Phosphorylation of serine-rich protein encoded by open reading frame 3 of the TT virus genome

TT virus (TTV) is a newly discovered human virus with a single-stranded, circular DNA genome. The TTV DNA sequence includes two major open reading frames (ORFs), ORF1 and ORF2. Recently, spliced TTV mRNAs were detected and revealed two additional coding regions, ORF3 and ORF4. We found sequence similarity between the TTV ORF3 protein and hepatitis C virus (HCV) nonstructural 5A (NS5A) protein, which is a phosphoprotein and is thought to associate with various cellular proteins. To test whether the TTV ORF3 protein is phosphorylated, the state of phosphorylation was analyzed with a transient protein production system. The TTV ORF3 protein was phosphorylated at the serine residues in its C-terminal portion. Furthermore, the TTV ORF3 gene generated two forms of proteins with a different phosphorylation state, similar to the HCV NS5A region, suggesting that TTV ORF3 protein has function(s) similar to phosphorylated viral proteins such as the HCV NS5A protein.     

Properties of the protein encoded by the UL32 open reading frame of herpes simplex virus 1.

The functions previously assigned to the essential herpes simplex virus 1 UL32 protein were in cleavage and/or packaging of viral DNA and in maturation and/or translocation of viral glycoproteins to the plasma membrane. The amino acid sequence predicts N-linked glycosylation sites and sequences conserved in aspartyl proteases and in zinc-binding proteins. We report the following. (i) The 596-amino-acid UL32 protein accumulated predominantly in the cytoplasm of infected cells but was not metabolically labeled with glucosamine and did not band with membranes containing a known glycoprotein in flotation sucrose density gradients. The UL32 protein does not, therefore, have the properties of an intrinsic membrane protein. (ii) Experiments designed to demonstrate aspartyl protease activity in a phage display system failed to reveal proteolytic activity. Moreover, substitution of Asp-110 with Gly in the sequence Asp-Thr-Gly, the hallmark of aspartyl proteases, had no effect on viral replication in Vero and SK-N-SH cell lines or in human foreskin fibroblasts. Therefore, if the UL32 protein functions as a protease, this function is not required in cells in culture. (iii) Both the native UL32 protein and a histidine-tagged UL32 protein made in recombinant baculovirus-infected insect cells bound zinc. The consensus sequence is conserved in the UL32 homologs from varicella-zoster virus and equine herpesvirus 1. UL32 protein is therefore a cysteine-rich, zinc-binding essential cytoplasmic protein whose function is not yet clear.     

Dissection of a novel nuclear localization signal in open reading frame 29 of varicella-zoster virus

Open reading frame 29 (ORF29) of varicella-zoster virus (VZV) encodes a 120-kDa single-stranded DNA binding protein (ORF29p) that is not packaged in the virion and is expressed during latency. During lytic infection, ORF29p is localized primarily to infected cell nuclei. In contrast, ORF29p is found exclusively in the cytoplasm in neurons of the dorsal root ganglia obtained at autopsy from seropositive latently infected patients. ORF29p accumulates in the nuclei of neurons in dorsal root ganglia obtained at autopsy from patients with active zoster. The localization of this protein is, therefore, tightly correlated with the proposed VZV lytic/latent switch. In this report, we have investigated the nuclear import mechanism of ORF29p. We identified a novel nuclear targeting domain bounded by amino acids 9 to 154 of ORF29p that functions independent of other VZV-encoded factors. In vitro import assays in digitonin-permeabilized HeLa cells reveal that ORF29p is transported into the nucleus by a Ran-, karyopherin alpha- and beta-dependent mechanism. These data are further supported by the demonstration that a glutathione S-transferase-karyopherin alpha fusion interacts with ORF29p, but not with a protein containing a point mutation in its nuclear localization signal (NLS). Therefore, the region of ORF29p responsible for its nuclear targeting is also involved in the association with karyopherin alpha. As a result of this interaction, this noncanonical NLS appears to hijack the classical cellular nuclear import machinery. Elucidation of the mechanisms governing ORF29p nuclear targeting could shed light on the VZV reactivation process.     

