Abstract: Four strains of the coronavirus murine hepatitis virus were examined for the presence of phosphorylated proteins. The nucleocapsid protein was determined to contain phosphate covalently linked to serine but not to threonine residues. The nucleocapsid protein was the only phosphorylated protein detected in these strains of murine hepatitis virus.

Abstract: Purified epizootic haemorrhagic disease virus (EHDV) was shown to contain 10 double-stranded RNA segments and a double-layered protein capsid with 4 major and 4 minor polypeptides. The virus differed from bluetongue virus (BTV), the orbivirus prototype, in that EHDV had an additional minor polypeptide component. This component, together with the major polypeptides P2 and P5, formed the outer capsid layer of the virus. The extra polypeptide apparently stabilizes this layer since, unlike BTV, EHDV was quite stable on CsCl gradients at both pH 7,0 and 8,0. EHD virions were found to have a density of 1,36 g/microliter, while particles without the outer capsid layer were isolated and had a density of 1,40 g/microliter. Two non-capsid polypeptides, P5A and P6A, were identified in addition to the 8 capsid polypeptides. Polypeptide P5A was synthesized in excess of all the others. There was little homology between the nucleic acids of EHDV and BTV with only 5-10% cross-hybridization. No hybrid double-stranded RNA segments were identified. We found by cross-immune precipitation that the major core polypeptides of the 2 viruses (P7 and P3) have common antigenic determinants.

Abstract: A polypeptide (p40) of approximately 40,000 molecular weight was isolated from herpes simplex virus type 1 and 2 nucleocapsids by gel filtration and ion exchange chromatography. This protein appears to be the same as protein 22a described previously (Gibson and Roizman, J. Virol. 10:1044--1052, 1972). Competition immunoassays were developed by using purified p40 and antisera prepared in guinea pigs. The assays indicated that the p40's from herpes simplex virus types 1 and 2 possess both type-specific and cross-reactive antigenic determinants. Antibodies to the p40 cross-reactive determinant reacted with antigens in simian herpes virus SA8-infected cells, but not with antigens induced by pseudorabies virus. Preliminary results indicated that a radioimmunoprecipitation test can be used to detect type-specific herpes simplex virus p40 antibodies in human sera.

Abstract: The simian virus 40 virion assembly process was studied with pulse-labeling kinetics of virion proteins, CsCl gradient analysis, electron microscopy, and low-salt gel electrophoresis. The results obtained are consistent with the model of gradual addition and organization of capsid proteins around simian virus 40 chromatin. Empty virions, as observed in the CsCl gradient by previous workers, were found to be the dissociation product of immature virus. Histone H1 was found in simian virus 40 chromatin and virion assembly intermediates but not in the mature virion banding at 1.34 g/ml in the CsCl gradient.

Abstract: Bovine parainfluenza virus type 3 (PIV-3) has a buoyant density of 1.197. The RNA of PIV-3, like that of Sendai virus, is a single continuous chain which lacks polyadenylic acid sequences and tends to self-anneal to a marked extent. It has a sedimentation coefficient of 42S and a molecular weight of 4.5 X 10(6), being slightly smaller than Sendai virus RNA (47S, 5.3 X 10(6)). PIV-3 has 5 main structural proteins, of which 2 are glycoproteins. The molecular weights of protein 1, protein 2, protein 3, glycoprotein 1, and glycoprotein 2 were estimated to be 79,000, 68,000, 35,000, 69,000, and 55,000, respectively. Protein 2 was suggested to be nucleocapsid protein.

Abstract: The three mRNAs that encode the capsid proteins of polyoma virus are produced by the excision of different sequences from continuous transcripts of the L strand of viral DNA. All three of the mRNAs have long half lives, and the larger species are not converted to the smaller ones to any measurable extent within the cytoplasm. Therefore the cytoplasmic proportions of late polyoma mRNAs are predetermined by splicing that is confined to the nucleus of the infected cell and which is complete by the time that mRNA is transported to the cytoplasm.

