Coronaviruses
Coronaviruses are a large family of viruses that can infect a range of hosts. They are known to cause diseases including the common cold, Severe Acute Respiratory Syndrome (SARS) and Middle East Respiratory Syndrome (MERS) in humans.
In January 2020, China saw an outbreak of a new coronavirus strain now named SARS-CoV-2. Although the animal reservoir for the SARS and MERS viruses are known, this has yet to have been confirmed for SARS-CoV-2. All three strains are transmissible between humans.
To allow the widest possible distribution of relevant research, the Microbiology Society has brought together articles from across our portfolio and made this content freely available.
Image credit: "MERS-CoV" by NIAID is licensed under CC BY 2.0, this image has been modified.
Collection Contents
21 - 37 of 37 results
-
-
The sialate-4-O-acetylesterases of coronaviruses related to mouse hepatitis virus: a proposal to reorganize group 2 Coronaviridae
More LessGroup 2 coronaviruses are characterized within the order Nidovirales by a unique genome organization. A characteristic feature of group 2 coronaviruses is the presence of a gene encoding the haemagglutinin–esterase (HE) protein, which is absent in coronaviruses of groups 1 and 3. At least three coronavirus strains within group 2 expressed a structural protein with sialate-4-O-acetylesterase activity, distinguishing them from other members of group 2, which encode an enzyme specific for 5-N-acetyl-9-O-acetylneuraminic acid. The esterases of mouse hepatitis virus (MHV) strains S and JHM and puffinosis virus (PV) specifically hydrolysed 5-N-acetyl-4-O-acetylneuraminic acid (Neu4,5Ac2) as well as the synthetic substrates p-nitrophenyl acetate, 4-methylumbelliferyl acetate and fluorescein diacetate. The K m values of the MHV-like esterases for the latter substrates were two- to tenfold lower than those of the sialate-9-O-acetylesterases of influenza C viruses. Another unspecific esterase substrate, α-naphthyl acetate, was used for the in situ detection of the dimeric HE proteins in SDS–polyacrylamide gels. MHV-S, MHV-JHM and PV bound to horse serum glycoproteins containing Neu4,5Ac2. De-O-acetylation of the glycoproteins by alkaline treatment or incubation with the viral esterases resulted in a complete loss of recognition, indicating a specific interaction of MHV-like coronaviruses with Neu4,5Ac2. Combined with evidence for distinct phylogenetic lineages of group 2 coronaviruses, subdivision into subgroups 2a (MHV-like viruses) and 2b (bovine coronavirus-like viruses) is suggested.
-
-
-
Sequence and expression of the ns2 protein gene of human coronavirus OC43
More LessThe complete nucleotide sequence of the ns2 gene of human coronavirus OC43 (HCV-OC43) was determined. Sequence analysis revealed an open reading frame that could encode a protein of 278 amino acids, with an estimated molecular mass of 32.2 kDa. Six potential phosphorylation sites are present but no sites of N-glycosylation were found. The amino acid sequence of the HCV-OC43 ns2 protein shows 92% identity with that of the Mebus strain of bovine coronavirus (BCV). However, a stretch of nine consecutive amino acids near the C terminus is completely different, causing it to be very hydrophilic, which contrasts with the hydrophobic nature of this region in BCV. As shown by immunofluorescence with a monospecific antiserum, the ns2 protein was expressed in the cytoplasm of HCV-OC43-infected HRT-18 cells.
-
-
-
Sequence determination of the nucleocapsid protein gene of the porcine epidemic diarrhoea virus confirms that this virus is a coronavirus related to human coronavirus 229E and porcine transmissible gastroenteritis virus
More LessThe nucleotide sequence of 1.7 kbp cDNA, comprising the region nearest the 3′ end of the genome of the porcine epidemic diarrhoea virus (PEDV), has been independently determined for two European isolates of PEDV. Almost identical results were obtained for the two isolates, which were derived from cases of PEDV infection in Belgium and Britain in 1977 and 1987, respectively. The sequences contained a 1323 nucleotide (nt) open reading frame (ORF), which showed moderate identity to the nucleocapsid (N) gene of other coronaviruses. The greatest similarity at both the nucleic acid and protein levels was to the human coronavirus 229E. The PEDV N gene was, however, notably larger than that of the human 229E and porcine transmissible gastroenteritis viruses. This reflects the presence of a putative insertion of approximately 135 nt located towards the middle of the N gene. A second 336 nt ORF, which might encode a leucine-rich protein similar to, but shorter than, the bovine coronavirus internal protein was found within the PEDV N gene. Several RNA motifs typical of coronaviruses were also observed. These results confirm the earlier provisional classification of PEDV as a coronavirus.
