The SV40 72 base repair repeat has a striking effect on gene expression both in SV40 and other chimeric recombinants.

By introduction of recombinant plasmids into monkey CV1 cells, we have unambiguously demonstrated that sequences entirely within the 72 bp repeat, which is located upstream of the SV40 early region, are crucial for T-antigen expression in vivo. We have also shown that a DNA fragment containing the 72 bp repeat, inserted directly before chicken conalbumin or adenovirus-2 major late promoter sequences in chimeric plasmids where these promoters replace that of the SV40 early genes, caused a dramatic increase in the expression of T-antigen in vivo. This effect was independent of the orientation of the 72 bp repeat, but was sensitive to its location within the plasmid, when the 72 bp repeat was separated from the promoter sequences, T-antigen expression was reduced. Insertion of the 72 bp repeat into equivalent plasmids containing no known eukaryotic promoter sequences (plasmids which were not detectably expressed in vivo) gave rise to a measurable, but smaller level of expression. The stimulation of expression by the 72 bp repeat is cis-acting : it required covalent linkage to the recombinant. We discuss the possibility that the 72 bp repeat region in SV40 may act as a bi-directional entry site for RNA polymerase B such that promoter sequences linked to the repeat are more efficiently utilised.     

Plasmids for the cloning and expression of full-length double-stranded cDNAs under control of the SV40 early or late gene promoter

Okayama and Berg (1) have recently described a technique for the high efficiency cloning of full-length dscDNAs. We have constructed eukaryotic expression vectors compatible both with this technique (and with classical techniques) for dscDNA cloning. The vectors are such that recombinants obtained contain dscDNAs in the correct orientation downstream from a block of sequence comprising either the SV40 early or late gene promoter linked to a pair of splice sites from a rabbit beta-globin gene. A sequence encoding an SV40 polyadenylation site follows the dscDNA. We have used our vectors to make a library from chicken oviduct polyA(+) RNA using the Okayama and Berg technique. Ovalbumin recombinants occur in the library at the expected frequency and a high proportion contain full length copies of the ovalbumin mRNA. However, a similar result was not obtained for conalbumin recombinants. When recombinants are introduced into eukaryotic cells by either calcium phosphate coprecipitation or protoplast fusion, expression of chicken ovalbumin or conalbumin may be detected by indirect immunofluorescence. Under optimal conditions (use of SV40 late promoter and cos 7 cells) ovalbumin protein could be detected when the ovalbumin recombinant was present in only 2% of the protoplasts used for fusion. This suggests that colony banks obtained using our vectors could be screened in batches of 50 by protoplast fusion followed by a search for expression of a given protein using indirect immunofluorescence.