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

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Query: UMLS:C0149514 (bronchitis)
6,902 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have identified the binding site of monoclonal antibodies (MAbs) against the S2 subunit of the bovine coronavirus spike (S) glycoprotein. The location of this site was first investigated by using prokaryotic expression of DNA restriction fragments covering the entire S gene. The amino acid sequence containing the antibody binding site was shortened from 70 to 20 amino acids by digestion of plasmid DNA with exonuclease III, followed by sequencing of the smallest digestion product encoding an immunoreactive fusion protein. Finally we synthesized a set of nonapeptides covering the 20 amino acid sequence extending from the N-terminal residue of the S2 subunit (Ala 769 to Tyr 798). MAbs reacted mainly with six consecutive overlapping peptides with the sequence TTGYRFTNFEPFTV. Polyclonal antibodies from hyperimmunized or convalescent animals reacted only with the recombinant proteins identified by MAbs, and the hyperimmune serum bound to the same set of peptides. This suggests that this highly conserved linear antigenic determinant corresponds to an immunodominant region. This region resembles both in location and immunodominance the linear determinant defined on the infectious bronchitis virus S2 subunit. The presence of similar regions in the N-terminal region of the S2 subunit of other coronaviruses is discussed.
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PMID:Bovine coronavirus spike glycoprotein: localization of an immunodominant region at the amino-terminal end of S2. 128 70

The lysosomotropic agent NH4Cl caused a reduction of 80-95% in the number of chick kidney (CK) cells and Vero cells infected by infectious bronchitis virus (IBV) strain Beaudette, as determined by immunofluorescence at the end of the first replication cycle. Inhibition only occurred when NH4Cl was present during the first 2 h after infection. Syncytium formation was studied during replication of IBV-Beaudette in Vero cells. Some cell-cell fusion occurred at pH 7.0 and pH 6.5 but it was optimal at pH 6.7. IBV strain UK/123/82 did not replicate in Vero cells and was studied in CK cells in which it grew well but without forming syncytia. In contrast to IBV-Beaudette, NH4Cl had virtually no effect on the replication of UK/123/82. The results show that the IBV spike glycoprotein induces membrane fusion at near neutral pH although some IBV strains may require a mildly acidic environment for the efficient uncoating of the virion RNA.
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PMID:Coronavirus IBV-induced membrane fusion occurs at near-neutral pH. 130 94

Ten monoclonal antibodies (MAbs) directed against three structural proteins of infectious bronchitis viruses (IBV), the peplomer (S), membrane (M) and nucleocapsid (N) proteins, were characterized and used to determine the antigenic relationship between Australian IBV strains. One MAb (MAb 5) was directed against an epitope on the S1 subunit of the peplomer, another (MAb 2) against an epitope on the M glycoprotein and eight MAbs (MAbs 1, 7, 9, 16, 24, 26, 27 and 51) were directed against seven non-overlapping epitopes on the N protein. None of the MAbs neutralized infectivity or inhibited haemagglutination of the virus. Conservation of the nine epitopes detected by these MAbs was determined in 13 serotypes of Australian IBV strains. Only epitope 5 on the S1 subunit of the peplomer was conserved in all strains. Epitope 2 on the M protein showed a high degree of conservation although this epitope was absent from four strains. None of the eight epitopes on the N proteins was conserved in all IBV strains but four epitopes (1, 16, 24 and 27) showed a high degree of conservation. Epitope 9 on the N protein was present only in IBV strains of one serotype whereas epitope 7 on the N protein distinguished vaccine viruses of serotype B from other IBV strains. The presence or absence of nine epitopes on three structural proteins differentiated IBV strains into five antigenic groups.
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PMID:Monoclonal antibodies to three structural proteins of avian infectious bronchitis virus: characterization of epitopes and antigenic differentiation of Australian strains. 172 1

Mice were immunized with purified infectious bronchitis virus (IBV), strain M41. Spleen cells, expanded in vitro by stimulation with M41, were immortalized by fusion to obtain T-cell hybridomas, and two major histocompatability complex (MHC) class II (I-E)-restricted T-cell hybridomas were selected with specificity for IBV. Both hybridomas selectively recognized the internal nucleocapsid protein. The responses to 12 different strains of IBV varied markedly. This demonstrates antigenic variation of the nucleocapsid protein in addition to the known variation of the surface glycoprotein S.
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PMID:MHC class II-restricted T-cell hybridomas recognizing the nucleocapsid protein of avian coronavirus IBV. 184 91

