Strategy for efficient generation of numerous full-length cDNA clones of classical swine fever virus for haplotyping

Rates of spontaneous mutation per genome as measured in the laboratory are remarkably similar within broad groups of organisms but differ strikingly among groups. Mutation rates in RNA viruses, whose genomes contain ca. 10(4) bases, are roughly 1 per genome per replication for lytic viruses and roughly 0.1 per genome per replication for retroviruses and a retrotransposon. Mutation rates in microbes with DNA-based chromosomes are close to 1/300 per genome per replication; in this group, therefore, rates per base pair vary inversely and hugely as genome sizes vary from 6 x 10(3) to 4 x 10(7) bases or base pairs. Mutation rates in higher eukaryotes are roughly 0.1-100 per genome per sexual generation but are currently indistinguishable from 1/300 per cell division per effective genome (which excludes the fraction of the genome in which most mutations are neutral). It is now possible to specify some of the evolutionary forces that shape these diverse mutation rates.

A strategy for cloning and mutagenesis of an infectious herpesvirus genome is described. The mouse cytomegalovirus genome was cloned and maintained as a 230 kb bacterial artificial chromosome (BAC) in E. coli. Transfection of the BAC plasmid into eukaryotic cells led to a productive virus infection. The feasibility to introduce targeted mutations into the BAC cloned virus genome was shown by mutation of the immediate-early 1 gene and generation of a mutant virus. Thus, the complete construction of a mutant herpesvirus genome can now be carried out in a controlled manner prior to the reconstitution of infectious progeny. The described approach should be generally applicable to the mutagenesis of genomes of other large DNA viruses.

A cDNA clone derived from genomic RNA of hog cholera virus (HCV) was identified using an oligonucleotide complementary to the RNA encoding a hexapeptide from the putative RNA-dependent RNA polymerase of the closely related bovine viral diarrhea virus (BVDV). This clone served as a probe for screening different size-selected cDNA libraries. After molecular cloning and nucleotide sequencing the HCV genome was shown to consist of 12,284 nucleotides containing one long open reading frame. Sequence comparison revealed a high degree of homology between HCV and BVDV genomic RNAs. With respect to HCV the genome of BVDV contains an insertion coding for 90 amino acids.