Abstract: When the coat protein of the small icosahedral virus, brome mosaic virus, reassembles into capsids, the ultrasonic absorption of the solution greatly increases. Submitting the solution to an ultrasonic field thus appears to reveal spontaneous molecular motions within a protein assembly. Confirmatory evidence of a dynamics of a protein shell comes from measurements on brome mosaic virus at various degrees of swelling and on tomato bushy stunt virus treated with the crosslinking agent glutaraldehyde. The detected fluctuations may be related either with cooperative deformational motion in the capsid or with more localized structural changes. Such structural changes may help liberate the RNA at an early stage of viral infection.

Abstract: A cylindrical core previously demonstrated in a bacteriophage T7 procapsid (capsid I) has been further examined by electron microscopy. Fibrous extensions of the core have been observed; these fibers appear to connect the core to the capsid I envelope. After infection of a nonpermissive host with bacteriophage T7 amber mutant in any gene coding for a core protein, the resulting lysates contained more noncapsid assemblies of capsid envelope protein than did wild-type lysates; these assemblies had a mass two to at least 500 times greater than the mass of capsid I. This suggests that the internal core and fibers assist the assembly of subunits in the envelope of capsid I.

Abstract: Simian virus 40 capsid proteins VP-1, VP-2, and VP-3 have been synthesized in wheat germ and reticulocyte cell-free systems in response to either poly(A)-containing mRNA from the cytoplasm of infected cells or viral RNA purified by hybridization to simian virus 40 DNA linked to Sepharose. All three viral polypeptides synthesized in vitro are specifically immunoprecipitated with anti-simian virus 40 capsid serum. VP-2 and VP-3 are related by tryptic peptide mapping to each other but not to VP-1. The most abundant class of L-strand-specific viral mRNA, the 16S species, codes for the major capsid protein. The relatively minor 19S class directs the cell-free synthesis of VP-1, VP-2, and VP-3. Whether the 19S RNA represents more than one distinct species of mRNA is not yet clear. VP-1 mRNA can be isolated from the cytoplasm, detergent-washed nuclei, and the nuclear wash fraction. The mRNA from the nuclear wash fraction is enriched for VP-2 mRNA when compared to other viral or cellular polypeptides.

Abstract: Previous studies in our laboratory have demonstrated that cell-free systems translating the Mahoney strain of poliovirus type I RNA utilize two unique initiation sites. In this study, defective-interfering particles of poliovirus, which contain deletions in the region encoding the capsid proteins, are shown to initiate translation of proteins in vitro at these same two sites. Both the standard virus and the defective-interfering virus RNA direct the synthesis of two polypeptides labeled with n-formyl-methionine (fmet) at their amino termini. The size of the smaller fmet polypeptide synthesized in vitro by the defective virus appears identical in size to that of the standard virus. However, the larger-molecular-weight fmet polypeptide is reduced in size from 115,000 to 69,000 daltons. This correlates exactly with the reduced size of the precursor to the capsid proteins synthesized by the defective virus in vivo and with the size of the deletion in the defective virus RNA (1,200 bases). This provides genetic evidence that the 115,000-dalton fmet polypeptide synthesized into vitro by the standard virus is NCVP1a, the precursor to the coat proteins. Although the identity of the small (5,000 to 10,000 daltons) fmet polypeptide is not clear, several lines of evidence enable us to exclude the possibility that it is VP4, the smallest viral capsid protein.

Abstract: An outer layer surrounding the capsid of infectious bursal disease virus was evident from electron micrographs of intact virus particles having diameters of 62 to 63 nm. The capsid was found to be composed of large morphological units or capsomeres, measuring about 12 nm in diameter. The architecture of the capsid appears to be that of T = 3 symmetry, with a probable 32 morphological units by rotational enhancement of image detail. Structural proteins of infectious bursal disease virus consist of seven species, two major and five minor polypeptides. These are P1 to P7, with molecular weights of 133 x 10(3), 124 x 10(3), 98 x 10(3), 51 x 10(3), 33 x 10(3), 26 x 10(3), and 23 x 10(3), respectively.

