An efficient and flexible system for construction of adenovirus vectors with insertions or deletions in early regions 1 and 3.

AJ Bett, W Haddara, L Prevec… - Proceedings of the …, 1994 - National Acad Sciences
AJ Bett, W Haddara, L Prevec, FL Graham
Proceedings of the National Academy of Sciences, 1994National Acad Sciences
Human adenoviruses (Ads) are attracting considerable attention because of their potential
utility for gene transfer and gene therapy, for development of live viral vectored vaccines,
and for protein expression in mammalian cells. Engineering Ad vectors for these
applications requires a variety of reagents in the form of Ads and bacterial plasmids
containing viral DNA sequences and requires different strategies for construction of vectors
for different purposes. To simplify Ad vector construction and develop a procedure with …
Human adenoviruses (Ads) are attracting considerable attention because of their potential utility for gene transfer and gene therapy, for development of live viral vectored vaccines, and for protein expression in mammalian cells. Engineering Ad vectors for these applications requires a variety of reagents in the form of Ads and bacterial plasmids containing viral DNA sequences and requires different strategies for construction of vectors for different purposes. To simplify Ad vector construction and develop a procedure with maximum flexibility, efficiency, and cloning capacity, we have developed a vector system based on use of Ad5 DNA sequences cloned in bacterial plasmids. Expanded deletions in early region 1 (3180 bp) and early region 3 (2690 or 3132 bp) can be combined in a single vector that should have a capacity for inserts of up to 8.3 kb, enough to accommodate the majority of cDNAs encoding proteins with regulatory elements. Genes can be inserted into either early region 1 or 3 or both and mutations or deletions can be readily introduced elsewhere in the viral genome. To illustrate the flexibility of the system, we have introduced a wild-type early region 3 into the vectors, and to illustrate the high capacity for inserts, we have isolated a vector with two genes totaling 7.8 kb.
National Acad Sciences