-
-
-
Sequence analysis of the membrane protein gene of human coronavirus OC43 and evidence for O-glycosylation
More LessThe gene encoding the membrane (M) protein of the OC43 strain of human coronavirus (HCV-OC43) was amplified by a reverse transcription-polymerase chain reaction of viral RNA with HCV-OC43- and bovine coronavirus (BCV)-specific primers. The nucleotide sequence of the cloned 1.5 kb fragment revealed an open reading frame (ORF) of 690 nucleotides which was identified as the M protein gene from its homology to BCV. This ORF encodes a protein of 230 amino acids with an M r of 26416. The gene is preceded by the motif UCCAAAC, analogous to the consensus coronavirus transcription initiation sequence. The M protein of HCV-OC43 shows features typical of all coronavirus M proteins studied: a hydrophilic, presumably external N terminus including about 10% of the protein, and a potential N-glycosylation site followed by three major hydrophobic transmembrane domains. The amino acid sequence of the M protein of HCV-OC43 has 94% identity with that of the Mebus strain of BCV, and also contains six potential O-glycosylation sites in the exposed N-terminal domain. Indeed, the glycosylation of the M protein was not inhibited in the presence of tunicamycin, which is indicative of O-glycosylation, as previously reported for BCV and murine hepatitis virus. Virions released from tunicamycin-treated cells contained the M glycoprotein but were devoid of both peplomer (S) and haemagglutinin-esterase (HE) proteins. Thus, inhibition of the N-glycosylation of the S and HE structural proteins prevented their incorporation into progeny virions, an indication that they are dispensable for virion morphogenesis, unlike the M protein.
-
-
-
Synthesis and Processing of the Haemagglutinin—esterase Glycoprotein of Bovine Coronavirus Encoded in the E3 Region of Adenovirus
The haemagglutinin—esterase gene (HE) of bovine coronavirus (BCV) encodes a major viral membrane glycoprotein that elicits BCV-neutralizing antibodies. The BCV HE gene was cloned into a human adenovirus serotype 5 (Ad5) transfer vector in place of early transcription region 3, and a helper-independent recombinant virus was constructed by rescue of the transcription unit by homologous in vivo recombination between the vector and Ad5 genomic DNA. The BCV HE polypeptide expressed by this recombinant Ad was characterized in vivo and in vitro. A 65K polypeptide was identified using an anti-BCV antibody in both human (293) and bovine (MDBK) cells infected with the recombinant Ad. In the absence of a reducing agent, migration of the 65K polypeptide was shifted to 130K, indicating that the recombinant HE polypeptide existed in a dimeric form. The HE polypeptide was glycosylated, as demonstrated by labelling with [3H]glucosamine, and was immunoreactive with three distinct groups of conformation-specific anti-HE monoclonal antibodies (MAbs). Cells infected with recombinant Ad expressing BCV HE exhibited both haemadsorption activity and acetylesterase activity. In addition, the anti-HE group A MAbs HC10-5 and KD9-40 inhibited both the haemadsorption activity and esterase activity of the recombinant HE polypeptide, suggesting that the antigenic domain responsible for BCV neutralization may overlap (or is closely associated with) the domain(s) responsible for haemagglutination and/or acetylesterase activities. When mice were inoculated intraperitoneally with live recombinant Ad, a significant level of BCV-neutralizing HE-specific antibody was induced. These results indicate that the recombinant Ad replicates and directs the synthesis of the BCV HE polypeptide in vivo.
