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The structural proteins of an arenavirus pathogen, Machupo virus, were compared to the structural proteins of two previously characterized non-pathogenic arenaviruses, Pichinde and Tacaribe, in SDS-polyacrylamide gels. Similarities in mol. wt. of the major structural proteins from both pathogenic and non-pathogenic viruses were apparent; however, some differences in the number of glycosylation properties of minor proteins were observed. Machupo virions contain two major protein species. The most prominent is a non-glycosylated protein with a mol. wt. of 68000, while the other was glycosylated protein with a mol. wt. of 41000. Minor amounts of other proteins (mol. wt. 84000, 74000, 50000 and 15000) and a glycolipid were also observed.
J Gen Virol 1978 Oct
PMID:Structural polypeptides of Machupo virus. 21 18

Murine cytomegalovirus (MCMV)-induced protein synthesis in mouse embryo fibroblast (MEF) cells was studied using polyacrylamide gradient SDS gel electrophoresis and autoradiography. Synthesis of at least 14 virus induced proteins (VIPs) was consistently detected in a lytic cycle. They were designated VIPs 132, 118, 99, 98, 88, 81, 76, 74, 58, 56, 51, 38, 36 and 33 on the basis of their mol. wt. Judging from the pattern of the rate of protein synthesis, VIPs can be classified into three groups: group A VIPs were synthesized actively for a brief period of time and then their synthesis was no longer detectable. This group included two major VIPs, 98 and 88 and three minor VIPs, 58, 56 and 38. Group B VIPs 81, 74, 36 and 33 were similar to group A except that, following a brief period of active synthesis, a low level of synthesis continued during the entire lytic cycle. Group C VIPs 132, 118, 99, 76 and 51 were synthesized at low steady levels at all times after initiation and seemed to accumulate slowly. According to temporal sequences of initiation of VIP synthesis, these proteins can also be divided into three groups: immediate early, early and late VIPs. The synthesis of the immediate early VIPs 132, 98, 88, 81, 76, 74 and 38 was initiated immediately after virus infection. The early VIPs included 58, 56, 51, 36 and 33 and their synthesis was initiated from 1 to 3 h post-infection. VIPs 118, 99 and several minor VIPs were first synthesized during 12 to 13 h post-infection which corresponded to the time of initiation of virus DNA synthesis and they are classified as late VIPs. Cycloheximide reversal experiments indicated that the initiation of synthesis of early VIPs must be preceded by the synthesis of immediate early VIPs. In the presence of actinomycin D, the immediate early VIPs (0 to 1 h post-infection) were not synthesized indicating that immediate early VIPs are translated from virus mRNA synthesized after virus infection.
J Gen Virol 1979 Jan
PMID:Murine cytomegalovirus-induced protein synthesis. 21 7

The structural polypeptides of egg grown mumps virus were analysed by SDS-polyacrylamide-slab-gel electrophoresis. Mumps virions contained eight major polypeptides with mol. wt. of 75, 73, 71, 61, 47, 44, 42 and 40 X 10(3). The 75 K and 61 K polypeptides were glycosylated. In virions treated with pronase and trypsin, the 75 K glycoprotein was removed more readily from the virus than the 61 K glycoprotein. The gradual removal of the 75 K glycoprotein was paralleled by a decrease of haemagglutinating activity. The large glycoprotein was cleaved into a 40 K glycoprotein by trypsin treatment. Pronase and trypsin treatment also removed the smallest 40 K non-glycosylated polypeptide. Thus this polypeptide appears to be located on the outside of the virion and probably represents a cleavage product of the large glycoprotein. Treatment of virions with 2% Triton-X 100 under alkaline conditions in the absence or presence of 2 M-KCl solubilized the two glycoproteins and a fraction of the 71 and 44 K polypeptides, but not the 73 and 47 K polypeptides. The two smallest polypeptides were solubilized by treatment with 2% Triton X-100 in the presence of 2 M-KCl. Since the 40 K polypeptide was interpreted to represent a cleavage product of the large surface glycoprotein the 42 K polypeptide was proposed to represent the membrane protein of mumps virus. The 44 K polypeptide co-migrated with Vero cell actin. The nature of the 47 K polypeptide could not be determined, but it is probably located in the central part of the virus. The 73 K polypeptide and in some experiments also the 71 K polypeptide were found in purified nucleocapsid preparations. It is concluded that mumps virus has a general polypeptide composition similar to other paramyxoviruses. However, the molecular weights of the different polypeptides of mumps virus differ markedly from the corresponding polypeptides in Newcastle disease virus and Sendai virus.
J Gen Virol 1978 Dec
PMID:Structural polypeptides of mumps virus. 21 49

