UMLS:C0019158 - FACTA Search

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Query: UMLS:C0019158 (hepatitis)
30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The structure of the ribonucleoprotein (RNP) complex of three coronaviruses was investigated. A single-stranded helix of diam. 14 to 16 nm and up to 320 nm in length was released from disrupted particles of human coronavirus strain 229E and mouse hepatitis virus strain 3 after incubation in mild conditions. The helical complexes appeared to be composed of globular subunits with long axes of 5 to 7 nm surrounding a hollow core of diam. 3 to 4 nm. The complexes were shown to be sensitive to both pancreatic RNase and to pronase. No undegraded internal component was obtained from disrupted avian infectious bronchitis virus particles. We conclude that these structures are RNP complexes. The similarity between these RNPs and those of other large lipid containing RNA viruses is discussed.
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PMID:Ribonucleoprotein-like structures from coronavirus particles. 20 20

A nonisotopic in situ hybridization (NISH) assay was used to detect hepatitis C virus (HCV) RNA. A synthetic oligonucleotide complementary to bases 252-301 of the highly conserved 5' noncoding region of the HCV genome was end-labeled by terminal deoxynucleotidyltransferase using digoxigenin-conjugated dUTP. The hybridized oligomer was revealed by an immunohistochemical reaction after incubation with an alkaline phosphatase-conjugated anti-digoxigenin antibody and subsequent amplification with a complex of alkaline phosphatase and anti-alkaline phosphatase antibodies. The intracellular distribution of HCV RNA was monitored in the livers of two chimpanzees experimentally infected with the H strain of HCV and compared with the serum alanine aminotransferase activity, serum HCV RNA, and liver histopathology. Most cells were stained in the cytoplasm as early as 2 days after inoculation, 1 and 2 days, respectively, before the appearance of viral RNA in the serum. The time course of HCV RNA replication was correlated with increases in serum alanine aminotransferase. However, neither one paralleled the appearance of liver cell necrosis nor showed any correlation with the inflammatory response. The NISH signal was not found in liver biopsy specimens taken from these two animals before inoculation with HCV, from chimpanzees with acute hepatitis type A, B, or delta, or from two animals never experimentally infected with any hepatitis agent; moreover, it disappeared when the positive specimens were predigested with RNase and it was not observed after hybridization of positive controls with a labeled oligomer unrelated to HCV RNA. Thus, detection of liver HCV RNA by NISH is a sensitive and specific method for studying HCV replication at the cellular level. Intracellular replication of HCV did not appear to be associated with histopathologic changes in the liver, although the correlation with increases of liver enzyme activity in the serum suggested possible damage to the liver cell membrane.
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PMID:Detection of intrahepatic replication of hepatitis C virus RNA by in situ hybridization and comparison with histopathology. 131 16

Recently, an assay system for anti-hepatitis C virus antibody (HCV-Ab) was developed. However, the hepatitis C virus (HCV) itself must be detected. The polymerase chain reaction (PCR) method was used to detect the HCV-RNA genome in the plasma of patients with non-A, non-B (NANB) hepatitis related liver diseases. The PCR method is clinically useful to diagnose the early phase of HCV infection, and to judge the effect of the anti viral therapy (Interferon, etc.). Two primers were used in this study (one based on the NS5 region, another on the 5' non-coding region). Primers based on the 5' non-coding region are superior in the point of sensitivity. The PCR method is useful in diagnosing HCV infection, but special care must be taken, such as avoiding RNase contamination, and keeping the samples in a deep freezer, when using it as a routine laboratory procedure.
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PMID:[Detection of hepatitis C virus genomes using PCR method]. 166 4