-
-
-
Sequence analysis of the turkey enteric coronavirus nucleocapsid and membrane protein genes: a close genomic relationship with bovine coronavirus
More LessThe 3′ end of the turkey coronavirus (TCV) genome and the gene encoding the nucleocapsid protein (N) were cloned and sequenced. The gene encoding the membrane protein (M) was obtained by cloning a polymerase chain reaction (PCR)-amplified fragment obtained using bovine coronavirus (BCV)-specific primers. Furthermore, five TCV DNA fragments, obtained by PCR on RNA from clinical specimens and corresponding to either the N terminus of the M protein or the complete M protein were also cloned and sequenced. The sequence revealed a 3′ non-coding region of 291 bases, an open reading frame (ORF) encoding the N protein with a predicted size of 448 amino acids, or an M r of 49K, and an ORF encoding the M protein with a predicted size of 230 amino acids and an M r of 26K. A third ORF, encoding a hypothetical protein of 207 amino acids with an M r of 23K was found within the N gene sequence. The amino acid sequences of both the N and M proteins were more than 99% similar to those published for BCV. Extensive similarity was also observed between the amino acid sequences of the TCV N protein and those of murine hepatitis virus (MHV) (70%) and human respiratory coronavirus strain OC43 (HCV-OC43) (98%) and between the amino acid sequences of the predicted M proteins of TCV and MHV (86%). Such striking identity suggests that BCV, TCV and HCV-OC43 must have diverged from each other only recently. A potential N-glycosylation site was found at the N terminus of the TCV M protein and is situated at the same location in BCV, MHV and transmissible gastroenteritis virus.
-
-
-
Sequence comparison of the 5′ end of mRNA 3 from transmissible gastroenteritis virus and porcine respiratory coronavirus
More LessAnalysis of porcine transmissible gastroenteritis virus (TGEV) and porcine respiratory coronavirus (PRCV) mRNA species indicated a deletion in mRNA 3 of PRCV. Polymerase chain reaction (PCR) was used to clone the 5′ end of mRNA 3 from PRCV for comparison with the equivalent region in TGEV. Small deletions were observed within and around the PRCV sequence equivalent to the putative open reading frame (ORF) ORF-3a identified in TGEV. The potential RNA polymerase-leader complex binding site (leader RNA binding site), ACTAAAC, found upstream of ORF-3a in TGEV, was absent from the PRCV genome but a potential site was found in the PRCV genome upstream of a gene equivalent to TGEV ORF-3b. PCR analysis, using primers corresponding to sequences within the ORF-3b gene and the leader RNA sequence, confirmed that the leader RNA binding site was upstream of a gene equivalent to TGEV ORF-3b on PRCV mRNA 3 but upstream of ORF-3a on TGEV mRNA 3. The presence of the new leader RNA binding site would be responsible for generating the smaller mRNA 3 species found in PRCV-infected cells.
-
-
-
Several Rat Cell Lines Share a Common Defect in Their Inability to Internalize Murine Coronaviruses Efficiently
More LessSUMMARYInfection of rat cells, Schwannoma RN2, hepatoma HTC or myoblast L6, with the murine coronavirus JHM strain results in a persistent infection characterized by the release of virus over an extended period of time with a limited cytopathology. Several stages of the viral replication cycle have been examined in these cells in comparison to those in mouse L2 cells, which are totally permissive to JHM infection. Although the rat cells bound as much virus as the mouse cells their ability to internalize it was 40-fold less efficient than the mouse cells. This lower internalization efficiency was not enhanced by pH shock of infected cells, but was by treatment with polyethylene glycol. In all cell types there appeared to be no major differences in the ability of the internalized virus to replicate the viral RNA as determined by slot-blot analysis with a radiolabelled viral cDNA. A similar genetic mechanism appears to be operative in the lines because somatic cell hybrids formed between these lines in various combinations were also deficient in the ability to internalize bound virus. Taken together these results imply that rat cell lines in general share a common deficiency in their inability to internalize murine coronaviruses efficiently. This low efficiency in viral internalization may explain in part the ability of these lines to sustain persistent infections.