Radioimmune precipitation, SDS-polyacrylamide slab gel electrophoresis and fluorography were used to investigate the SV40 large-T and U antigenic sites on species of proteins synthesized during wild type and tsA58 mutant infections in TC7 monkey cells. Wild type infection at 33 and 41.5 degrees C and the A58 infection at 33 degrees C produced similar profiles of three species ranging in mol. wt. from 84000 to 94000, all of which had both the large-T and U antigenic sites. The A58 infection at 41.5 degrees C, however, produced an additional four discrete species ranging in mol. wt. from 60000 to 74000 that contained the large-T site(s), but not the U site(s). A subpopulation of the 74000 mol. wt. species contained both sites. Therefore, the region of the A58 mutant 94000 mol. wt. species containing the U antigenic site(s), the COOH-terminal region, appears to be more sensitive to processing, probably proteolytic cleavage, than does the region containing the large-T antigenic site(s).
J Gen Virol 1979 Feb
PMID:Differentiation between SV40 large-T and U antigenic sites. 21 64

Strains of foot-and-mouth disease virus of types O1 and A10 were isolated which showed no significant loss of infectivity upon trypsinization. These 'trypsin-resistant' (TR) viruses were obtained by serial passage in BHK cells of virus that was trypsin-treated before inoculation of the cells. Three O1 isolates were cloned and studied further. Cell attachment of those TR O1 variants (OTR1) was not reduced by trypsinization, unlike that of parent virus. The polypeptide compositions of TR viruses as determined by SDS-polyacrylamide gel electrophoresis were identical with those of parent virus, with the exception of OTR1 which contained an additional polypeptide approx, 3000 daltons larger than VP1. After trypsinization, which normally cleaves VP1, the polypeptide composition of the three TR viruses (including OTR1) and of parent virus did not show any significant difference. In OTR1 both the additional virus protein and VP1 were cleaved into a P18 molecule and smaller fragments. The surface location of this additional polypeptide was confirmed by iodination experiments. It was shown by immunodiffusion experiments that only OTR1 differed from the parent virus. This antigenic change was present on the trypsin-sensitive part of the virus since trypsinized TR viruses (including OTR1) were antigenically identical to trypsinized parent virus. The electrophoretic mobilities of the three OTR viruses isolated, and of parent virus, differed somewhat before trypsinization. After trypsin-treatment, the mobilities of TR viruses were all increased to the same level; however, their rate of migration was lower than that of trypsin-treated parent virus. This lower mobility of trypsin-treated OTR viruses was the only difference which could be associated with retained infectivity.
J Gen Virol 1979 May
PMID:Isolation and characterization of trypsin-resistant O1 variants of foot-and-mouth disease virus. 22 25

Rotavirus infected monkey kidney cells (LLC-MK2) have been labelled with 35S-methionine in the presence of actinomycin D. The cells have been lysed with SDS and the polypeptides separated by discontinuous polyacrylamide gel electrophoresis. Rotavirus polypeptides began to appear 4 to 5 h p.i.; incorporation was maximum at 8 h, but all the polypeptides were still being made 15 to 18 h p.i. Tissue culture adapted calf rotavirus particles were labelled with 35S-methionine and the polypeptides compared with cell associated rotavirus polypeptides. There were four inner coat, four outer coat and three non-structural polypeptides. Several of the outer coat polypeptides have altered mol. wt. on maturation. The polypeptides of rotavirus from seven species (human, pig, calf, lamb, mouse, foal and rabbit) have been compared and their mol. wt. calculated. The polypeptides fell into the same relative groupings for each virus, but there were variations in the mol. wt. of most comparable polypeptides. The polypeptides of tissue culture adapted and non-adapted calf rotavirus from the same original isolate varied only in one of the non-structural polypeptides.
J Gen Virol 1979 Jul
PMID:Rotavirus polypeptides. 22 89

