Eric M. Towler scite author profile

HIV-1 Gag protein assembles into 100- to 120-nm diameter particles in mammalian cells. Recombinant HIV-1 Gag protein assembles in a fully defined system in vitro into particles that are only 25–30 nm in diameter and that differ significantly in other respects from authentic particles. However, particles with the size and other properties of authentic virions were obtained in vitro by addition of inositol phosphates or phosphatidylinsitol phosphates to the assembly system. Thus, the interactions between HIV-1 Gag protein molecules are altered by binding of inositol derivatives; this binding is apparently essential for normal HIV-1 particle assembly. This requirement is not seen in a deleted Gag protein lacking residues 16–99 within the matrix domain.

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BIAcore for macromolecular interaction

Fivash

Towler

Fisher

1998

Current Opinion in Biotechnology

193

102

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Functional Characterization of the Protease of Human Endogenous Retrovirus, K10: Can It Complement HIV-1 Protease?

et al. 1998

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To investigate the biochemical properties of the protease encoded by the human endogenous retrovirus, K10 (HERV-K), 213 amino acids of the 3'-end of the HERV-K protease (PR) open reading frame were expressed in Escherichia coli. Autocatalytic cleavage of the expressed polypeptide resulted in an 18.2 kDa protein which was shown to be proteolytically active against a fluorogenic peptide used as a substrate for HIV-1 protease. On the basis of sequence homology and molecular modeling, the 106 N-terminal amino acids of HERV-K PR were predicted to comprise a retroviral protease core domain. An 11.6 kDa protein corresponding to this region was expressed and shown to be a fully functional enzyme. The 11.6 kDa domain of HERV-K PR is unusually stable over a wide pH range, exhibits optimal catalytic activity between pH 4.0 and 5.0, and exists as a dimer at pH 7.0 with a Kd of 50 microM. Like HIV-1 PR, the HERV-K PR core domain is activated by high salt concentrations and processes HIV-1 matrix-capsid polyprotein at the authentic HIV-1 PR recognition site. However, both the 18.2 and 11.6 kDa forms of HERV-K PR were highly resistant to a number of clinically useful HIV-1 PR inhibitors, including ritonavir, indinavir, and saquinavir. This raises the possibility that HERV-K PR may complement HIV-1 PR during infection, and could have implications for protease inhibitor therapy and drug resistance.

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Identification of HIV-1 nucleocapsid protein: nucleic acid antagonists with cellular anti-HIV activity

Stephen

Worthy

Towler

et al. 2002

Biochemical and Biophysical Research Communications

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Eric M. Towler

Modulation of HIV-like particle assemblyin vitroby inositol phosphates

BIAcore for macromolecular interaction

Functional Characterization of the Protease of Human Endogenous Retrovirus, K10: Can It Complement HIV-1 Protease?

Identification of HIV-1 nucleocapsid protein: nucleic acid antagonists with cellular anti-HIV activity

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