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Query: UMLS:C0019158 (
hepatitis
)
30,205
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The RNA of mouse
hepatitis
virus, a coronavirus, was isolated from the virus released early in the infection and analyzed by sucrose gradient sedimentation and electrophoresis. It was found to consist of a piece of single-stranded RNA of about
60S
. Its molecular weight was estimated to be 5.4 X 10(6) by electrophoresis in methylmercury-agarose gels. At least one third of the RNA contained polyadenylated sequences. It is, therefore, probably positive stranded. The virus harvested late in the infection contained, in addition to
60S
, some 30 to 50S RNA that are possibly degradation products of the
60S
RNA. No difference in the electrophoretic behavior could be detected between the RNA isolated from a pathogenic (JHM) and a nonpathogenic (A59) strain.
...
PMID:RNA of mouse hepatitis virus. 20 85
The temporal sequence of coronavirus plus-strand and minus-strand RNA synthesis was determined in 17CL1 cells infected with the A59 strain of mouse
hepatitis
virus (MHV). MHV-induced fusion was prevented by keeping the pH of the medium below pH 6.8. This had no effect on the MHV replication cycle, but gave 5- to 10-fold-greater titers of infectious virus and delayed the detachment of cells from the monolayer which permitted viral RNA synthesis to be studied conveniently until at least 10 h postinfection. Seven species of poly(A)-containing viral RNAs were synthesized at early and late times after infection, in nonequal but constant ratios. MHV minus-strand RNA synthesis was first detected at about 3 h after infection and was found exclusively in the viral replicative intermediates and was not detected in
60S
single-stranded form in infected cells. Early in the replication cycle, from 45 to 65% of the [3H]uridine pulse-labeled RF core of purified MHV replicative intermediates was in minus-strand RNA. The rate of minus-strand synthesis peaked at 5 to 6 h postinfection and then declined to about 20% of the maximum rate. The addition of cycloheximide before 3 h postinfection prevented viral RNA synthesis, whereas the addition of cycloheximide after viral RNA synthesis had begun resulted in the inhibition of viral RNA synthesis. The synthesis of both genome and subgenomic mRNAs and of viral minus strands required continued protein synthesis, and minus-strand RNA synthesis was three- to fourfold more sensitive to inhibition by cycloheximide than was plus-strand synthesis.
...
PMID:Coronavirus minus-strand RNA synthesis and effect of cycloheximide on coronavirus RNA synthesis. 286 30
The first event after infection with mouse
hepatitis
virus strain A59 (MHV-A59) is presumed to be the synthesis of an RNA-dependent RNA polymerase from the input genomic RNA. The synthesis and processing of this putative polymerase protein was studied in a cell-free translation system utilizing
60S
RNA from MHV-A59 virions. The polypeptide products of this reaction included two major species of 220 and 28 kilodaltons. Kinetics experiments indicated that both p220 and p28 appeared after 60 min of incubation and that protein p28 was synthesized initially as the N-terminal portion of a larger precursor protein. When the cell-free translation products were labeled with N-formyl[35S]methionyl-tRNAi, p28 was the predominant radioactive product, confirming its N-terminal location within a precursor protein. Translation in the presence of the protease inhibitors leupeptin and ZnCl2 resulted in the disappearance of p28 and p220 and the appearance of a new protein, p250. This product, which approached the maximal size predicted for a protein synthesized from genomic RNA, was not routinely detected in the absence of inhibitors even under conditions which optimized the translation reaction for elongation of proteins. Subsequent chelation of ZnCl2 resulted in the partial cleavage of the precursor protein and the reappearance of p28. One-dimensional peptide mapping with Staphylococcus aureus V-8 protease confirmed the precursor-product relationship of p250 and p28. The results show that MHV virion RNA, like many other viral RNAs, is translated into a large polyprotein, which is cleaved soon after synthesis into smaller, presumably functional proteins. This is in marked contrast to the synthesis of other MHV proteins, in which minimal proteolytic processing occurs.
...
PMID:Translation and processing of mouse hepatitis virus virion RNA in a cell-free system. 301 79
The RNA genomes of various murine
hepatitis
virus (MHV) strains were studied by T1-oligonucleotide fingerprinting analysis with regard to their structure and sequence relationship. It was found that the MHV particles contained only positive-stranded
60S
RNA which had a "cap" structure at its 5' end. No negative-stranded RNA was found. It was also shown that most of the MHV strains had diverged quite extensively in their genetic sequences. However, MHV-3, a hepatotropic strain, and A59, a nonpathogenic strain, were found to have very similar oligonucleotide fingerprinting patterns. Yet, each of them contained two to four specific oligonucleotides. The MHV-3-specific oligonucleotides were conserved in almost all of the hepatotropic MHV strains studied. In contrast, two of the A59-specific oligonucleotides were absent from the genomes of all hepatotropic strains. These findings suggest that these unique oligonucleotides might be localized at the genetic region(s) associated with viral pathogenicity or other biological properties of the virus. Comparison of viral structural proteins also suggests that MHV-3 and A59 are more closely related than other MHV strains. The significance of these findings is discussed.