The ability of herpes simplex virus 1 to replicate in cells transformed by adenovirus type 5 is strongly dependent on the origin of the cells. Studies show that adenovirus transformed rat cells lose their permissiveness while cells of hamster or human origin retain their ability to replicate HSV although at a reduced level when compared to the untransformed parent cells. One line of adenovirus transformed rat cells, 107, demonstrates thermosensitive events, allowing HSV to replicate at 34 degrees C but not at 37 degrees C. Analysis of the biochemical events taking place at 37 degrees C showed that virus-specific DNA synthesis was greatly reduced but that all of the late virus structural proteins could be observed after SDS-polyacrylamide gel electrophoresis. It was also demonstrated that shut-off of host macromolecular synthesis appeared to be less efficient after HSV infection of 107 cells than after infection of more permissive cells such as the non-transformed REF line. Collectively the data show that interactions between HSV and the host cell are perturbed when the cell is transformed by type 5 adenovirus. The degree of perturbation ranges from a slight reduction in number of progeny to a completely abortive infection.
J Gen Virol 1979 Aug
PMID:Modulation of herpes simplex virus replication in adenovirus transformed cells. 23 Feb 84

Poliovirus capsid proteins comprise 15.1 lysines in VP1, 5.6 lysines in VP2, 11.7 lysines in VP3 and 5.5 lysines in VP4. Treatment with monofunctional reagent N-succinimidyl 2,3-3H-proprionate leads to the modification of 3.4 lysines in VP1, 0.6 lysines in VP2, 2.0 lysines in VP3 and 0.03 lysines in VP4. Chemical modification with the monofunctional reagent N-succinimidyl 3-(4-hydroxy,5-125I-iodophenyl)propionate results in a predominant labelling of VP1 and VP3, whereas VP2 is less accessible and VP4 is not modified. Cross-linking of poliovirus with bifunctional imidoesters, dimethyl suberimidate (DMS, 1.1 nm) and dimethyl adipimidate (DMA, 0.8 nm) leads to a new protein complex of mol. wt. which corresponds to the sum of VP1 and VP3. By cleavage with ammonia and electrophoresis on polyacrylamide gels in SDS, the proteins are identified as VP1 and VP3. This result gives evidence for a direct neighbourhood of VP1 and VP3 in the virus capsid. Treatment of the virus with the mono- and bifunctional reagents has no influence on the stability of the particle. The infectivity is reduced only by the bifunctional reagent.
J Gen Virol 1979 Aug
PMID:Topographical studies on poliovirus capsid proteins by chemical modification and cross-linking with bifunctional reagents. 23 Feb 94

An immunoprecipitation method coupled with SDS-polyacrylamide gel electrophoresis (SDS-PAGE) was used to identify the serologically cross-reactive polypeptides in Orthopoxvirus (vaccinia and cowpox viruses) and Leporipoxvirus (Shope fibroma virus). Two early and four late polypeptides in cells infected with vaccinia or cowpox virus were specifically immunoprecipitated with antiserum against Shope fibroma virus. Two early and two late polypeptides in cells infected with Shope fibroma virus cross-reacted with both antiserum against vaccinia virus and antiserum against cowpox virus. The possibility of the common polypeptides being related to nucleoprotein antigen in these cross-reactive polypeptides was discussed.
J Gen Virol 1979 Aug
PMID:Serologically cross-reactive polypeptides in vaccinia, cowpox and Shope fibroma viruses. 23 Feb 96

A comparative study of in vitro and in vivo phosphorylation of murine mammary tumour virus, a type Brna virus, is reported. The protein kinase activity associated with murine mammary tumour virus catalysed the in vitro phosphorylation of endogenous virus polypeptides. This kinase activity required a divalent metal cation, a non-ionic detergent, and was stimulated in the presence of dithiothreitol. Exogenous cyclic AMP was not required. The 32P-labelled products of the in vitro reaction were completely sensitive to pronase digestion and the phosphate was attached mainly by phosphomonoester linkage to serine residues. As determined by SDS-polyacrylamide gel electrophoresis, heterogeneous labelling of major and minor virus polypeptides was observed under in vitro conditions. In contrast, the in vivo labelling of type B virus produced by a continuous cell line (MuMT-73), established from pooled mammary adenocarcinomas of Balb/cfC3H mice, demonstrated specific phosphoproteins associated with murine mammary tumour virus. The major phosphorylated proteins were found to have mol. wt. of 18 000 and 12 000 (p18 and p12) after isolation by molecular sieving chromatography and analysis by gel electrophoresis.
J Gen Virol 1979 Sep
PMID:In vivo and in vitro phosphorylation of murine mammary tumour virus proteins. 23 Oct 88

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