Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0019158 (
hepatitis
)
30,205
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The 5' most gene of the murine coronavirus genome, gene 1, is presumed to encode the viral RNA-dependent RNA polymerase. cDNA clones representing this gene encompass more than 22 kilobases, suggesting that this region may encode multifunctional polyprotein(s). It has previously been shown that the N-terminal portion of this gene product is cleaved into a protein of 28 kilodaltons (p28). To identify possible functional domains of gene 1 and further understand the mechanism of synthesis of the p28 protein, cDNA clones representing the 5'-most 5.3 kilobases of the murine coronavirus mouse
hepatitis
virus strain JHM were subcloned into pT7 vectors from which RNAs were transcribed and translated in vitro. Although p28 is encoded from the first 1 kilobase at the 5'-end of the genome, translation of in vitro transcribed RNAs indicated that this protein was not detected unless the product of the entire 5.3 kilobase region was synthesized. This result suggests that the region close to 5.3 kilobases from the 5'-end of the genomic RNA is essential for the proteolytic cleavage and may contain an autoproteolytic activity. Addition of the protease inhibitor
ZnCl2
blocked cleavage of the p28 protein. Site-directed mutagenesis of Cys residue 1137 significantly reduced the cleavage of the p28 protein, indicating that this residue, probably in conjunction with a downstream domain, plays an essential role in the cleavage of p28. This Cys residue may be part of a papain-like autoprotease encoded by gene 1.
...
PMID:Murine coronavirus gene 1 polyprotein contains an autoproteolytic activity. 196 14
The 5'-most gene of the murine coronavirus genome, gene A, is presumed to encode viral RNA-dependent RNA polymerase. It has previously been shown that the N-terminal portion of this gene product is cleaved into a protein of 28 kilodaltons (p28). To further understand the mechanism of synthesis of the p28 protein, cDNA clones representing the 5'-most 5.3 kilobases of murine coronavirus mouse
hepatitis
virus strain JHM were sequenced and subcloned into pT7 vectors from which RNAs were transcribed and translated in vitro. The sequence was found to encode a single long open reading frame continuing from near the 5' terminus of the genome. Although p28 is encoded from the first 1 kilobase at the 5' end of the genome, translation of in vitro-transcribed RNAs indicated that this protein was not detected unless the product of the entire 5.3-kilobase region was synthesized. Translation of RNAs of 3.9 kilobases or smaller yielded proteins which contained the p28 sequence, but p28 was not cleaved. This suggests that the sequence in the region between 3.9 and 5.3 kilobases from the 5' end of the genomic RNA is essential for proteolytic cleavage and contains autoproteolytic activity. The p28 protein could not be cleaved from the smaller primary translation products of gene A, even in the presence of the larger autocleaving protein. Cleavage of the p28 protein was inhibited by addition of the protease inhibitor
ZnCl2
. This study thus identified a protein domain essential for autoproteolytic cleavage of the gene A polyprotein.
...
PMID:Identification of a domain required for autoproteolytic cleavage of murine coronavirus gene A polyprotein. 254 93
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
