G. Schatz scite author profile

The tertiary structure of CA is conserved across the major retroviral genera, yet sequence variations are sufficient to cause change in associative behavior. CA forms the exterior shell of the viral core in all mature retroviruses. However, the core morphology differs between viruses. Consistent with this observation, we find that the capsid proteins of RSV and human immunodeficiency virus type 1 exhibit different associative behavior in dilute solution and assemble in vitro into different structures.

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Properties of avian retrovirus particles defective in viral protease

Stewart

Schatz

Vogt

1990

J Virol

149

101

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The structural and enzymatic components of retroviral cores are formed by proteolytic cleavage of precursor polypeptides, mediated by the viral protease (PR). We constructed an active-site mutation, D37I, in the PR of avian leukosis virus. The D371 mutation was introduced into an infectious DNA clone, and quail cell lines expressing the mutant virus were established. These cell lines produce normal amounts of virus particles, the major internal protein components of which are the uncleaved gag and gag-pol precursors. As in other retroviral systems, the protease-defective virions are noninfectious and retain the "immature" type A morphology as determined by thin-section transmission electron microscopy. The virion cores are stable at nonionic detergent concentrations that completely disrupt wild-type cores. Digestion of mutant virions with exogenous PR in the presence of detergent leads to complete and correct cleavage of the gag precursor but incomplete cleavage of the gag-pol precursor. The protease-defective virions encapsidate normal amounts of genomic RNA and tRNATrP that is properly annealed to the primer-binding site, but some of the genomic RNA remains monomeric. Results from UV cross-linking experiments show that the gag polyprotein of mutant virions interacts with viral RNA and that this interaction occurs through the nucleocapsid (NC) domain. However, within mutant virions the interaction of the NC domain with RNA differs from that of mature NC with RNA in wild-type virions. Reverse transcriptase (RT) activity associated with mutant virions is diminished but still detectable. Digestion of the virions with PR leads to a fivefold increase in activity, but this PR-mediated activation of RT is incomplete. Since in vitro cleavage of the gag-pol precursor is also incomplete, we hypothesize that amino acid sequences N terminal to the reverse transcriptase domain inhibit RT activity.

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The cytoplasmically-made subunit IV is necessary for assembly of cytochrome c oxidase in yeast.

Dowhan¹,

Bibus²,

Schatz³

1985

The EMBO Journal

119

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Yeast cytochrome c oxidase contains three large subunits made in mitochondria and at least six smaller subunits made in the cytoplasm. There is evidence that the catalytic centers (heme a and copper) are associated with the mitochondrially‐made subunits, but the role of the cytoplasmically‐made subunits has remained open. Using a gene interruption technique, we have now constructed a Saccharomyces cerevisiae mutant which lacks the largest of the cytoplasmically‐made subunits (subunit IV). This mutant is devoid of cyanide‐sensitive respiration, the absorption spectrum of cytochrome aa3 and cytochrome c oxidase activity. It still contains the other cytochrome c oxidase subunits but these are not assembled into a stable complex. Active cytochrome c oxidase was restored to the mutant by introducing a plasmid‐borne wild‐type subunit IV gene; no restoration was seen with a gene carrying an internal deletion corresponding to amino acid residues 28‐66 of the mature subunit. Subunit IV is thus necessary for proper assembly of cytochrome c oxidase.

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Dimeric Rous Sarcoma Virus Capsid Protein Structure Relevant to Immature Gag Assembly

Nandhagopal

Simpson

Johnson

et al. 2004

Journal of Molecular Biology

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G. Schatz

Mitochondria: a historical review.

Structure and self-association of the Rous sarcoma virus capsid protein

Properties of avian retrovirus particles defective in viral protease

The cytoplasmically-made subunit IV is necessary for assembly of cytochrome c oxidase in yeast.

Dimeric Rous Sarcoma Virus Capsid Protein Structure Relevant to Immature Gag Assembly

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