Abstract

Previous work has demonstrated the existence of both resistant and cleavable NaeI sites. Cleavable sites introduced on exogenous DNA can act in trans to increase the catalysis of NaeI endonuclease cleavage at resistant sites without affecting the apparent binding affinity of the enzyme for the resistant site [Conrad, M., & Topal, M. D. (1989) Proc. Natl. Acad. Sci. U.S.A. 86, 9707-9711]. This activation suggests allosteric regulation of NaeI cleavage by distant cis- and trans-acting sites in DNAs containing both resistant and cleavable sites. Plasmid pBR322 contains four NaeI sites, at least one of which is resistant to cleavage. Electron microscopy is used here to demonstrate that NaeI endonuclease simultaneously binds to multiple recognition sites in pBR322 DNA to form loops with NaeI protein bound at the loop's base. The maximum number of loops formed with a common base suggests four binding sites per enzyme molecule. Looping was inhibited by addition of enzyme-saturating amounts of double-stranded oligonucleotide containing an NaeI site, whereas another double-strand oligonucleotide without the NaeI site had no effect. The number of loops seen was not above background when double-stranded M13 DNA, which contains only a single NaeI recognition site, was used as substrate.

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