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(Received for publication, November 28, 1995; and in revised form, December
18, 1995) We have constructed circular forms of human immunodeficiency
virus type 1 viral DNA in vitro that closely resemble the
single and double long terminal repeat circular forms of unintegrated
viral DNA formed in the nuclei of infected cells. We have analyzed
viral protein expression after transient transfection of these circular
DNAs into HeLa cells and compared it with expression from a transfected
linearized plasmid containing an integrated provirus. Both circular
forms are expressed, as judged by the appearance of extracellular p24,
and expression is trans-activated by human immunodeficiency
virus type 1 Tat. Viral p24 production, however, is approximately an
order of magnitude lower than that obtained with transfected integrated
viral DNA. Similar data were obtained when a luciferase reporter gene
was substituted for the coding regions of the viral DNA. Positional
effects of the transcriptional initiation and termination signals in
the long terminal repeat appear to account for some of the low
expression levels. These data suggest that unintegrated circular viral
DNAs are transcriptionally active, although at low levels, and may
contribute to overall viral replication in infected people under some
conditions.
Volume 271,
Number 10,
Issue of March 8, 1996 pp. 5393-5397
©1996 by The American Society for Biochemistry and Molecular Biology, Inc.
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