Yeast Mitochondrial ATP Synthase Containing Individual Subunits Tagged with Hexahistidine

Bateson

Devenish

Nagley

et al. 1996

Analytical Biochemistry

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A novel fluorescent marker for assembled mitochondria ATP synthase of yeast

et al. 1997

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Single Copies of Subunits d, Oligomycin-sensitivity Conferring Protein, and b Are Present in the Saccharomyces cerevisiaeMitochondrial ATP Synthase

Bateson

Devenish

Nagley

et al. 1999

Journal of Biological Chemistry

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In the mitochondrial ATP synthase (mtATPase) of the yeast Saccharomyces cerevisiae, the stoichiometry of subunits d, oligomycin-sensitivity conferring protein (OSCP), and b is poorly defined. We have investigated the stoichiometry of these subunits by the application of hexahistidine affinity purification technology. We have previously demonstrated that intact mtATPase complexes incorporating a Hex 6 -tagged subunit can be isolated via Ni 2؉ -nitrilotriacetic acid affinity chromatography (Bateson, M., Devenish, R. J., Nagley, P., and Prescott, M. (1996) Anal. Biochem. 238, 14 -18). Strains were constructed in which Hex 6 -tagged versions of subunits d, OSCP, and b were coexpressed with the corresponding wild-type subunit. This coexpression resulted in a mixed population of mtATPase complexes containing untagged wild-type and Hex 6 -tagged subunits. The stoichiometry of each subunit was then assessed by determining whether or not the untagged wild-type subunit could be recovered from Ni 2؉ -nitrilotriacetic acid purifications as an integral component of those complexes absorbed by virtue of the Hex 6 -tagged subunit. As only the Hex 6 -tagged subunit was recovered from such purifications, we demonstrate that the stoichiometry of subunits d, OSCP, and b in yeast is 1 in each case.

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The study of yeast mitochondrial ATP synthase using polyhistidine technology

Bateson¹

2021

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Michael Bateson

Studies with GFP-Vpr fusion proteins: induction of apoptosis but ablation of cell-cycle arrest despite nuclear membrane or nuclear localization

Entrapment by Immobilized Metal Ion Affinity Chromatography of Assembled Yeast Mitochondrial ATP Synthase Containing Individual Subunits Tagged with Hexahistidine

A novel fluorescent marker for assembled mitochondria ATP synthase of yeast

Single Copies of Subunits d, Oligomycin-sensitivity Conferring Protein, and b Are Present in the Saccharomyces cerevisiaeMitochondrial ATP Synthase

The study of yeast mitochondrial ATP synthase using polyhistidine technology

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