Mutational analysis of the human immunodeficiency virus vpr open reading frame.

Mutations were introduced by recombinant DNA techniques into the vpr open reading frame of an infectious molecular clone of human immunodeficiency virus type 1. The effect of these changes on the replicative and cytopathologic properties of the virus recovered from transfected cells was studied in several human CD4+ lymphocyte cell lines. In all cases, mutant viruses were infectious and cytopathic. However, when a low-input dose was used, mutants grew significantly more slowly than the wild-type virus. The growth kinetics of vpr mutants were distinct from those of vif and vpu mutants.     

Protein products of the open reading frames encoding nonstructural proteins of human astrovirus serotype 8

Human astroviruses have a positive-strand RNA genome, which contains three open reading frames (ORF1a, ORF1b, and ORF2). The genomic RNA is translated into two nonstructural polyproteins, nsp1a and nsp1ab, that contain sequences derived from ORF1a and from both ORF1a and ORF1b, respectively. Proteins nsp1a and nsp1ab are thought to be proteolytically processed to yield the viral proteins implicated in the replication of the virus genome; however, the intermediate and final products of this processing have been poorly characterized. To identify the cleavage products of the nonstructural polyproteins of a human astrovirus serotype 8 strain, antisera to selected recombinant proteins were produced and were used to analyze the viral proteins synthesized in astrovirus-infected Caco-2 cells and in cells transfected with recombinant plasmids expressing the ORF1a and ORF1b polyproteins. Pulse-chase experiments identified proteins of approximately 145, 88, 85, and 75 kDa as cleavage intermediates during the polyprotein processing. In addition, these experiments and kinetic analysis of the synthesis of the viral proteins identified polypeptides of 57, 20, and 19 kDa, as well as two products of around 27 kDa, as final cleavage products, with the 57-kDa polypeptide most probably being the virus RNA polymerase and the two approximately 27-kDa products being the viral protease. Based on the differential reactivities of the astrovirus proteins with the various antisera used, the individual polypeptides detected were mapped to the virus ORF1a and ORF1b regions.     

The L2 open reading frame of human papillomavirus type 1a encodes a minor structural protein carrying type-specific antigens.

The proteins encoded by the open reading frames of papillomavirus genomes and the minor polypeptides detected in purified virions are still poorly defined. We show here by its expression in Escherichia coli that the open reading frame L2 of human papillomavirus type 1a codes for a minor structural protein of Mr 76,000. Antisera raised against a truncated L2-beta-galactosidase fusion protein in which the conserved N-terminal region of L2 is missing are type specific for human papillomavirus type 1 virions and are reactive at high dilutions. Expression of the L2-encoded type-specific antigens thus provides a powerful new tool for the identification of papillomaviruses.     

Identification of the E5 open reading frame of human papillomavirus type 16.

Sequencing of the E5 open reading frame (ORF) of human papillomavirus type 16 revealed an additional nucleotide, a thymidine residue, at position 3903 compared with the original sequence (Seedorf et al., Virology 145:181-185, 1985). The additional T had two effects; first, in reading frame 2, in which the original E5 ORF was predicted, the additional T changed the reading frame downstream of position 3903 to create an ORF, which we designated E5, that terminated at position 4018 and potentially encoded a 52-amino-acid polypeptide. Secondly, in reading frame 3, a new ORF was created (positions 3807 to 4097), which we propose is the authentic papillomavirus type 16 E5 ORF. It contained a methionine residue and encoded an additional 82 amino acids. Both ORFs have been cloned into bacterial expression vectors (pATH), and the fusion proteins have been used to generate polyclonal antibodies in rabbits.     

Nonsense mutation in open reading frame E2 of bovine papillomavirus DNA.

Oligonucleotide-directed mutagenesis was used to construct a nonsense mutation in open reading frame (ORF) E2 of bovine papillomavirus DNA. A single base substitution mutation was constructed which converted a TAC codon into a TAG amber stop codon at a position in the ORF that did not overlap with any other viral ORFs. Full-length viral DNA containing the mutation induced only approximately 2% of the transformed foci of mouse C127 cells that were induced by wild-type DNA. In a different transformation assay, approximately one-half of the C127 cells which had acquired the mutant DNA gave rise to colonies containing at least some cells with transformed morphology. The constructed mutation was maintained in cell lines derived from cells which had acquired the mutant viral DNA, but the viral DNA appeared to be integrated into the host cell genome. Genetic mapping experiments proved that the constructed amber mutation caused the decrease in focus-forming activity and the integration of the mutant viral DNA. These results suggest that ORF E2 encodes a protein which is involved either directly or indirectly in some aspects of oncogenic transformation by bovine papillomavirus and in maintaining the viral DNA as a plasmid in transformed cells.     