Identification and characterization of the herpes simplex virus type 1 protein encoded by the UL37 open reading frame

The UL37 open reading frame of the herpes simplex virus type 1 (HSV-1) DNA genome is located between map units 0.527 and 0.552. We have identified and characterized the UL37 protein product in HSV-1-infected cells. The presence of the UL37 protein was detected by using a polyclonal rabbit antiserum directed against an in vitro-translated product derived from an in vitro-transcribed UL37 mRNA. The UL37 open reading frame encodes for a protein with an apparent molecular mass of 120 kDa in HSV-1-infected cells; the protein's mass was assigned on the basis of its migration in sodium dodecyl sulfate-polyacrylamide gels. The UL37 protein is not present at detectable levels in purified HSV-1 virions, suggesting that it is not a structural protein. Analysis of time course experiments and experiments using DNA synthesis inhibitors demonstrated that the UL37 protein is expressed prior to the onset of viral DNA synthesis, reaching maximum levels late in infection, classifying it as a gamma 1 gene. Elution of HSV-1-infected cell proteins from single-stranded DNA agarose columns by using a linear KCl gradient demonstrated that the UL37 protein elutes from this matrix at a salt concentration similar to that observed for ICP8, the major HSV-1 DNA-binding protein. In addition, computer-assisted analysis revealed a potential ATP-binding domain in the predicted UL37 amino acid sequence. On the basis of the kinetics of appearance and DNA-binding properties, we hypothesize that UL37 represents a newly recognized HSV-1 DNA-binding protein that may be involved in late events in viral replication.     

Evidence for a new hepatitis C virus antigen encoded in an overlapping reading frame

Many viruses have overlapping genes and/or regions in which a nucleic acid signal is embedded in a coding sequence. To search for dual-use regions in the hepatitis C virus (HCV), we developed a facile computer-based sequence analysis method to map dual-use regions in coding sequences. Eight diverse full-length HCV RNA and polyprotein sequences were aligned and analyzed. A cluster of unusually conserved synonymous codons was found in the core-encoding region, indicating a potential overlapping open reading frame (ORF). Four peptides (A1, A2, A3, and A4) representing this alternate reading frame protein (ARFP), two others from the HCV core protein, and one from bovine serum albumin (BSA) were conjugated to BSA and used in western blots to test sera for specific antibodies from 100 chronic HCV patients, 44 healthy controls, and 60 patients with non-HCV liver disease. At a 1:20,000 dilution, specific IgGs to three of the four ARFP peptides were detected in chronic HCV sera. Reactivity to either the A1 or A3 peptides (both ARFP derived) was significantly associated with chronic HCV infection, when compared to non-HCV liver disease serum samples (10/100 versus 1/60; p < 0.025). Antibodies to A4 were not detected in any serum sample. Our western blot assays confirmed the presence of specific antibodies to a new HCV antigen encoded, at least in part, in an alternate reading frame (ARF) overlapping the core-encoding region. Because this novel HCV protein stimulates specific immune responses, it has potential value in diagnostic tests and as a component of vaccines. This protein is predicted to be highly basic and may play a role in HCV replication, pathogenesis, and carcinogenesis.     

Sequence variability of Borna disease virus open reading frame II found in human peripheral blood mononuclear cells.

A cDNA fragment of the Borna disease virus (BDV) open reading frame II (ORF-II), which encodes a 24-kDa phosphoprotein (p24 [P protein]), was amplified from total RNA of peripheral blood mononuclear cells (PBMC) from three psychiatric inpatients. The amplified cDNA fragments were cloned, sequenced, and analyzed. A total of 15 clones, 5 from each patient, were studied. Intrapatient divergencies of the BDV ORF-II nucleotide sequence were 4.2 to 7.3%, 4.8 to 7.3%, and 2.8 to 7.1% for the three patients, leading to differences of 7.7 to 14.5%, 10.3 to 17.1%, and 6.0 to 16.2%, respectively, in the deduced amino acid sequence for BDV p24. Interpatient divergencies among the 15 clones were 5.9 to 12.7% at the nucleotide level and 12.8 to 28.2% at the amino acid level. Thus, in p24, BDV in human PBMC of the patients undergoes mutation at high rates in vivo. Additionally, we found that the nucleotide sequence of the 15 human BDV ORF-II cDNA clones differed from those of the horse strains V and He/80-1 by 4.2 to 9.3%. However, comparison of the consensus amino acid sequence deduced from the 15 human clones with those of the horse strains revealed no human-specific amino acid residue, suggesting that the BDV infecting humans may be related to that infecting horses.     

Identification of hepatitis B virus polypeptides encoded by the entire pre-s open reading frame.

