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1-Coronavirus Genes: Comparative Aspects.- Sequence Analysis of CCV and its Relationship to FIPV, TGEV and PRCV.- Genomic Organization and Expression of the 3' End of the Canine and Feline Enteric Coronaviruses.- Cloning and Sequence Analysis of the Spike Gene from Several Feline Coronaviruses.- Genomic Organisation of a Virulent Taiwanese Strain of Transmissible Gastroenteritis Virus.- The Use of PCR Genome Mapping for the Characterisation of TGEV Strains.- Evolution and Tropism of Transmissible Gastroenteritis Coronavirus.- Transmissible Gastroenteritis Virus and Porcine Respiratory Coronavirus: Molecular Characterization of the S Gene Using cDNA Probes and Nucleotide Sequence Analysis.- Sequence Analysis of the Nucleocapsid Protein Gene of Porcine Epidemic Diarrhoea Virus.- Genome Organization of Porcine Epidemic Diarrhoea Virus.- Characterization of the Nonstructural and Spike Proteins of the Human Respiratory Coronavirus OC43: Comparison with Bovine Enteric Coronavirus.- Identification, Expression in E. coli and Insect Cells of the Non-Structural Protein NS2 Encoded by mRNA2 of Bovine Coronavirus (BCV).- Characterization of the Human Coronavirus 229E (HCV 229E) Gene 1.- Identification of Coronaviral Conserved Sequences and Application to Viral Genome Amplification.- 2-Transcription, Replication and Genome Engineering.- Studies into the Mechanism for MHV Transcription.- Analysis of the Cis-Acting Elements of Coronavirus Transcription.- Control of TGEV mRNA Transcription.- An Intraleader Open Reading Frame is Selected from a Hypervariable 5' Terminus During Persistent Infection by the Bovine Coronavirus.- Effects of Mouse Hepatitis Virus Infection on Host Cell Metabolism.- The Effect of Amantadine on Mouse Hepatitis Virus Replication.- Analysis of Messenger RNA within Virions of IBV.- Inhibition of Mouse Hepatitis Virus Multiplication by Antisense Oligonucleotide, Antisense RNA, Sense RNA and Ribozyme.- Site-Specific Sequence Repair of Coronavirus Defective Interfering RNA by RNA Recombination and Edited RNA.- Site-Directed Mutagenesis of the Genome of Mouse Hepatitis Virus by Targeted RNA Recombination.- Homologous RNA Recombination Allows Efficient Introduction of Site-Specific Mutations into the Genome of Coronavirus MHV-A59 via Synthetic Co-Replicating RNAs.- 3-Characterization and Functions of Viral Proteins.- Identification of Peplomer Cleavage Site Mutations Arising During Persistence of MHV-A59.- Proteolytic Cleavage of the Murine Coronavirus Surface Glycoprotein is not Required for its Fusion Activity.- Fusogenic Properties of Uncleaved Spike Protein of Murine Coronavirus JHMV.- Characterization of a Monoclonal Antibody Resistant Variant of MHV.- Molecular Mimicry Between S Peplomer Proteins of Coronaviruses (MHV, BCV, TGEV and IBV) and Fc receptor.- Complex Formation Between the Spike Protein and the Membrane Protein During Mouse Hepatitis Virus Assembly.- Preliminary Characterization of a Monoclonal Antibody Specific for a Viral 27 kD Glycoprotein Family Synthesized in Porcine Epidemic Diarrheoa Virus Infected Cells.- Involvement of Lipids in Membrane Binding of Mouse Hepatitis Virus Nucleocapsid Protein.- A Novel Glycoprotein of Feline Infectious Peritonitis Coronavirus Contains a KDEL-Like Endoplasmic Reticulm Retention Signal.- Altered Proteolytic Processing of the Polymerase Polyprotein in RNA(-) Temperature Sensitive Mutants of Mucine Coronavirus.- A Newly Identified MHV-A59 ORF1a Polypeptide p65 is Temperature Sensitive in Two RNA Negative Mutants.- Proteolytic Processing of the N-Terminal Region of the Equine Arteritis Virus Replicase.- 4-Coronaviruses, Toroviruses and Arteriviruses: Common and Distinctive Features.- The Coronaviruslike Superfamily.- Equine Arteritis Virus (EAV) Contains a Unique Set of Four Structural Proteins.- The Coronaviridae now Comprises Two Genera, Coronavirus and Torovirus: Report of the Coronaviridae Study Group.- 5-Cellular Receptors for Coronaviruses.- Coronavirus Receptor S...