-
-
-
Synthesis and Processing of the Bovine Enteric Coronavirus Haemagglutinin Protein
More LessSUMMARYThe haemagglutinin molecule on the bovine enteric coronavirus has been identified as a glycoprotein of 140K composed of disulphide-linked subunits of 65K. In this study, we have shown the subunits to be identical by demonstrating an unambiguous amino-terminal amino acid sequence. The unglycosylated subunit was found to have an M r of 42·5K and to undergo rapid disulphide linkage and glycosylation. Glycosylation was found to be of the asparagine-linked type and some of the oligosaccharides underwent processing to complex forms. Studies with inhibitors of glycosylation suggested that a processing of the haemagglutinin oligosaccharide takes place on the virion whilst it is in the Golgi apparatus. Each haemagglutinin subunit on the mature virion was estimated to possess six or seven carbohydrate chains of either the high-mannose or hybrid type, and three or four chains of the complex type.
-
-
-
Structural Proteins of Bovine Coronavirus and Their Intracellular Processing
More LessSummaryThe Quebec isolate of bovine coronavirus (BCV) was found to contain four unique major structural proteins. These proteins consisted of the peplomeric protein (gp190/E2, gp100/E2), the nucleocapsid protein (p53/N) and its apparent trimer (p160/N), a family of small matrix glycoproteins (gp26/El, gp25/El and p23/El) and the putative haemagglutinin (gpl24/E3). Pulse-chase experiments utilizing polyclonal antiserum and monoclonal antibodies indicated that the unique BCV E3 protein had as its primary precursor an A-linked glycoprotein with an M r of 59000 (gp59) which underwent rapid dimerization by disulphide bond formation to yield gp118. Further glycosylation of gp118 produced gp124/E3 which incorporated fucose. Thus gp124/E3 was probably a homodimer. The processing of the E2 and E1 proteins of BCV was similar to that shown previously for mouse hepatitis virus. A large AM inked precursor glycoprotein, gpl70, underwent further glycosylation to yield gp190/E2 before subsequent proteolytic cleavage to yield gp100/E2. The glycosylated El (gp26, gp25) proteins arose as a result of O-linked glycosylation of p23/El as indicated by the resistance of these species to tunicamycin.
-
-
-
Sequence and N-terminal Processing of the Transmembrane Protein E1 of the Coronavirus Transmissible Gastroenteritis Virus
More LessSummarySequencing of part of a clone from a transmissible gastroenteritis virus genome cDNA library led to the identification of the gene encoding the E1 matrix protein. The amino acid sequence of the primary translation product predicts a polypeptide of 262 residues which shares many features with the previously characterized murine hepatitis virus and infectious bronchitis virus E1 proteins. However, N-terminal amino acid sequencing revealed that a putative signal peptide of 17 residues was absent in the virion-associated polypeptide. The predicted mol. wt. of the mature unglycosylated product, 27 800, is in agreement with the experimental M r value.
-
-
-
Survival Characteristics of Airborne Human Coronavirus 229E
More LessSUMMARYThe survival of airborne human coronavirus 229E (HCV/229E) was studied under different conditions of temperature (20 ± 1 °C and 6 ± 1 °C) and low (30 ± 5%), medium (50 ± 5%) or high (80 ± 5%) relative humidities (RH). At 20 ± 1 °C, aerosolized HCV/229E was found to survive best at 50% RH with a half-life of 67.33 ± 8.24 h while at 30% RH the virus half-life was 26.76 ± 6.21 h. At 50% RH nearly 20% infectious virus was still detectable at 6 days. High RH at 20 ± 1 °C, on the other hand, was found to be the least favourable to the survival of aerosolized virus and under these conditions the virus half-life was only about 3 h; no virus could be detected after 24 h in aerosol. At 6 ± 1 °C, in either 50% or 30% RH conditions, the survival of HCV/229E was significantly enhanced, with the decay pattern essentially similar to that seen at 20 ± 1 °C. At low temperature and high RH (80%), however, the survival pattern was completely reversed, with the HCV/229E half-life increasing to 86.01 ± 5.28 h, nearly 30 times that found at 20 ± 1 °C and high RH. Although optimal survival at 6 °C still occurred at 50% RH, the pronounced stabilizing effect of low temperature on the survival of HCV/229E at high RH indicates that the role of the environment on the survival of viruses in air may be more complex and significant than previously thought.