...
PMID:Comparative analysis of RNA genomes of mouse hepatitis viruses. 616 37
The composition and structure of the mouse
hepatitis
virus (MHV)-specific RNA in actinomycin D-treated, infected L-2 cells were studied. SEven virus-specific RNA species with molecular weights of 0.6 X 10(6), 0.9 X 10(6), 1.2 X 10(6), 1.5 X 10(6), 3.0 X 10(6), 4.0 X 10(6), and 5.4 X 10(6) (equivalent to the viral genome) were detected. T1 oligonucleotide fingerprinting studies suggested that the sequences of each RNA species were totally included within the next large RNa species. The oligonucleotides of each RNA species were mapped on the
60S
RNA genome of the virus. Each RNA species contained the oligonucleotides starting from the 3' end of the genome and extending continuously for various lengths in the 3' leads to 5' direction. All of the viral RNA species contained a polyadenylate stretch of 100 to 130 nucleotides and probably identical sequences immediately next to the polyadenylate. These data suggested that the virus-specific RNAs are mRNA's and have a stairlike structure similar to that of infectious bronchitis virus, an avian coronavirus. A proposal is presented, based on the mRNA structure, for the designation of the genes on the MHV genome. Using this proposal, the sequence differences between A59, a weakly pathogenic strain, and MHV-3, a strongly hepatotropic strain, were localized primarily in mRNA's 1 and 3, corresponding t genes A and C.
...
PMID:Mouse hepatitis virus A59: mRNA structure and genetic localization of the sequence divergence from hepatotropic strain MHV-3. 616 42
There are seven virus-specific mRNA species in mouse
hepatitis
virus-infected cells (Lai et al., J. Virol. 39:823-834, 1981). In this study, we examined virus-specific negative-stranded RNA to determine whether there are corresponding multiple negative-stranded RNAs. Intracellular RNA from mouse
hepatitis
virus-infected cells was separated by agarose gel electrophoresis, transferred to nitrocellulose membranes, and hybridized to positive-stranded genomic
60S
[32P]RNA. Only a single RNA species of genomic size was detected under these conditions. This RNA was negative stranded. No negative-stranded subgenomic RNA was detected. We also studied double-stranded replicative-form RNA in the infected cells. Only one replicative-form of genomic size was detected. When the double-stranded RNA isolated without RNase treatment was analyzed, again only one RNA species of genomic size was detectable. Furthermore, most of the virus-specific mRNAs could be released from this RNA species upon heating. These results suggest that all of the mouse
hepatitis
virus-specific RNAs are transcribed from a single species of negative-stranded RNA template of genomic size.
...
PMID:Replication of mouse hepatitis virus: negative-stranded RNA and replicative form RNA are of genome length. 629 13
The 5' untranslated regions (UTRs) of the RNA genomes of Flaviviridae of the Hepacivirus and Pestivirus genera contain internal ribosomal entry sites (IRESs) that are unrelated to the two principal classes of IRESs of Picornaviridae. The mechanism of translation initiation on hepacivirus/pestivirus (HP) IRESs, which involves factor-independent binding to ribosomal
40S
subunits, also differs fundamentally from initiation on these picornavirus IRESs. Ribosomal binding to HP IRESs requires conserved sequences that form a pseudoknot and the adjacent IIId and IIIe domains; analogous elements do not occur in the two principal groups of picornavirus IRESs. Here, comparative sequence analysis was used to identify a subset of picornaviruses from multiple genera that contain 5' UTR sequences with significant similarities to HP IRESs. They are avian encephalomyelitis virus, duck
hepatitis
virus 1, duck picornavirus, porcine teschovirus, porcine enterovirus 8, Seneca Valley virus, and simian picornavirus. Their 5' UTRs are predicted to form several structures, in some of which the peripheral elements differ from the corresponding HP IRES elements but in which the core pseudoknot, domain IIId, and domain IIIe elements are all closely related. These findings suggest that HP-like IRESs have been exchanged between unrelated virus families by recombination and support the hypothesis that RNA viruses consist of modular coding and noncoding elements that can exchange and evolve independently.
...
PMID:A distinct group of hepacivirus/pestivirus-like internal ribosomal entry sites in members of diverse picornavirus genera: evidence for modular exchange of functional noncoding RNA elements by recombination. 1739 58
Many viral mRNAs contain a 5'-UTR RNA element called internal ribosome-entry site (IRES), which bypasses the requirement of some canonical initiation factors allowing cap-independent translation. The IRES of
hepatitis
-C virus drives translation by directly recruiting
40S
ribosomal subunits and binds to eIF3 which plays a critical role in both cap-dependent and cap-independent translation. However, the molecular basis for eIF3 activity in either case remains enigmatic. Here we report that subunit b of the eIF3 complex directly binds to HCV IRES domain III via its N-terminal-RRM. Because eIF3b was previously shown to be involved in eIF3j binding, biological implications are discussed.
...
PMID:Human initiation factor eIF3 subunit b interacts with HCV IRES RNA through its N-terminal RNA recognition motif. 1905 1
