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:C0017160 (
gastroenteritis
)
11,398
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Thirty-two hybridoma cell lines producing monoclonal antibodies (MAbs) against the three major structural proteins of transmissible
gastroenteritis
virus (TGEV) have been isolated. Radioimmunoprecipitation of intracellular viral polypeptides showed that 17 hybridomas recognized both the peplomer protein [E2, 220 X 10(3) mol. wt. (220K)] and a lower mol. wt. species (E'2, 175K), which was characterized as a precursor of E2. Six MAbs selectively immunoprecipitated the E'2 protein. Four hybridomas were directed against the low mol. wt.
envelope protein
(E1, 29K), and three against the nucleoprotein (N, 47K). All major neutralization-mediating determinants were found to be carried by the peplomers. Several anti-E2 MAbs displayed an intrinsic neutralizing activity close to that of the most potent anti-TGEV polyclonal reagents tested (including ascitic fluid of feline infectious peritonitis virus-infected cats). None of the anti-E'2 MAbs induced significant neutralization, although this protein might be incorporated to some extent into the virions. Immunofluorescence patterns obtained with MAbs directed against either the envelope glycoproteins or the nucleocapsid revealed distinctly different distributions of these antigens within the cells. Comparison of nine TGEV strains using our panel of MAbs confirmed their close antigenic relationship, but revealed the occurrence of distinct antigenic differences.
...
PMID:Antigenic structure of transmissible gastroenteritis virus. I. Properties of monoclonal antibodies directed against virion proteins. 241 48
The antigenic relationship between a recently isolated porcine respiratory coronavirus (TLM 83) and transmissible
gastroenteritis
(TGE) virus of swine was studied by neutralization, immunoblotting and radioimmunoassay (RIA) using TGE virus-specific monoclonal antibodies (MAbs) and polyclonal antibodies specific for both viruses. A complete two-way neutralization activity between the two viruses was found. Immunoblotting revealed cross-reactions between TLM 83 and TGE virus antigens at the level of the
envelope protein
(E1), the nucleoprotein (N) and the peplomer protein (E2). By virus neutralization assays and RIA with TGE virus-specific MAbs, the presence of similar epitopes in the E1 and N proteins and in the neutralization-mediating antigenic site of the E2 protein were demonstrated. E2 protein-specific MAbs, without neutralizing activity and reacting with antigenic sites B, C and D (previously defined), failed to recognize TLM 83. These results indicated a close antigenic relationship and structural similarity between TLM 83 and TGE viruses and also suggested potential ways of differentiating between the two viruses.
...
PMID:Antigenic differentiation between transmissible gastroenteritis virus of swine and a related porcine respiratory coronavirus. 283 5
Transmissible
gastroenteritis
virus of swine (TGEV), feline infectious peritonitis virus (FIPV), and canine coronavirus were studied with respect to their serological cross-reactivity in homologous and heterologous virus neutralization, immune precipitation of radiolabeled TGEV, electroblotting, and enzyme-linked immunosorbent assay using individual virion polypeptides prepared by polyacrylamide gel electrophoresis. TGEV was neutralized by feline anti-FIPV serum, and the reaction was potentiated by complement; heterologous neutralization involved antibody reacting with the peplomer protein (P), the
envelope protein
(E), and cellular (glycolipid) components incorporated into the TGEV membrane. Electrophoretic analysis of immune precipitates containing [35S]methionine-labeled disrupted TGEV and feline anti-FIPV antibody confirmed the reaction with the P and E polypeptides and showed the nucleocapsid protein (N) in addition. Electroblotting, followed by incubation with antibody, 125I-labeled protein A, and fluorography, disclosed cross-reactions between the three viruses at the N and E levels and revealed differences in the apparent molecular weights of the latter. Enzyme immunoassays performed with standard amounts of immobilized P, N, and E polypeptides of the three viruses showed recognition of the antigens by homologous and heterologous antibody to comparable degrees. These results indicate a close antigenic relationship between TGEV, FIPV, and canine coronavirus due to common determinants on the three major virion proteins. The taxonomic implications of these findings are discussed.
...
PMID:Antigenic relationships among homologous structural polypeptides of porcine, feline, and canine coronaviruses. 618 1
The transmissible
gastroenteritis
virus (TGEV) is a coronavirus which induces a strong interferon-alpha (IFN-alpha) production in vivo and in vitro. Previous studies have shown that the TGEV external protein M plays a major role in IFN-alpha induction by a non-infectious virus, whereas protein S is not involved. The present study extended these results by showing that monoclonal antibodies (MAbs) directed at the external viral protein sM could not block IFN-alpha induction, which argues against a direct role for this protein. In the same type of blocking experiment, MAbs to the TGEV receptor aminopeptidase N did not inhibit IFN-alpha induction, which strongly indicates that viral replication or entry through the receptor is not needed for TGEV induction of IFN-alpha in leukocytes. In an attempt to isolate functional envelope proteins, TGEV virions were detergent-solubilized and reconstituted in virosomes. Although BIAcore antigenic analysis revealed that the three external viral proteins were present on the virosomes, these proteins were unable to induce IFN-alpha in porcine leukocytes, and seemed to compete with the native virus for IFN-alpha induction. These data indicated that IFN-alpha inducing interactions between TGEV external proteins and leukocytes required a complex native
envelope protein
structure which has been lost in the virosomes.