Human hepatitis delta virus (HDV) RNA has been shown to contain a self-catalyzed cleavage activity. The sequence requirement for its catalytic activity appears to be different from that of other known ribozymes. In this paper, we define the minimum contiguous sequence and secondary structure of the HDV genomic RNA required for the catalytic activity. By using nested-set deletion mutants, we have determined that the essential sequence for the catalytic activity is contained within no more than 85 nucleotides of HDV RNA. These results are in close agreement with the previous determinations and confirmed the relative insignificance of the sequence at the 5' side of the cleavage site. The smallest catalytic RNA, representing HDV genomic RNA nucleotide positions 683 to 770, was used as the basis for studying the secondary structure requirements for catalytic activity. Analysis of the RNA structure, using RNase V1, nuclease S1 and diethylpyrocarbonate treatments showed that this RNA contains at least two stem-and-loop structures. Other larger HDV RNA subfragments containing the catalytic activity also have a very similar secondary structure. By performing site-specific mutagenesis studies, it was shown that one of the stem-and-loop structures could be deleted to half of its original size without affecting the catalytic activity. In addition, the other stem-and-loop contained a six base-pair helix, and the structure, rather than the sequence, of this helix was required for the catalytic activity. However, the structure of a portion of the stem-and-loop remains uncertain. We also report that this RNA can be divided into two separate molecules, which alone did not have cleavage activity but, when mixed, one of the RNAs could be cleaved in trans. This study thus reveals some features of the secondary structure of the HDV genomic RNA involved in self-catalyzed cleavage. A model of this RNA structure is presented.
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PMID:Sequence and structure of the catalytic RNA of hepatitis delta virus genomic RNA. 173 Oct 72

The two sequences that define the self-cleaving elements from the genomic and antigenomic RNA of hepatitis delta virus were folded into secondary structures with similar features. Evidence in support of the two models was obtained from limited ribonuclease digestion of genomic and antigenomic RNA fragments containing the sequence 3' of the cleavage site. Under conditions where the rates of self-cleavage are enhanced by addition of 5 M urea (2-10 mM Mg2+ at 37 degrees C), ribonucleases T1, U2, A and V1 generated digestion patterns consistent with the proposed RNA structures. The evidence for a relatively stable structure in urea when Mg2+ is present suggests that denaturant-enhanced rates of self-cleavage could result from destabilization of competing inactive structures.
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PMID:Evidence that genomic and antigenomic RNA self-cleaving elements from hepatitis delta virus have similar secondary structures. 192 26

Both genomic and subgenomic replicative intermediates (RIs) and replicative-form (RF) structures were found in 17CL1 mouse cells that had been infected with the A59 strain of mouse hepatitis virus (MHV), a prototypic coronavirus. Seven species of RNase-resistant RF RNAs, whose sizes were consistent with the fact that each was derived from an RI that was engaged in the synthesis of one of the seven MHV positive-strand RNAs, were produced by treatment with RNase A. Because the radiolabeling of the seven RF RNAs was proportional to that of the corresponding seven positive-strand RNAs, the relative rate of synthesis of each of the MHV positive-strand RNAs may be controlled by the relative number of each of the size classes of RIs that are produced. In contrast to alphavirus, which produced its subgenome-length RF RNAs from genome-length RIs, MHV RF RNAs were derived from genome- and subgenome-length RIs. Only the three largest MHV RF RNAs (RFI, RFII, and RFIII) were derived from the RIs that migrated slowest on agarose gels. The four smallest RF RNAs (RFIV, RFV, RFVI, and RFVII) were derived from RIs that migrated in a broad region of the gel that extended from the position of 28S rRNA to the position of the viral single-stranded MHV mRNA-3. Because all seven RIs were labeled during very short pulses with [3H]uridine, we concluded that the subgenome-length RIs are transcriptionally active. These findings, with the recent report of the presence of subgenome-length negative-strand RNAs in cells infected with porcine transmissible gastroenteritis virus (P. B. Sethna, S.-L. Hung, and D. A. Brian, Proc. Natl. Acad. Sci. USA 86: 5626-5630, 1989), strongly suggest that coronaviruses utilize a novel replication strategy that employs the synthesis of subgenomic negative strands to produce subgenomic mRNAs.
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PMID:Coronavirus transcription: subgenomic mouse hepatitis virus replicative intermediates function in RNA synthesis. 215 91