The open reading frame (ORF) that encodes the 226-amino-acid coat protein (hepatitis B virus surface antigen [HBsAg]) of hepatitis B virus has the potential to encode a 400-amino-acid polypeptide. The entire ORF would direct the synthesis of a polypeptide whose C-terminal amino acids represent HBsAg with an additional 174 amino acids at the N terminus (pre-s). Recently, virus particles have been shown to contain a polypeptide that corresponds to HBsAg with an additional 55 amino acids at the N terminus encoded by the DNA sequence immediately upstream of the HBsAg gene. A novel ORF expression vector containing the TAC promoter, the first eight codons of the gene for beta-galactosidase, and the entire coding sequence for chloramphenicol acetyltransferase was used in bacteria to express determinants of the 174 amino acids predicted from the pre-s portion of the ORF. The resulting tribrid protein containing 108 amino acids encoded by pre-s was expressed as one of the major proteins of bacteria harboring the recombinant plasmid. Single-step purification of the tribrid fusion protein was achieved by fractionation on a chloramphenicol affinity resin. Polyclonal antiserum generated to the fusion protein was capable of detecting 42- and 46-kilodalton polypeptides from virus particles; both polypeptides were also shown to contain HBsAg determinants. The ability of the polyclonal antiserum to identify polypeptides with these characteristics from virus particles presents compelling evidence that the DNA sequence of the entire ORF is expressed as a contiguous polypeptide containing HBsAg. The presence of multiple promoters and primary translation products from this single ORF argues that the function and potential interaction of the encoded polypeptides play a crucial role in the life cycle of the virus. Furthermore, the procedure and vector described in this report can be applied to other systems to facilitate the generation of antibodies to defined determinants and should allow the characterization of the epitope specificity of existing antibodies.     

Borna disease virus nucleoprotein requires both nuclear localization and export activities for viral nucleocytoplasmic shuttling

Nuclear transport of viral nucleic acids is crucial to the life cycle of many viruses. Borna disease virus (BDV) belongs to the order Mononegavirales and replicates its RNA genome in the nucleus. Previous studies have suggested that BDV nucleoprotein (N) and phosphoprotein (P) have important functions in the nuclear import of the viral ribonucleoprotein (RNP) complexes via their nuclear targeting activity. Here, we showed that BDV N has cytoplasmic localization activity, which is mediated by a nuclear export signal (NES) within the sequence. Our analysis using deletion and substitution mutants of N revealed that NES of BDV N consists of a canonical leucine-rich motif and that the nuclear export activity of the protein is mediated through the chromosome region maintenance protein-dependent pathway. Interspecies heterokaryon assay indicated that BDV N shuttles between the nucleus and cytoplasm as a nucleocytoplasmic shuttling protein. Furthermore, interestingly, the NES region overlaps a binding site to the BDV P protein, and nuclear export of a 38-kDa form of BDV N is prevented by coexpression of P. These results suggested that BDV N has two contrary activities, nuclear localization and export activity, and plays a critical role in the nucleocytoplasmic transport of BDV RNP by interaction with other viral proteins.     

Mapping of the nuclear localization signals in open reading frame 2 protein from porcine circovirus type 1

Porcine circovirus type 1 （PCV1） contains two major open reading frames encoding the replication-associated proteins and the major structural capsid （Cap） protein. PCV1 Cap has an N-terminus carrying several potential monopartite or bipartite nuclear localization signals （NLS）. The contribution of these partially overlapping motifs to nuclear importing was identified by expression of mutated PCVI Cap versions fused to enhanced green fluorescent protein （EGFP）. The Cterminus truncated PCV1 Cap-EGFP was localized in nuclei of PK-15 cells similar to the wild-type PCV1 Cap-EGFP, whereas truncation of the N-terminus rendered the fusion protein distributed into cytoplasm, indicating that the nuclear import of PCV1 Cap was efficiently mediated by its N-terminal region. Substitutions of basic residues in stretches 9RR- RR12 or the right part of 25RRPYLAHPAFRNRYRWRRK43 resulted in a diffused distribution of the fusion protein in both nuclei and cytoplasm, indicating that the two NLSs were responsible for restricted nuclear targeting of PCV1 Cap.     

Identification and characterization of the herpes simplex virus type 1 virion protein encoded by the UL35 open reading frame.