Mutational analysis of open reading frame E4 of bovine papillomavirus type 1.

Open reading frame (ORF) E4 is a 353-base-pair ORF of bovine papillomavirus type 1. To determine the biological activities of this ORF in mouse C127 cells, we analyzed the effects of two constructed mutations which are predicted to prevent synthesis of ORF E4 proteins while leaving the amino acid sequence encoded by the overlapping ORF E2 unchanged. Neither mutation interfered with the abilities of the mutants to efficiently induce focus formation, induce growth in soft agarose, or transactivate an inducible bovine papillomavirus type 1 enhancer. Also, neither mutation prevented establishment of the viral DNA as an extrachromosomal plasmid in transformed cells. These results suggest that ORF E4 proteins are not required for these biological activities, and they are consistent with the observation of others (J. Doorbar, D. Campbell, R. J. A. Grand, and P. H. Gallimore, EMBO J. 5:355-362, 1986) that the ORF E4 protein of a human papillomavirus is associated with late gene expression during papilloma formation.     

The upstream open reading frame of cyclin-dependent kinase inhibitor 1A mRNA negatively regulates translation of the downstream main open reading frame

The skeletal muscle cells are one of the main sites of glucose uptake through glucose transporter 4 (GLUT4) in response to insulin. In muscle cells, 5' adenosine monophosphate-activated protein kinase (AMPK) is known as another GLUT4 translocation promoter. Natural compounds that activate AMPK have a possibility to overcome insulin resistance in the diabetic state. Piceatannol is a natural analog and a metabolite of resveratrol, a known AMPK activator. In this study, we investigate the in vitro effect of piceatannol on glucose uptake, AMPK phosphorylation and GLUT4 translocation to plasma membrane in L6 myocytes, and its in vivo effect on blood glucose levels in type 2 diabetic model db/db mice. Piceatannol was found to promote glucose uptake, AMPK phosphorylation and GLUT4 translocation by Western blotting analyses in L6 myotubes under a condition of insulin absence. Promotion by piceatannol of glucose uptake as well as GLUT4 translocation to plasma membrane by immunocytochemistry was also demonstrated in L6 myoblasts transfected with a glut4 cDNA-coding vector. Piceatannol suppressed the rises in blood glucose levels at early stages and improved the impaired glucose tolerance at late stages in db/db mice. These in vitro and in vivo findings suggest that piceatannol may be preventive and remedial for type 2 diabetes and become an antidiabetic phytochemical.     

Identification of B-epitopes in the human papillomavirus 18 E7 open reading frame protein.

A panel of murine mAb raised against a MS2 replicase/HPV 18 E7 fusion protein included 23 reactive by ELISA with HPV 18 E7 determinants. A total of 19 of the 23 recognized linear epitopes in the N-terminal region of the E7 molecule, while the other four were deduced by binding inhibition assays to recognize conformational determinants in this region. All tested antibodies precipitated a 14-kDa peptide doublet that corresponded with the predicted size of the E7 protein, from HeLa cells, but not from HPV 16 E7 containing CaSki cells. HPV 18 E7 protein was detected by immunolabeling with electron microscopy in both the nucleus and the cytoplasm of HeLa cells with the greater proportion occurring in the cytoplasm. No antibody reacted specifically by indirect immunofluorescence with HeLa cells. Weak cross-reactivity of some mAb with the E6 MS2-replicase fusion protein of HPV 16 was detected by ELISA, but no protein of the appropriate size was immunoprecipitated from CaSki cells. It is concluded that the B cell epitopes on the HPV 18 E7 transforming protein are located in the N-terminal region of the molecule and that some are weakly cross-reactive with HPV 16 E6 protein. E7 protein is either present in HeLa cells at a concentration too low to be detected by indirect immunofluorescence, or the N-terminal epitopes are masked by protein conformation or interaction with cellular or other viral components.     

Cloning and characterization of human astrovirus immunoreactive epitopes.

