Transcription factors NFI and NFIII/oct-1 function independently, employing different mechanisms to enhance adenovirus DNA replication.

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J Virol. 1990 November; 64(11): 5510-5518

Transcription factors NFI and NFIII/oct-1 function independently, employing different mechanisms to enhance adenovirus DNA replication.

Y M Mul, C P Verrijzer and P C van der Vliet

Laboratory for Physiological Chemistry, University of Utrecht, The Netherlands.

ABSTRACT

Initiation of adenovirus DNA replication is strongly enhancedby two transcription factors, nuclear factor I (NFI) and nuclearfactor III (NFIII/oct-1). These proteins bind to two closelyspaced recognition sequences in the origin. We produced NFIand NFIII/oct-1, as well as their biologically active, replication-competentDNA-binding domains (NFI-BD and the POU domain), in a vacciniavirus expression system and purified these polypeptides to apparenthomogeneity. By DNase I footprinting and gel retardation, weshow that the two proteins, as well as their purified DNA-bindingdomains, bind independently and without cooperative effectsto their recognition sequences. By using a reconstituted systemconsisting of the purified viral proteins (precursor terminalprotein-DNA polymerase complex (pTP-pol) and DNA-binding protein,we show that NFIII/oct-1 or the POU domain stimulates DNA replicationin the absence of NFI or NFI-BD and vice versa. When added together,the enhancing effect of the two transcription factors was independentand nonsynergistic. Interestingly, stimulation by NFI or NFI-BDwas strongly dependent on the concentration of the pTP-pol complex.At low pTP-pol concentrations, NFI or NFI-BD stimulated up to50-fold, while at high concentrations, the stimulation was lessthan twofold, indicating that the need for NFI can be overcomeby high pTP-pol concentrations. In contrast, stimulation byNFIII/oct-1 or the POU domain was much less dependent on thepTP-pol concentration. These data support a model in which NFIenhances initiation through an interaction with pTP-pol. Glutaraldehydecross-linking experiments indicate contacts between pTP-poland NFI but not NFIII/oct-1. The site of interaction is locatedin the NFI-BD domain.

J Virol. 1990 November; 64(11): 5510-5518

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