M. V. Nermut scite author profile

Highly‐purified human fibronectin receptor (a heterodimer of two distinct subunits, alpha and beta) was studied using electron microscopy and a variety of preparative procedures. It was found that the receptor consists of a globular head approximately 80 by 120 A and two tails about 20 A thick and 180‐200 A long. The whole complex is approximately 280 A long. At low concentrations of detergent the receptor forms doublets, triplets or rosettes associated with the tails which possess the transmembrane portion of the molecule. Computer‐assisted structure prediction using the published amino acid sequence of both subunits showed differences in the secondary structure of the tails, the alpha‐tail being rich in beta‐strands, the beta‐tail having five cysteine‐rich repeats analogous to the EGF‐like repeats of laminin. Estimates of the length of the tails from the predicted structure conformed well with the dimensions obtained from electron micrographs.

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Roles of Matrix, p2, and N-Terminal Myristoylation in Human Immunodeficiency Virus Type 1 Gag Assembly

Morikawa

Hockley

Nermut

et al. 2000

J Virol

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Human immunodeficiency virus type 1 Gag protein is cotranslationally myristoylated at the N terminus and targeted to the plasma membrane, where virus particle assembly occurs. Particle assembly requires the ordered multimerization of Gag proteins, yet there is little direct evidence of intermediates of the reaction or of the domains that lead to each stage of the oligomerization process. In this study, following the expression in insect cells of C-terminally truncated Gag proteins and their purification, both the multimeric nature of each Gag protein and the ability to form Gag virus-like particles (VLP) were analyzed. Our results show that (i) the matrix (MA) domain forms a trimer and contributes to a similar level of oligomerization of the assemblycompetent Gag; (ii) the p2 domain, located at the capsid/nucleocapsid junction, is essential for a higher order of multimerization (>1,000 kDa); (iii) the latter multimerization is accompanied by a change in Gag assembly morphology from tubes to spheres and results in VLP production; and (iv) N-terminal myristoylation is not required for either of the multimerization stages but plays a key role in conversion of these multimers to Gag VLP. We suggest that the Gag trimer and the >1,000-kDa multimer are intermediates in the assembly reaction and form before Gag targeting to the plasma membrane. Our data identify a minimum of three stages for VLP development and suggest that each stage involves a separate domain, MA, p2, or N-terminal myristoylation, each of which contributes to HIV particle assembly.

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Ribonucleoprotein-like Structures from Coronavirus Particles

Macnaughton¹,

Davies²,

Nermut

1978

Journal of General Virology

104

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Structural Analyses of Purified Human Immunodeficiency Virus Type 1 Intracellular Reverse Transcription Complexes

Nermut

Fassati

2003

J Virol

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Retroviruses copy their RNA genome into a DNA molecule, but little is known of the structure of the complex mediating reverse transcription in vivo. We used confocal and electron microscopy to study the structure of human immunodeficiency virus type 1 (HIV-1) intracellular reverse transcription complexes (RTCs). Cytoplasmic extracts were prepared 3, 4, and 16 h after acute infection by Dounce homogenization in hypotonic buffer. RTCs were purified by velocity sedimentation, followed by density fractionation in linear sucrose gradients and dialysis in a large pore cellulose membrane. RTCs had a sedimentation velocity of approximately 350 S and a density of 1.34 g/ml and were active in an endogenous reverse transcription assay. Double labeling of nucleic acids and viral proteins allowed specific visualization of RTCs by confocal microscopy. Electron microscopy revealed that RTCs are large nucleoprotein structures of variable shape consisting of packed filaments ca. 6 nm thick. Integrase and Vpr are associated with discrete regions of the 6-nm filaments. The nucleic acids within the RTC are coated by small proteins distinct from nucleocapsid and are partially protected from nuclease digestion.

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Cell/substratum adhesions in RSV-transformed rat fibroblasts

Nermut¹,

Eason²,

Hirst³

et al. 1991

Experimental Cell Research

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M. V. Nermut

Distinct signals in human immunodeficiency virus type 1 Pr55 necessary for RNA binding and particle formation

Evidence that the amantadine-induced, M2-mediated conversion of influenza A virus hemagglutinin to the low pH conformation occurs in an acidic trans golgi compartment

Fullerene-like Organization of HIV gag-Protein Shell in Virus-like Particles Produced by Recombinant Baculovirus

Electron microscopy and structural model of human fibronectin receptor.

Roles of Matrix, p2, and N-Terminal Myristoylation in Human Immunodeficiency Virus Type 1 Gag Assembly

Ribonucleoprotein-like Structures from Coronavirus Particles

Structural Analyses of Purified Human Immunodeficiency Virus Type 1 Intracellular Reverse Transcription Complexes

Cell/substratum adhesions in RSV-transformed rat fibroblasts

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