Abstract
Replication of simian virus 40 (SV40) DNA is dependent upon the binding of the viral T-antigen to the SV40 origin of replication. Structural changes in the origin of replication induced by binding of T-antigen were probed by chemical modifications of the DNA. In the presence of ATP, T-antigen rendered two of three domains in the SV40 core origin hypersensitive to attack by either dimethyl sulfate or potassium permanganate (KMnO4). One of these domains, the early palindrome, was shown to contain an 8-bp region of melted DNA as determined from methylation of cytosine residues and by nuclease S1 cleavage of methylated DNA. DNA melting was not dependent upon either the hydrolysis of ATP or the binding of T-antigen to an adjacent site (site I). A second domain, the A/T element, was extensively modified by KMnO4 but no significant melting was detected. Rather, the pattern of modification indicates that T-antigen caused a conformational change of the double-stranded DNA in this region. These results suggest that T-antigen, in the presence of ATP, destabilizes the SV40 origin by melting and structurally deforming two flanking regions within the core origin sequence. These DNA structural changes may provide access to other replication factors, allowing complete denaturation of the SV40 origin and the initiation of SV40 DNA replication.
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