We report the cloning of antigenic, protein-coding regions of human astrovirus serotype 1 that appear to be common to most, if not all, serotypes of human astrovirus. Screening of lambda gt11 libraries identified three different but overlapping clones (A43, A35, and A1) and one independent clone (A14) that reacted with serum from a rabbit repeatedly immunized with purified astrovirus particles but not with its preimmunization serum. These clones were shown to be astrovirus specific. Of note, a radiolabeled probe representing the immunoreactive clones A43-A35-A1 hybridized exclusively to the 7.2-kb astrovirus genomic RNA, while a clone A14-specific probe hybridized with both the genomic and the 2.8-kb astrovirus subgenomic RNAs. This suggests that the immunoreactive epitopes, selected by antiserum to purified astrovirus particles, are encoded by the subgenomic RNA as well as other regions of the genomic RNA.     

Yeast open reading frame YCR14C encodes a DNA beta-polymerase-like enzyme.

We have shown by activity gel that overexpression in E. coli of a yeast chromosome 3 open reading frame (ORF) designated YCR14C and bearing homology to mammalian DNA polymerases beta results in a new DNA polymerase in the host cells. The molecular mass of this enzyme corresponded to the YCR14C-predicted 67 kDa protein, and NH2-terminal amino acid sequencing confirmed that the expressed protein was encoded by the yeast ORF. This new yeast DNA polymerase was purified to homogeneity from E.coli. In a fashion similar to that of mammalian beta-polymerases, the purified yeast enzyme exhibited distributive DNA synthesis on DNA substrate with a single-stranded template and processive gap-filling synthesis on a short-gapped DNA substrate. Activity of this yeast beta-polymerase-like enzyme was sensitive to the beta-polymerase inhibitor ddNTP and resistant to both 1 mM NEM and neutralizing antibody to E. coli DNA polymerase I. These results, therefore, indicate that YCR14C encodes a DNA beta-polymerase-like enzyme in yeast, and we name it DNA polymerase IV. Yeast strains harboring a deletion mutation of the pol IV gene are viable, they exhibit no increase in sensitivity to ultraviolet light, ionizing radiation or alkylating agents, and sporulation and spore viability are not affected in the mutant.     

The equine herpesvirus 2 E1 open reading frame encodes a functional chemokine receptor

Several herpesviruses contain open reading frames (ORFs) that encode potential homologs of eucaryotic genes. Equine herpesvirus 2 (EHV-2) is a gammaherpesvirus related to other lymphotropic herpesviruses such as herpesvirus saimiri and Epstein-Barr virus. The E1 ORF of EHV-2, a G protein-coupled receptor homolog, shows 31 to 47% amino acid identity with known CC chemokine receptors. To investigate whether E1 may encode a functional receptor, we cloned the E1 ORF and expressed it in stably transfected cell lines. We report here the identification of the CC chemokine eotaxin as a functional ligand for the EHV-2 E1 receptor. Chemokines are likely to play a role in the regulation of immune functions in equine hosts during EHV-2 infection and, via interaction with E1, may affect viral replication and/or escape from immune responses.     

Mutation in the UL97 open reading frame of human cytomegalovirus strains resistant to ganciclovir.

The same point mutation in the human cytomegalovirus UL97 open reading frame was found in three independently isolated ganciclovir-resistant mutants of strain AD169. Point mutations in the DNA polymerase genes of these strains have been previously identified (N.S. Lurain, K.D. Thompson, E.W. Holmes, and G.S. Read, J. Virol. 66:7146-7152, 1992). All three strains are, therefore, double mutants. To determine the contribution of the UL97 mutation to the high ganciclovir resistance of these mutants, the mutation from the ganciclovir-resistant strain D6/3/1 was transferred to the wild-type strain AD169 to produce the recombinant R6HS. The ganciclovir resistance of R6HS is 4-fold lower than that of D6/3/1 but 10-fold higher than that of AD169. R6HS, like AD169, is sensitive to the nucleotide analogs (S)-1-[(3-hydroxy-2-phosphonylmethoxy) propyl]adenine and (S)-1-[(3-hydroxy-2-phosphonylmethoxy)propyl]cytosine. Ganciclovir phosphorylation in R6HS-infected cells was at the same reduced level as that found in cells infected with the parental mutant D6/3/1. The same G-to-T transversion at nucleotide 1380 in the UL97 coding sequence is present in both R6HS and D6/3/1. This mutation results in the substitution of isoleucine for methionine at amino acid residue 460. In an alignment of the R6HS UL97 amino acid sequence with the amino acid sequences of a wide range of protein kinase family members, methionine 460 lies within a highly conserved region which may function in nucleotide binding and phosphate transfer.