Adeno-associated virus general transduction vectors: analysis of proviral structures.

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J Virol. 1988 June; 62(6): 1963-1973

Adeno-associated virus general transduction vectors: analysis of proviral structures.

S K McLaughlin, P Collis, P L Hermonat and N Muzyczka

Department of Microbiology, University of Florida Medical School, Gainesville 32610.

ABSTRACT

We used two kinds of adeno-associated virus (AAV) vectors totransduce the neomycin resistance gene into human cells. Thefirst of these (dl52-91) retains the AAV rep genes; the second(dl3-94) retains only the AAV terminal repeats and the AAV polyadenylationsignal (428 base pairs). Both vectors could be packaged intoAAV virions and produced proviral structures that were essentiallythe same. Thus, the AAV sequences that are required in cis forpackaging (pac), integration (int), rescue (res), and replication(ori) of viral DNA are located within a 284-base-pair sequencethat includes the terminal repeat. Most of the G418r cell lines(73%) contained proviruses which could be rescued (Res+) whenthe cells were superinfected with the appropriate helper viruses.Some produced high yields of viral DNA; other rescued at a 50-foldlower level. Most of the lines that were Res+ (79%) containeda tandem repeat of the AAV genome (2 to 20 copies) which wasintegrated randomly with respect to cellular DNA. Junctionsbetween two consecutive AAV copies in a tandem array containedeither one or two copies of the AAV terminal palindrome. Junctionsbetween AAV and cellular sequences occurred predominantly ator within the AAV terminal repeat, but in some cases at internalAAV sequences. Two lines were seen that contained free episomalcopies of AAV DNA. Res+ clones contained deleted provirusesor tandem repeats of a deleted genome. Occasionally, flankingcellular DNA was also amplified. There was no superinfectioninhibition of AAV DNA integration. Our results suggest thatAAV sequences are amplified by DNA replication either beforeor after integration and that the mechanism of replication isdifferent from the one used during AAV lytic infections. Inaddition, we have described a new AAV general transduction vector,dl3-94, which provides the maximum amount of room for insertionof foreign DNA and integrates at a high frequency (80%).

J Virol. 1988 June; 62(6): 1963-1973

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