-
-
-
Sequencing of Coronavirus IBV Genomic RNA: Three Open Reading Frames in the 5′ ‘Unique’ Region of mRNA D
More LessSUMMARYThe nucleotide sequence of a genomic cDNA clone corresponding to the 5′ terminal domain of mRNA D of the Beaudette strain of infectious bronchitis virus (IBV) has been determined. This region contains three open reading frames which predict polypeptides of molecular weights 6700 s(6.7K), 7.4K and 12.4K. The predicted 12.4K polypeptide has a codon usage very similar to that predicted for the products of the IBV nucleocapsid, membrane and spike genes. The sequence also predicts a hydrophobic, potentially membrane-anchoring, region in the N terminal half of the 12.4K polypeptide, and a hydrophilic C terminus.
-
-
-
Serological Relationships of the Subcomponents of Human Coronavirus Strain 229E and Mouse Hepatitis Virus Strain 3
More LessSUMMARYAntibodies were raised in rabbits against the structural components of human coronavirus strain 229E and mouse hepatitis virus strain 3, prepared from disrupted virus particles. Hyperimmune sera to the subcomponents showed cross-reactions by enzyme-linked immunosorbent assay between ribonucleoprotein antigens of these viruses, indicating the presence of a common antigen(s). None of the other virus structural components showed any cross-reactivity.
-
-
-
Structural Polypeptides of Coronavirus IBV
More LessSummaryAvian infectious bronchitis virus (IBV) was grown and radiolabelled with 35S-methionine, 3H-leucine and 3H-glucosamine in de-embryonated chicken eggs. Approximately 12 different polypeptides were clearly detected by SDS-polyacrylamide gel electrophoresis of virus preparations. Growth of IBV in chorioallantoic membrane cells labelled with 35S-methionine indicated that most of these polypeptides, and additional ones, some of which were glycosylated, were host components. Five polypeptides appeared to be virus-coded, with apparent mol. wt. of 94 × 103, 84 × 103, 54 × 103, 30 × 103 and 28 × 103. Four of these, p94, p84, p30 and p28, were glycosylated. The virion spikes appeared to be composed of p94 and p84, while p30 and p28 were partially embedded in the virion membrane. By analogy with other reports, p54 is the nucleocapsid polypeptide.
-
-
-
Structural Polypeptides of the Murine Coronavirus JHM
More LessSUMMARYAnalysis by SDS-polyacrylamide gel electrophoresis shows that the purified coronavirus JHM contains six polypeptides. The apparent mol. wt. of the polypeptides (GP1, GP2, GP3, VP4, GP5 and VP6) are 170000; 125000; 97500; 60800; 24800 and 22700, respectively. Four polypeptides are glycosylated (GP1, GP2, GP3 and GP5). The analysis of particles obtained after limited proteolysis with pronase suggests that GP2 and GP3 are protruding from the lipid envelope and, together with GP1, form the spike layer. Protein VP6 and a part of GP5 are located within the lipid bilayer. Protein VP4 is susceptible to digestion at a concentration of pronase which changes the morphology of the virus particles making the interior of the virus accessible. Subviral particles produced after treatment with the detergent Nonidet P40 banded at a higher density than the virus and contained only VP4, GP5 and VP6.
-
-
-
Studies on the Structure of a Coronavirus-Avian Infectious Bronchitis Virus
More LessSUMMARYWhen avian infectious bronchitis virus (IBV) is fixed in formaldehyde, negative stain is able to penetrate the particle and an internal component is visualized. This component is seen as a tongue or flask shaped structure attached at one point to the outer virus membrane. A model yielding transmission patterns similar to the virus has been made. Gradient centrifugation studies on IBV reveal that the RNP is associated with the internal sac.
-