The UL35 open reading frame (ORF) of herpes simplex virus type 1 (HSV-1) has been predicted from DNA sequence analysis to encode a small polypeptide with a molecular weight of 12,095. We have investigated the protein product of the UL35 ORF by using a trpE-UL35 gene fusion to produce a corresponding fusion protein in Escherichia coli. The TrpE-UL35 chimeric protein was subsequently isolated and used as a source of immunogen for the production of rabbit polyclonal antiserum directed against the UL35 gene product. The TrpE-UL35 antiserum was found to recognize a 12-kDa protein which was specifically present in HSV-1-infected cells. By utilizing the TrpE-UL35 antiserum, the kinetics of synthesis of the UL35 gene product was examined, and these studies indicate that UL35 is expressed as a gamma 2 (true late) gene. The 12-kDa protein recognized by the TrpE-UL35 antiserum was associated with purified HSV-1 virions and type A and B capsids, suggesting that the UL35 ORF may encode the 12-kDa capsid protein variably designated p12, NC7, or VP26. To confirm this assignment, immunoprecipitation and immunoblotting studies were performed to demonstrate that the TrpE-UL35 antiserum reacts with the same polypeptide as an antiserum directed against the purified p12 capsid protein (anti-NC7) (G.H. Cohen, M. Ponce de Leon, H. Diggelmann, W.C. Lawrence, S.K. Vernon, and R.J. Eisenberg, J. Virol. 34:521-531, 1980). Furthermore, the anti-NC7 serum was also found to react with the TrpE-UL35 chimeric protein isolated from E. coli, providing additional evidence that the UL35 gene encodes p12. On the basis of these studies, we conclude that UL35 represents a true late gene which encodes the 12-kDa capsid protein of HSV-1.     

Heat shock cognate protein 70 controls Borna disease virus replication via interaction with the viral non-structural protein X

Borna disease virus (BDV) is a non-segmented, negative-sense RNA virus and has the property of persistently infecting the cell nucleus. BDV encodes a 10-kDa non-structural protein, X, which is a negative regulator of viral polymerase activity but is essential for virus propagation. Recently, we have demonstrated that interaction of X with the viral polymerase cofactor, phosphoprotein (P), facilitates translocation of P from the nucleus to the cytoplasm. However, the mechanism by which the intracellular localization of X is controlled remains unclear. In this report, we demonstrate that BDV X interacts with the 71 kDa molecular chaperon protein, Hsc70. Immunoprecipitation assays revealed that Hsc70 associates with the same region of X as P and, interestingly, that expression of P interferes competitively with the interaction between X and Hsc70. A heat shock experiment revealed that BDV X translocates into the nucleus, dependent upon the nuclear accumulation of Hsc70. Furthermore, we show that knockdown of Hsc70 by short interfering RNA decreases the nuclear localization of both X and P and markedly reduces the expression of viral genomic RNA in persistently infected cells. These data indicate that Hsc70 may be involved in viral replication by regulating the intracellular distribution of X.     

The 1,629-nucleotide open reading frame located downstream of the Autographa californica nuclear polyhedrosis virus polyhedrin gene encodes a nucleocapsid-associated phosphoprotein.

A 78-kDa protein was produced in bacteria from a clone of the 1,629-nucleotide open reading frame located immediately downstream from the polyhedrin gene of Autographa californica nuclear polyhedrosis virus. The identity of this protein was confirmed by its reactivity with peptide antiserum and amino terminal peptide sequencing after purification from transformed bacteria. The polypeptide was used to produce polyclonal antisera in rabbits. Immunoblot analysis of insect cells infected with the baculovirus indicated that two related proteins with molecular masses of 78 and 83 kDa were synthesized late in infection. Biochemical fractionation studies indicated that both of these proteins were present in purified nucleocapsids from budded and occluded virus preparations. Immunoprecipitation of 32P-labeled proteins and treatment of purified nucleocapsids with alkaline phosphatase demonstrated that the 83-kDa protein was a phosphorylated derivative of the 78-kDa protein. Furthermore, immunoelectron microscopy revealed that the proteins were localized to regions of nucleocapsid assembly within the infected cell and appeared to be associated with the end structures of mature nucleocapsids.     

