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251 results on '"Baines, Joel D."'

2. Association of Herpes Simplex Virus pUL31 with Capsid Vertices and Components of the Capsid Vertex-Specific Complex

Author

Yang, Kui, Wills, Elizabeth, Lim, Han Young, Zhou, Z Hong, and Baines, Joel D

Subjects
Biochemistry and Cell Biology, Biological Sciences, Sexually Transmitted Infections, Infectious Diseases, Capsid, Microscopy, Immunoelectron, Nuclear Proteins, Protein Binding, Simplexvirus, Viral Proteins, Agricultural and Veterinary Sciences, Medical and Health Sciences, Virology, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences
Abstract

UnlabelledpU(L)34 and pU(L)31 of herpes simplex virus (HSV) comprise the nuclear egress complex (NEC) and are required for budding at the inner nuclear membrane. pU(L)31 also associates with capsids, suggesting it bridges the capsid and pU(L)34 in the nuclear membrane to initiate budding. Previous studies showed that capsid association of pU(L)31 was precluded in the absence of the C terminus of pU(L)25, which along with pU(L)17 comprises the capsid vertex-specific complex, or CVSC. The present studies show that the final 20 amino acids of pU(L)25 are required for pU(L)31 capsid association. Unexpectedly, in the complete absence of pU(L)25, or when pU(L)25 capsid binding was precluded by deletion of its first 50 amino acids, pU(L)31 still associated with capsids. Under these conditions, pU(L)31 was shown to coimmunoprecipitate weakly with pU(L)17. Based on these data, we hypothesize that the final 20 amino acids of pU(L)25 are required for pU(L)31 to associate with capsids. In the absence of pU(L)25 from the capsid, regions of capsid-associated pU(L)17 are bound by pU(L)31. Immunogold electron microscopy revealed that pU(L)31 could associate with multiple sites on a single capsid in the nucleus of infected cells. Electron tomography revealed that immunogold particles specific to pU(L)31 protein bind to densities at the vertices of the capsid, a location consistent with that of the CVSC. These data suggest that pU(L)31 loads onto CVSCs in the nucleus to eventually bind pU(L)34 located within the nuclear membrane to initiate capsid budding.ImportanceThis study is important because it localizes pU(L)1, a component previously known to be required for HSV capsids to bud through the inner nuclear membrane, to the vertex-specific complex of HSV capsids, which comprises the unique long region 25 (U(L)25) and U(L)17 gene products. It also shows this interaction is dependent on the C terminus of U(L)25. This information is vital for understanding how capsids bud through the inner nuclear membrane.

Published
2014

4. Herpesvirus Nuclear Egress

Author

Roller, Richard J., Baines, Joel D., Korf, Horst-Werner, Series editor, Böckers, T.M., Series editor, Clascá, Francisco, Series editor, Kmiec, Z., Series editor, Singh, Baljit, Series editor, Sutovsky, Peter, Series editor, Timmermans, Jean-Pierre, Series editor, and Osterrieder, Klaus, editor

Published
2017
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6. Characterization of a UL49-null mutant: VP22 of herpes simplex virus type 1 facilitates viral spread in cultured cells and the mouse cornea.

Author

Duffy, Carol, Lavail, Jennifer H, Tauscher, Andrew N, Wills, Elizabeth G, Blaho, John A, and Baines, Joel D

Subjects
Animals, Cercopithecus aethiops, Cornea, Gene Deletion, Herpesvirus 1, Human, Keratitis, Herpetic, Male, Mice, Mice, Inbred BALB C, Plasmids, Research Support, N.I.H., Extramural, Vero Cells, Viral Structural Proteins, Virion, Virus Replication
Abstract

Herpes simplex virus type 1 (HSV-1) virions, like those of all herpesviruses, contain a proteinaceous layer termed the tegument that lies between the nucleocapsid and viral envelope. The HSV-1 tegument is composed of at least 20 different viral proteins of various stoichiometries. VP22, the product of the U(L)49 gene, is one of the most abundant tegument proteins and is conserved among the alphaherpesviruses. Although a number of interesting biological properties have been attributed to VP22, its role in HSV-1 infection is not well understood. In the present study we have generated both a U(L)49-null virus and its genetic repair and characterized their growth in both cultured cells and the mouse cornea. While single-step growth analyses indicated that VP22 is dispensable for virus replication at high multiplicities of infection (MOIs), analyses of plaque morphology and intra- and extracellular multistep growth identified a role for VP22 in viral spread during HSV-1 infection at low MOIs. Specifically, VP22 was not required for either virion infectivity or cell-cell spread but was required for accumulation of extracellular virus to wild-type levels. We found that the absence of VP22 also affected virion composition. Intracellular virions generated by the U(L)49-null virus contained reduced amounts of ICP0 and glycoproteins E and D compared to those generated by the wild-type and U(L)49-repaired viruses. In addition, viral spread in the mouse cornea was significantly reduced upon infection with the U(L)49-null virus compared to infection with the wild-type and U(L)49-repaired viruses, identifying a role for VP22 in viral spread in vivo as well as in vitro.