The gene encoding the spike glycoprotein of the human coronavirus HCV 229E has been cloned and sequenced. This analysis predicts an S polypeptide of 1173 amino acids with an Mr of 128,600. The polypeptide has 30 potential N-glycosylation sites. A number of structural features typical of coronavirus S proteins can be recognized, including a signal sequence, a membrane anchor, heptad repeat structures and a carboxy-terminal cysteine cluster. A detailed, computer-aided comparison with the S proteins of infectious bronchitis virus, feline infectious peritonitis virus, transmissible gastroenteritis virus and murine hepatitis virus, strain JHM is presented. We have also done a Northern blot analysis of viral RNAs in HCV 229E-infected cells using synthetic oligonucleotides. On the basis of this analysis, and by analogy to the replication strategy of other coronaviruses, we are able to propose a model for the organization and expression of the HCV 229E genome.
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PMID:Nucleotide sequence of the gene encoding the spike glycoprotein of human coronavirus HCV 229E. 234 67

The content of normal serum proteins, acute phase (C-reactive protein, pregnancy-associated alpha 2-glycoprotein) and tissue proteins (ferritin, nonspecific tissue esterase) was studied in the sputum of 256 patients with different pulmonary pathology, over time using immunochemical methods. Protein elimination with the sputum was shown to depend upon the nature and gravity of bronchitis and pulmonary destruction. Analysis of the qualitative composition of the sputum proteins and their content can be used in pulmonology for differential diagnosis and assessment of a course of pulmonary diseases.
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PMID:[Clinical significance of the immunochemical study of serum and tissue proteins of the sputum in pulmonary pathology]. 247 Jan 61

The Minnesota strain of turkey enteric coronavirus (TCV) was grown on a human rectal tumor (HRT-18) cell line in the presence of radiolabeled amino acids and glucosamine to analyse virion structural proteins. In addition to the 52,000 unglycosylated nucleocapsid protein, three major glycoprotein species were found to be associated with the viral envelope. A predominant glycosylated protein with a molecular weight of 22-24,000 represented the transmembrane matrix protein. Larger glycoproteins with apparent molecular weights of 180-200,000 (gp 200), 120-125,000 (gp 120) and 95-100,000 (gp 100) were associated to the characteristic large bulbous projections (peplomers) located at the surface of the virion. The gp 100 and gp 120 species apparently arose from a proteolytic cleavage of gp 200, as suggested by digestion studies with trypsin and chymotrypsin. An additional large glycoprotein with mol. wt. of 140,000 (gp 140), that behaved as a disulfide-linked dimer of a 66,000 molecule, was found to be associated to granular projections located near the base of the large peplomers. Digestion studies with trypsin, bromelain and pronase demonstrated that gp 140 was related to the hemagglutinating activity of the virus. An inner membranous sac or tongue-shaped structure could be visualized in the interior of the viral particles following treatment with pronase. In contrast, trypsin or chymotrypsin treatments resulted in evaginations ("budding") on the virus surface. Progeny viral particles produced in TCV-infected cell cultures in the presence of tunicamycin lacked both types of surface projections, as demonstrated by electron microscopy and electrophoresis. The matrix protein also appeared to be reduced to its unglycosylated form, concomitant with a considerable loss of its antigenicity. Thus, with respect to its morphological and biochemical characteristics, TCV resembles viruses belonging to the group of mammalian hemagglutinating coronaviruses, but differs in that both types of envelope glycoproteins are N-glycosylated as in case of the avian infectious bronchitis virus.
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PMID:Identification and location of the structural glycoproteins of a tissue culture-adapted turkey enteric coronavirus. 267 55