A methionine-rich domain mediates CRM1-dependent nuclear export activity of Borna disease virus phosphoprotein

Borna disease virus (BDV) is a nonsegmented, negative-strand RNA virus that replicates and transcribes in the nucleus of infected cells. Recently, we have demonstrated that BDV phosphoprotein (P) can modulate its subcellular localization through binding to the protein X, which is encoded in the overlapping open reading frame (T. Kobayashi et al., J. Virol. 77:8099-8107, 2003). This observation suggested a unique strategy of intracellular trafficking of a viral protein that is essential for the formation of a functional BDV ribonucleoprotein (RNP). However, neither the mechanism nor the consequences of the cytoplasmic retention or nuclear export of BDV X-P complex have been elucidated. In this study, we show that BDV P contains a bona fide nuclear export signal (NES) and can actively shuttle between the nucleus and cytoplasm. A transient transfection analysis of cDNA clones that mimic the BDV bicistronic X/P mRNA revealed that the methionine-rich (MetR) domain of P is responsible for the X-dependent cytoplasmic localization of the protein complex. Mutational and functional analysis revealed that the methionine residues within the MetR domain are critical for the activity of the NES of P. Furthermore, leptomycin B or small interfering RNA for inhibition of CRM1 strongly suggested that a CRM1-dependent pathway mediates nuclear export of P. Fluorescence loss in photobleaching analysis confirmed the nucleocytoplasmic shuttling of P. Moreover, we revealed that the nuclear export of P is not involved in the inhibition of the polymerase activity by X in the BDV minireplicon system. Our results may provide a unique strategy for the nucleocytoplasmic transport of viral RNP, which could be critical for the formation of not only infectious virions in the cytoplasm but also a persistent viral state in the nucleus.     

Characterization of the Borna disease virus phosphoprotein, p23.

Borna disease virus infection is diagnosed by the presence of serum antibodies reactive with the major viral proteins, p40 and p23. Although p40 and p23 are unrelated in amino acid sequence structure, cross-reactive antibodies are described. Protein fragments and synthetic peptides were analyzed to characterize the specificities of antibodies to p23. Epitope mapping revealed eight continuous epitopes accessible on the surface of a predicted structural model for the monomeric and the disulfide-linked dimeric forms of p23. None of these epitopes was reactive with antibodies to p40. Cross-reactivity with monospecific sera and monoclonal antibodies to p40 was found for one discontinuous epitope located at the amino terminus of p23.     

Norwalk virus open reading frame 3 encodes a minor structural protein

Norwalk virus (NV) is a causative agent of acute epidemic nonbacterial gastroenteritis in humans. The inability to cultivate NV has required the use of molecular techniques to examine the genome organization and functions of the viral proteins. The function of the NV protein encoded by open reading frame 3 (ORF 3) has been unknown. In this paper, we report the characterization of the NV ORF 3 protein expressed in a cell-free translation system and in insect cells and show its association with recombinant virus-like particles (VLPs) and NV virions. Expression of the ORF 3 coding region in rabbit reticulocyte lysates resulted in the production of a single protein with an apparent molecular weight of 23,000 (23K protein), which is not modified by N-linked glycosylation. The ORF 3 protein was expressed in insect cells by using two different baculovirus recombinants; one recombinant contained the entire 3' end of the genome beginning with the ORF 2 coding sequences (ORFs 2+3), and the second recombinant contained ORF 3 alone. Expression from the construct containing both ORF 2 and ORF 3 resulted in the expression of a single protein (23K protein) detected by Western blot analysis with ORF 3-specific peptide antisera. However, expression from a construct containing only the ORF 3 coding sequences resulted in the production of multiple forms of the ORF 3 protein ranging in size from 23,000 to 35,000. Indirect-immunofluorescence studies using an ORF 3 peptide antiserum showed that the ORF 3 protein is localized to the cytoplasm of infected insect cells. The 23K ORF 3 protein was consistently associated with recombinant VLPs purified from the media of insect cells infected with a baculovirus recombinant containing the entire 3' end of the NV genome. Western blot analysis of NV purified from the stools of NV-infected volunteers revealed the presence of a 35K protein as well as multiple higher-molecular-weight bands specifically recognized by an ORF 3 peptide antiserum. These results indicate that the ORF 3 protein is a minor structural protein of the virion.     

Herpes simplex virus 1 protein kinase is encoded by open reading frame US3 which is not essential for virus growth in cell culture.

Earlier reports have described a novel protein kinase in cells infected with herpes simplex or pseudorabies viruses. These novel enzymes were characterized by their acceptance of protamine as a substrate and by their differential chromatographic behavior in anion-exchange chromatography. We report that this activity was not present in extracts of uninfected cells or of cells infected with a mutant constructed so as to contain a deletion in the US3 open reading frame mapping in the small component of herpes simplex virus 1 DNA. The activity was present in extracts of cells infected with wild-type virus and with a recombinant in which the US3 open reading frame had been rescued. Our results are consistent with the observation reported earlier that the coding sequences predict an amino acid motif common to protein kinases and lead to the conclusion that the US3 open reading frame encodes a virus-specific protein kinase that is not required for virus growth in cells in culture.     