Abstract: The protein covalently bound to the 5' termini of adenovirus type 2 DNA has been purified from virus labeled with [35S]methionine, using exclusion chromatography of disrupted virions to isolate the DNA-protein complex, which is then digested with DNase. The terminal protein isolated from mature virus is most effectively labeled if the cells are exposed to [35S]methionine during the "intermediate" period of 13 to 21 h postinfection, suggesting that the protein is synthesized during this interval. The tryptic peptides of the terminal protein were compared with those of several known adenovirus-coded proteins and found to be unrelated. In particular, the terminal protein is not related to the 38-50K early proteins encoded by the leftmost 4.4% of the adenovirus genome, one region essential for the transforming activity of the virus. Neither is it related to the 72K single-strand-specific DNA binding protein, the minor virion component IVa2, or the major capsid component hexon.

Abstract: Although studies of picornavirus proteins and their biosynthesis in vivo have been conducted with approximately equal intensity for both poliovirus and encephalomyocarditis (EMC) virus (l), the majority of in vitro translation studies have been performed using the mouse virus RNA. Beginning in the early 1970’s, several different laboratories reported the synthesis of virus-specific proteins in preincubated cell-free systems derived from Krebs II, Ehrlich or mouse plasmacytoma ascites cells, or from cultured L cells (2–13). In general, a variety of different sized polypeptides, including those with molecular weights over 100,000 daltons, were produced, but, unlike the various viral proteins synthesized in vivo, the in vitro products appear to arise from premature termination of translation rather than from proteolytic cleavage of a complete translate. Complete translation of the entire viral RNA molecule may occur in rare instances (5), but most of the polypeptides synthesized in vitro contain amino acid sequences derived from a common amino terminus, and the majority of the products contain the tryptic (or cyanogen bromide) peptide fragments which are present in the virus capsid proteins. These proteins are known to be encoded by nucleotide sequences within the 5′ half of the viral RNA (l). A diagram of the overlap in amino sequences of the major translation products (I-VI) of EMC virus RNA by a Krebs or Ehrlich ascites cell-free system is shown below. The data are from Hunt (13).

Abstract: Summary Simian rotavirus (SA-11) isolated from infected African green monkey kidney cells was separated into two virus fractions in a CsCl density gradient and their proteins analysed on a continuous phosphate buffered polyacrylamide gel electrophoresis system. One peak (buoyant density 1.37 g/ml) contained double capsid virus particles which were radioimmunoassay (RIA)- and haemagglutinin (HA)-positive and yielded eight polypeptides whose mol. wt. ranged from 48000 to 128000. The second peak (buoyant density 1.39 g/ml) which contained 70% single capsid particles and was RIA-positive but HA-negative, yielded only five polypeptides. The three polypeptides missing in the second peak are associated presumably with the outer capsid of SA-11 virus particles and one or more of these is assumed to be the HA of SA-11 rotavirus.

Abstract: Isolation of the Mengo virus stable non-capsid virus polypeptides E, F, G and I from infected L cells has been achieved. Unstable precursors were eliminated by incubation in the presence of pactamycin and capsid polypeptides were removed by ultracentrifugation and affinity chromatography. Subsequent sodium dodecyl sulphate (SDS)-hydroxylapatite chromatography resolved the non-capsid proteins into two major peaks which comprised F plus G and E plus I, respectively. The individual polypeptide species were separated by gel filtration on Sephadex G-100 in the presence of SDS. Polypeptide E was isolated in an undenatured form by gel filtration of infected cell extracts (from which precursor and capsid polypeptides had been removed) on Bio-Gel A-5m agarose beads. Purified polypeptide E was found to co-sediment with Mengo virion RNA during centrifugation in a sucrose density gradient and it was also capable of binding to poly(A)-Sepharose. Assay mixtures containing polypeptide E exhibited an RNA polymerase activity which was dependent upon exogenous virus RNA template and oligo(U) primer and which was not affected by the addition of virus capsid polypeptides or extracts from uninfected cells.

Abstract: Earlier in this conference (1) we discussed the fact that after infection of host cells by picornaviruses, there is a decrease in the rate of cellular protein synthesis. Whatever the mechanism by which these viruses inhibit cellular synthetic processes, the virus itself is unaffected by it. Within a short time after infection, viral messenger RNA molecules can be detected in polysomes and viral proteins are synthesized.