...
PMID:Reconstituted coronavirus TGEV virosomes lose the virus ability to induce porcine interferon-alpha production. 917 43
The transmissible
gastroenteritis
virus (TGEV) is a coronavirus which induces a strong interferon-alpha (IFN-alpha) production in vivo and in vitro. Previous studies have shown that the TGEV external protein M plays a major role in IFN-alpha induction by a non-infectious virus, whereas protein S is not involved. The present study extended these results by showing that monoclonal antibodies (MAbs) directed at the external viral protein sM could not block IFN-alpha induction, which argues against a direct role for this protein. In the same type of blocking experiment, MAbs to the TGEV receptor aminopeptidase N did not inhibit IFN-alpha induction, which strongly indicates that viral replication or entry through the receptor is not needed for TGEV induction of IFN-alpha in leukocytes. In an attempt to isolate functional envelope proteins, TGEV virions were detergent-solubilized and reconstituted in virosomes. Although BIAcore antigenic analysis revealed that the three external viral proteins were present on the virosomes, these proteins were unable to induce IFN-alpha in porcine leukocytes, and seemed to compete with the native virus for IFN-alpha induction. These data indicated that IFN-alpha inducing interactions between TGEV external proteins and leukocytes required a complex native
envelope protein
structure which has been lost in the virosomes.
...
PMID:Reconstituted coronavirus TGEV virosomes lose the virus ability to induce porcine interferon-alpha production. 911 32
The small
envelope protein
(E) plays a role of central importance in the assembly of coronaviruses. This was initially established by studies demonstrating that cellular expression of only E protein and the membrane protein (M) was necessary and sufficient for the generation and release of virus-like particles. To investigate the role of E protein in the whole virus, we previously generated E gene mutants of mouse hepatitis virus (MHV) that were defective in viral growth and produced aberrantly assembled virions. Surprisingly, however, we were also able to isolate a viable MHV mutant (DeltaE) in which the entire E gene, as well as the nonessential upstream genes 4 and 5a, were deleted. We have now constructed an E knockout mutant that confirms that the highly defective phenotype of the DeltaE mutant is due to loss of the E gene. Additionally, we have created substitution mutants in which the MHV E gene was replaced by heterologous E genes from viruses spanning all three groups of the coronavirus family. Group 2 and 3 E proteins were readily exchangeable for that of MHV. However, the E protein of a group 1 coronavirus, transmissible
gastroenteritis
virus, became functional in MHV only after acquisition of particular mutations. Our results show that proteins encompassing a remarkably diverse range of primary amino acid sequences can provide E protein function in MHV. These findings suggest that E protein facilitates viral assembly in a manner that does not require E protein to make sequence-specific contacts with M protein.
...
PMID:Exceptional flexibility in the sequence requirements for coronavirus small envelope protein function. 1718 90
Coronaviruses are enveloped viruses containing the largest reported RNA genomes. As a result of their pleomorphic nature, our structural insight into the coronavirion is still rudimentary, and it is based mainly on 2D electron microscopy. Here we report the 3D virion structure of coronaviruses obtained by cryo-electron tomography. Our study focused primarily on the coronavirus prototype murine hepatitis virus (MHV). MHV particles have a distinctly spherical shape and a relatively homogenous size ( approximately 85 nm envelope diameter). The viral envelope exhibits an unusual thickness (7.8 +/- 0.7 nm), almost twice that of a typical biological membrane. Focal pairs revealed the existence of an extra internal layer, most likely formed by the C-terminal domains of the major
envelope protein
M. In the interior of the particles, coiled structures and tubular shapes are observed, consistent with a helical nucleocapsid model. Our reconstructions provide no evidence of a shelled core. Instead, the ribonucleoprotein seems to be extensively folded onto itself, assuming a compact structure that tends to closely follow the envelope at a distance of approximately 4 nm. Focal contact points and thread-like densities connecting the envelope and the ribonucleoprotein are revealed in the tomograms. Transmissible
gastroenteritis
coronavirion tomograms confirm all the general features and global architecture observed for MHV. We propose a general model for the structure of the coronavirion in which our own and published observations are combined.
...
PMID:Cryo-electron tomography of mouse hepatitis virus: Insights into the structure of the coronavirion. 1912 77