We have developed an in vitro transcription system which can utilize exogenous leader RNA for mouse hepatitis virus (MHV) 'leader-primed' mRNA transcription. Cytoplasmic extracts containing viral proteins and template RNA were prepared by lysolecithin permeabilization of MHV-infected cells. Synthetic leader RNA which differed in sequence from the endogenous leader RNA was added to the extracts and demonstrated to be incorporated into MHV mRNAs. Irrespective of the size of leader RNAs added, the exogenous leader RNA was joined to the endogenous mRNA at the same site, which corresponds to a UCUAA pentanucleotide repeat region. Only leader RNAs containing the pentanucleotide sequences could be utilized for transcription. Mismatches between the intergenic site and the exogenous leader sequence within the pentanucleotide repeat region were corrected in the in vitro system. This in vitro system thus established a novel mechanism of leader-primed transcription using exogenous RNA in trans, and suggests the involvement of a specific ribonuclease activity during coronavirus mRNA synthesis.
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PMID:An in vitro system for the leader-primed transcription of coronavirus mRNAs. 217 58

The hepatitis delta virus can be found in the serum and liver of some hepatitis B virus patients. We now report that the RNA genome of serum-derived delta virus is single-stranded and circular. Livers of infected chimpanzees or woodchucks contained as many as 300,000 copies of genomic strand RNA per average cell, and at least some of this RNA had a circular conformation. Also present in the livers were RNA species complementary to the virion RNA. The genomic RNA was 5-22 times more abundant than this antigenomic strand. Some of the antigenomic RNA was complexed with genomic RNA, as evidenced by the fact that at least 34% of the antigenomic RNA was resistant to digestion with either RNase A in 0.3 M NaCl or S1 nuclease. Some of the antigenomic RNA was in a circular conformation. These and other findings showed that the structure and replication of hepatitis delta virus are in many ways similar to those of the previously described plant viroids, virusoids, and satellite RNAs.
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PMID:Structure and replication of the genome of the hepatitis delta virus. 243 Feb 99

Observations of 416 patients with and 112 convalescents after non-A-non-B virus hepatitis (HnAnB) with fecal-oral mechanism of transmission were carried out in 1984-1986. An enzyme immunoassay (EIA) was developed for the detection of HnAnB antigen in faeces. The rate of this antigen detection varied from 9.1% to 34.6% in different areas. The HnAnB antigen is present in two areas of cesium chloride density gradient: the maximum at 1.39-1.40 g/cm3 and another peak in the zone of 1.18-1.23 g/cm3. The method of radioimmunoprecipitation followed by SDS-polyacrylamide gel analysis showed the presence of several polypeptides of HnAnB virus. Most clearly, protein 30 K was documented, also polypeptides 91-94 K and 48-57 K were demonstrated. The resistance of nucleic acid of HnAnB virus to RNase was tested. The results indicate that the isolated NA is likely to be DNA. The above data suggest that the agent inducing HnAnB belongs to the group of parvoviruses.
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PMID:[Various physico-chemical properties of non-A, non-B hepatitis virus with a fecal-oral route of transmission and specific diagnosis of the illness]. 247 59

The ultrastructural localization of hepatitis delta antigen (HDAg) and ribonucleic acid (RNA) was investigated by immunoperoxidase electron microscopy and by enzyme electron microscopy of RNase-gold complexes on liver biopsies from seven patients with hepatitis D. HDAg was localized mainly in the nucleus and sometimes in the cytoplasm of hepatocytes. Ultrastructurally, intranuclear HDAg was found on nuclear particulate structures measuring 20 to 30 nm in diameter. Intranuclear RNA visualized with gold particles was found in high amounts in the nucleolus, to a small extent in the chromatin area, and also on nuclear particulate structures. These findings suggest that intranuclear aggregates of irregular granular particulate structures in hepatitis D are the internal component of hepatitis delta virus (HDV) particles in blood.
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PMID:Electron microscopy of ribonucleic acid in nuclear particulate aggregates of hepatitis D using nuclease-gold complexes. 266 71

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