Hepatitis B virus particles contain a polypeptide encoded by the largest open reading frame: a putative reverse transcriptase

A segment of the largest open reading frame of hepatitis B virus (HBV) was inserted into an open reading frame vector directing the expression in Escherichia coli of a fusion molecule containing 143 HBV-encoded amino acids. The fusion protein was used to generate antiserum which served in immunoblots to identify a polypeptide with a molecular mass of 65 kilodaltons in HBV particles. Because of the small number of molecules in virus particles, unambiguous detection required the development of a highly sensitive immunoblot procedure.     

Phosphorylation of varicella-zoster virus open reading frame (ORF) 62 regulatory product by viral ORF 47-associated protein kinase.

Varicella-zoster virus (VZV) encodes within its unique long region a gene product with protein kinase motifs. In a previous study, we demonstrated that immunoprecipitated VZV open reading frame (ORF) 47 protein was associated with a functional protein kinase activity, on the basis of its ability to both autophosphorylate and phosphorylate artificial substrates. To further define potential substrates of ORF 47-associated protein kinase, we analyzed individual viral phosphoproteins to determine whether any were modified by the viral protein kinase. These candidates included gene products of VZV ORFs 4, 61, 62, and 63, which are homologs of herpes simplex virus type 1 (HSV-1) immediate-early proteins. Each of the above VZV proteins was coimmunoprecipitated with ORF 47 kinase, and the immune complex was incubated in a protein kinase assay. Under these conditions, only the VZV immediate-early ORF 62 protein was phosphorylated by ORF 47-associated protein kinase. The specificity of this phosphorylation event was analyzed by a competition assay in which a recombinant ORF 47 protein lacking enzymatic activity was able to reduce the amount of phosphorylation of ORF 62 protein by VZV ORF 47-associated kinase. To provide an additional evaluation of specificity, the experiment was repeated with [32P]GTP instead of [32P]ATP, because the VZV ORF 47 kinase has the distinctive property of using GTP as a phosphate donor. Again the ORF 62 substrate was phosphorylated. In summary, the VZV ORF 47-associated protein kinase (the HSV-1 UL13 homolog) catalyzed the in vitro phosphorylation of the VZV ORF 62 protein, the homolog of the HSV-1 ICP4 regulatory protein.     

Role of the varicella-zoster virus gene product encoded by open reading frame 35 in viral replication in vitro and in differentiated human skin and T cells in vivo

Although genes related to varicella-zoster virus (VZV) open reading frame 35 (ORF35) are conserved in the herpesviruses, information about their contributions to viral replication and pathogenesis is limited. Using a VZV cosmid system, we deleted ORF35 to produce two null mutants, designated rOkaDelta35(#1) and rOkaDelta35(#2), and replaced ORF35 at a nonnative site, generating two rOkaDelta35/35@Avr mutants. ORF35 Flag-tagged recombinants were made by inserting ORF35-Flag at the nonnative Avr site as the only copy of ORF35, yielding rOkaDelta35/35Flag@Avr, or as a second copy, yielding rOka35Flag@Avr. Replication of rOkaDelta35 viruses was diminished in melanoma and Vero cells in a 6-day analysis of growth kinetics. Plaque sizes of rOkaDelta35 mutants were significantly smaller than those of rOka in melanoma cells. Infection of melanoma cells with rOkaDelta35 mutants was associated with disrupted cell fusion and polykaryocyte formation. The small plaque phenotype was not corrected by growth of rOkaDelta35 mutants in melanoma cells expressing the major VZV glycoprotein E, gE. The rOkaDelta35/35@Avr viruses displayed growth kinetics and plaque morphologies that were indistinguishable from those of rOka. Analysis with ORF35-Flag recombinants showed that the ORF35 gene product localized predominantly to the nuclei of infected cells. Evaluations in the SCIDhu mouse model demonstrated that ORF35 was required for efficient VZV infection of skin and T-cell xenografts, although the decrease in infectivity was most significant in skin. These mutagenesis experiments indicated that ORF35 was dispensable for VZV replication, but deleting ORF35 diminished growth in cultured cells and was associated with attenuated VZV infection of differentiated human skin and T cells in vivo.