Doug McCarty scite author profile

A series of contiguous 30-bp deletions were introduced into the regions upstream of the pl9 and p40 promoters of adeno-associated virus (AAV), and the effects of these deletions on induction of AAV transcription by the rep gene products was evaluated. A novel complementation system was devised for supplying wild-type Rep protein when mutations disrupted the trans activation activity of the Rep protein. Transcription from the p40 promoter was eliminated upon deletion of the TATA sequence located between-4 and-33 from the cap site. Deletions which removed sequences from-34 to-123 bp from the p40 mRNA start site substantially reduced Rep induction of p40 transcription. p19 transcription was also undetectable when the p19 TATA sequence between-4 and-33 was deleted. In contrast to the p40 region, two types of cis-active sequences were found associated with the p19 promoter. Sequences between-4 and-63 bp relative to the p19 cap site were essential for Rep induction only from the p19 promoter. Deletions between-94 and-153 bp relative to the p19 cap site reduced Rep induction of both the p19 and p40 promoters coordinately. These two noncontiguous regions were separated by a 30-bp sequence that was not essential for transcription control. Further deletion analysis delineated a second cis-active element, associated with the p5 promoter (AAV nucleotides 191 to 320), which was also necessary for coordinate Rep activation of both the p19 and p40 promoters. Finally, the dependence of p40 transcription on the Rep-responsive elements within the p5 and p19 regions could be overcome by the presence of the AAV terminal repeats, suggesting that the terminal-repeats contained redundant Rep-responsive elements. These results implied an interdependence in cis between the three AAV promoters and suggested a novel mechanism for coordinate regulation of gene expression in response to the trans-activating Rep protein. Coordinate induction appeared to be the result of a simultaneous interaction between the Rep protein and sequence elements associated with two or all three of the AAV promoters.

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Identification of linear DNA sequences that specifically bind the adeno-associated virus Rep protein

McCarty

Pereira

Zolotukhin

et al. 1994

J Virol

144

102

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We have used baculovirus-expressed Rep68 that has been purified to homogeneity to reexamine the binding properties of the Rep protein. We find that Rep68 is capable of binding to a linear DNA sequence that is contained within a 25-bp sequence of the A stem of the adeno-associated virus (AAV) terminal repeat proximal to the B and C palindromes. This has been shown conclusively by demonstrating that Rep68 could specifically

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The adeno-associated virus (AAV) Rep protein acts as both a repressor and an activator to regulate AAV transcription during a productive infection

Pereira

McCarty

Muzyczka

1997

J Virol

169

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Adeno-associated virus (AAV) uses three promoters, p5, p19, and p40, to regulate viral gene expression. The p5 and p19 promoters direct the synthesis of the viral regulatory proteins, Rep78 and -68 and Rep52 and -40, respectively. The p5 Rep proteins bind a linear 22-bp sequence, the Rep binding element (RBE), that is within both the terminal repeat (TR) and the p5 promoter. In the absence of helper virus, all four Rep proteins have been shown to reduce transcription from the viral p5 and p19 promoters. In this report, we focus on the roles of these proteins and the RBEs in controlling transcription during a productive infection, that is, in the presence of adenovirus. We find that in the presence of adenovirus, the p5 RBE represses p5 transcription while the RBE in the TR activates p5. However, both the TR RBE and the p5 RBE transactivate the p19 and p40 promoters. The fact that the p5 RBE-Rep complex can transactivate p19 and p40 while repressing p5 suggests that Rep78/68 is both a repressor and a transactivator. Rep repression of p5 is specific for the p5 RBE, as other p5 promoter elements do not support this activity. We also demonstrate that in the presence of adenovirus, the p19 Rep proteins, which do not bind to the RBE, can eliminate repression of the p5 promoter by Rep78 and Rep68. This may occur by the association of Rep52 with Rep78 or Rep68 to produce a Rep78/68-Rep52 protein complex which can be detected in vivo by immunoprecipitation. Finally, two Rep mutants that were deficient in RBE binding and transactivation but positive for p5 repression were identified. These mutants may define interaction domains involved in making contacts with other proteins that facilitate repression. These observations suggest a mechanism for controlling the p5 and p19 mRNA levels during a productive AAV infection.

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In vitro replication of adeno-associated virus DNA

Zhou

McCarty

et al. 1994

J Virol

106

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The study of eukaryotic viral DNA replication in vitro has led to the identification of cellular enzymes involved in DNA replication. Adeno-associated virus (AAV) is distinct from previously reported systems in that it is believed to replicate entirely by leading-strand DNA synthesis and requires coinfection with adenovirus to establish completely permissive replication. In previous work, we demonstrated that two of the AAV nonstructural proteins, Rep78 and -68, are site-specific endonucleases and DNA helicases that are capable of resolving covalently closed AAV termini, a key step in AAV DNA replication. We have now cloned the AAV nonstructural proteins Rep78, Rep68, and Rep52 in the baculovirus expression system. Using the baculovirus-expressed proteins, we have developed an efficient in vitro AAV DNA replication system which mimics the in vivo behavior of AAV in every respect. With no-end AAV DNA as the starting substrate, the reaction required an adenovirus-infected cell extract and the presence of either Rep78 or Rep68. Rep52, as expected, did not support DNA replication. A mutant in the AAV terminal resolution site (trs) was defective for DNA replication in the in vitro assay. Little, if any, product was formed in the absence of the adenovirus-infected HeLa cell extract. In general, uninfected HeLa extracts were less efficient in supporting AAV DNA replication than adenovirus-infected extracts. Thus, the requirement for adenovirus infection in vivo was partially duplicated in vitro. The reduced ability of uninfected HeLa extracts to support complete DNA replication was not due to a defect in terminal resolution but rather to a defect in the reinitiation reaction or in elongation. Rep78 produced a characteristic monomer-dimer pattern of replicative intermediates, but surprisingly, Rep68 produced little, if any, dimer replicative form. The reaction had a significant lag (30 min) before incorporation of 32P-deoxynucleoside triphosphate could be detected in DpnI-resistant monomer replicative form and was linear for at least 4 h after the lag. The rate of incorporation in the reaction was comparable to that in the simian virus 40 in vitro system. Replication of the complete AAV DNA molecule was demonstrated by the following criteria. (i) Most of the monomer and dimer product DNAs were completely resistant to digestion with DpnI. (ii) Virtually all of the starting substrate was converted to heavy-light or heavy-heavy product DNA in the presence of bromo-dUTP when examined on CsCl density gradients.(ABSTRACT TRUNCATED AT 400 WORDS)

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Doug McCarty

Sequences required for coordinate induction of adeno-associated virus p19 and p40 promoters by Rep protein

Identification of linear DNA sequences that specifically bind the adeno-associated virus Rep protein

The adeno-associated virus (AAV) Rep protein acts as both a repressor and an activator to regulate AAV transcription during a productive infection

In vitro replication of adeno-associated virus DNA

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