A systematic method was developed to assemble functional full-length genomes of large RNA and DNA viruses. Coronaviruses contain the largest single-stranded positive-polarity RNA genome in nature. The ϳ30-kb genome, coupled with regions of genomic instability, has hindered the development of a full-length infectious cDNA construct. We have assembled a full-length infectious construct of transmissible gastroenteritis virus (TGEV), an important pathogen in swine. Using a novel approach, six adjoining cDNA subclones that span the entire TGEV genome were isolated. Each clone was engineered with unique flanking interconnecting junctions which determine a precise systematic assembly with only the adjacent cDNA subclones, resulting in an intact TGEV cDNA construct of ϳ28.5 kb in length. Transcripts derived from the full-length TGEV construct were infectious, and progeny virions were serially passaged in permissive host cells. Viral antigen production and subgenomic mRNA synthesis were evident during infection and throughout passage. Plaque-purified virus derived from the infectious construct replicated efficiently and displayed similar plaque morphology in permissive host cells. Host range phenotypes of the molecularly cloned and wild-type viruses were similar in cells of swine and feline origin. The recombinant viruses were sequenced across the unique interconnecting junctions, conclusively demonstrating the marker mutations and restriction sites that were engineered into the component clones. Full-length infectious constructs of TGEV will permit the precise genetic modification of the coronavirus genome. The method that we have designed to generate an infectious cDNA construct of TGEV could theoretically be used to precisely reconstruct microbial or eukaryotic genomes approaching several million base pairs in length.Molecular genetic analysis of the structure and function of RNA virus genomes has been profoundly advanced by the availability of full-length cDNA clones, the source of infectious RNA transcripts that replicate efficiently when introduced into permissive cell lines (2, 9). Recombinant DNA technology has allowed the isolation of infectious cDNA clones from a number of positive-stranded RNA viruses, including picornaviruses, caliciviruses, alphaviruses, flaviviruses, and arteriviruses, whose RNA genomes range in size from ϳ7 to 15 kb in length (1,13,32,34,35,47,48,54). The availability of these clones has enhanced our understanding of the molecular mechanisms of viral replication and pathogenesis and resulted in new approaches for heterologous gene expression and vaccine development.The order Nidovirales includes mammalian positive-polarity single-stranded RNA viruses in the arterivirus and coronavirus families (10, 16). The Coronaviridae family includes the Coronavirus and Torovirus genera (10, 46). Despite significant size differences (ϳ13 to 32 kb), the polycistronic genome organization and regulation of gene expression from a nested set of subgenomic mRNAs are similar for all members of the order (16, 4...