The physical and chemical properties of bronchial epithelial mucus depend on its special mix of macromolecules and lipid constituents: these are different in the normal airway under baseline conditions from one stimulated acutely, and show major modification in disease. Since the last conference, density gradient ultracentrifugation has been extended to the study of normal bronchial mucus in addition to that of sputum from patients with chronic bronchitis, cystic fibrosis and asthma, and has revealed striking differences between the chemical profiles of normal and hypersecretory mucus. Normal mucus represented individual bronchial aspirates, obtained at fiberoptic bronchoscopy from healthy human volunteers (non-smokers), aspirates from normal dogs (before SO2 exposure in a canine model of SO2 induced bronchitis) and secretions released in vitro by human bronchial and canine tracheal explants. Mucus 'in transition' included aspirates from otherwise healthy smokers and from dogs early in irritation. Hypersecretory mucus included, besides those mentioned above, aspirates from dogs that had developed bronchitis and the excessive mucus produced by some patients with acute quadriplegia. Lipids. In normal mucus, human (unpooled) and canine, neutral lipids are the predominant species, with lesser amount of phospholipids: no glycolipids are detected. The first qualitative change on irritation, even before macromolecular yield increases, is appearance of glycolipids. In hypersecretory mucus, human (including quadriplegics) or canine, glycolipids are detected in appreciable amounts and often are the predominant species: they include complex forms such as sialic acid containing gangliosides. Organ and cell culture studies establish that these lipids are produced by airway epithelial cells. These lipids are important to gel formation. Glycoconjugates. A major recent advance is the recognition that normal mucus does not contain typical epithelial glycoprotein. Its glycoconjugate is of higher density with sugars typical of both glycoprotein (GP) and proteoglycan (PG) and with an amino acid profile more akin to PG (glycine greater than serine greater than threonine). In transition to hypersecretion, a 'mixed molecule' changes its sugar mix to produce a density typical of GP. In hypersecretion, the epithelial GP develops a typical buoyant density and amino acid profile (threonine greater than serine greater than glycine). Organ culture of bronchial explants, and more recently cell culture, establish that the PGs are major products of airway secretory cells. The normal airway is capable of producing glycoprotein on cholinergic stimulation. The range of glycoconjugates present in the secretion support the wide range of granule and cell features identified in vivo. Monoclonal antibody raised to a pure preparation of bronchial epithelial glycoprotein reacts with mucous cells in the surface epithelium and also in the submucosal gland in both human and canine airways.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Macromolecular and lipid constituents of bronchial epithelial mucus. 270 77

The E1 glycoprotein of the avian coronavirus infectious bronchitis virus contains a short, glycosylated amino-terminal domain, three membrane-spanning domains, and a long carboxy-terminal cytoplasmic domain. We show that E1 expressed from cDNA is targeted to the Golgi region, as it is in infected cells. E1 proteins with precise deletions of the first and second or the second and third membrane-spanning domains were glycosylated, thus suggesting that either the first or third transmembrane domain can function as an internal signal sequence. The mutant protein with only the first transmembrane domain accumulated intracellularly like the wild-type protein, but the mutant protein with only the third transmembrane domain was transported to the cell surface. This result suggests that information specifying accumulation in the Golgi region resides in the first transmembrane domain, and provides the first example of an intracellular membrane protein that is transported to the plasma membrane after deletion of a specific domain.
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PMID:A specific transmembrane domain of a coronavirus E1 glycoprotein is required for its retention in the Golgi region. 282 Oct 10

We have sequenced 200 to 240 bases of the matrix (M) glycoprotein gene of 23 strains of infectious bronchitis virus (IBV) representing the A (D207), B (D3896), C (D3128), D (D212), Massachusetts (Mass), UK11 and UK12 serotypes. The bases examined code for the external, hydrophilic region and the first membrane-embedded hydrophobic region of M, both regions comprising approximately 20 amino acids. As predicted from protein Mr studies the A/D and B/C serotypes had two and one potential glycosylation sites respectively. This variation appeared to derive from a combination of base substitutions and deletions/insertions. The glycosylation sequence Asn-Cys-Thr was highly conserved. Overall, the exposed part of M exhibited a fourfold greater extent of amino acid variation than did the membrane-embedded sequence. The transcription-associated homology region sequence (CUUAACAA) in the 5' intergenic region was identical in all strains but there was considerable variation as to its location. The M gene of UK12 appeared to have evolved from a group A-like M gene by a two stage process involving a base substitution in the intergenic region which generated a new AUG translation start codon followed by deletion of the original AUG. Isolate UK11 closely resembled Mass strains in the intergenic region but was dissimilar from all strains in the protein coding region. The M sequences of serotypes B and C were identical and those of the A and D serotypes very similar. These results are discussed in relation to recent sequencing of part of the spike glycoprotein gene of some of these strains and the discovery of in vitro recombination of murine hepatitis coronavirus.
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PMID:Evolution of avian coronavirus IBV: sequence of the matrix glycoprotein gene and intergenic region of several serotypes. 283 26


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