Published
2006

20. A Tribute from the Band

Author

Parker, John, Baines, Joel D., Miller, Paul, Miller, Julia, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Constable, Robert L., editor, and Silva, Alexandra, editor

Published
2012
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32. Herpes Simplex Virus 1 DNA Packaging Proteins Encoded by UL6, UL15, UL17, UL28, and UL33 Are Located on the External Surface of the Viral Capsid▿

Author

Wills, Elizabeth, Scholtes, Luella, and Baines, Joel D.

Subjects
viruses, Structure and Assembly, Virus Assembly, Herpesvirus 1, Human, Antibodies, Viral, Cell Line, Viral Proteins, Capsid, Antibody Specificity, DNA, Viral, Animals, Humans, Capsid Proteins, Trypsin, Microscopy, Immunoelectron, Chickens
Abstract

Studies to localize the herpes simplex virus 1 portal protein encoded by UL6, the putative terminase components encoded by UL15, UL 28, and UL33, the minor capsid proteins encoded by UL17, and the major scaffold protein ICP35 were conducted. ICP35 in B capsids was more resistant to trypsin digestion of intact capsids than pUL6, pUL15, pUL17, pUL28, or pUL33. ICP35 required sectioning of otherwise intact embedded capsids for immunoreactivity, whereas embedding and/or sectioning decreased the immunoreactivities of pUL6, pUL17, pUL28, and pUL33. Epitopes of pUL15 were recognized roughly equally well in both sectioned and unsectioned capsids. These data indicate that pUL6, pUL17, pUL28, pUL33, and at least some portion of pUL15 are located at the external surface of the capsid.

Published
2006

37. Herpes Simplex Virus DNA Cleavage and Packaging: Association of Multiple Forms of UL15-Encoded Proteins with B Capsids Requires at Least the UL6, UL17, and UL28 Genes

Author

Salmon, Brandy and Baines, Joel D.

Subjects
Gene Expression Regulation, Viral, Genes, Viral, viruses, Virus Assembly, Detergents, Virion, Herpesvirus 1, Human, Viral Proteins, Capsid, Mutagenesis, Animal Viruses, Chlorocebus aethiops, DNA, Viral, Animals, Humans, Capsid Proteins, Rabbits, Vero Cells, Guanidine
Abstract

The U(L)15 gene of herpes simplex virus (HSV) is one of several genes required for the packaging of viral DNA into intranuclear B capsids to produce C capsids that become enveloped at the inner nuclear membrane. A rabbit antiserum directed against U(L)15-encoded protein recognized three proteins with apparent Mrs of 79,000, 80,000, and 83,000 in highly purified B capsids. The 83,000-Mr protein was detected in type C capsids and comigrated with the product of a U(L)15 cDNA transcribed and translated in vitro. The 83,000- and 80,000-Mr proteins were readily detected in purified virions. Inasmuch as (i) none of these proteins were detectable in capsids purified from cells infected with HSV-1(deltaU(L)15), a virus lacking an intact U(L)15 gene, and (ii) corresponding proteins in capsids purified from cells infected with a recombinant virus [HSV-1(R7244), containing a 20-codon tag at the 3' end of U(L)15] were decreased in electrophoretic mobility relative to the wild-type proteins, we conclude that the proteins with apparent Mrs of 83,000, 80,000, and 79,000 are products of U(L)15 with identical C termini. The 79,000-, 80,000-, and 83,000-Mr proteins remained associated with B capsids in the presence of 0.5 M guanidine HCl and remained detectable in capsids treated with 2.0 M guanidine HCl and lacking proteins associated with the capsid core. These data, therefore, indicate that U(L)15-encoded proteins are integral components of B capsids. Only the 83,000-Mr protein was detected in B capsids purified from cells infected with viruses lacking the U(L)6, U(L)17, or U(L)28 genes, which are required for DNA cleavage and packaging, suggesting that capsid association of the 80,000- and 79,000-Mr proteins requires intact cleavage and packaging machinery. These data, therefore, indicate that capsid association of the 80,000- and 79,000-Mr U(L)15-encoded proteins reflects a previously unrecognized step in the DNA cleavage and packaging reaction.

Published
1998

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