| Literature DB >> 11606594 |
Meera Soundararajan1, Zhiyuh Chang, Richard D Morgan, Pauline Heslop, Bernard A Connolly.
Abstract
The type IIs restriction endonuclease MboII recognizes nonsymmetrical GAAGA sites, cutting 8 (top strand) and 7 (bottom strand) bases to the right. Gel retardation showed that MboII bound specifically to GAAGA sequences, producing two distinct complexes each containing one MboII and one DNA molecule. Interference analysis indicated that the initial species formed, named complex 1, comprised an interaction between the enzyme and the GAAGA target. Complex 2 involved interaction of the protein with both the GAAGA and the cutting sites. Only in the presence of divalent metal ions such as Ca(2+) is the conversion of complex 1 to 2 rapid. Additionally, a very retarded complex was seen with Ca(2+), possibly a (MboII)(2)-(DNA)(2) complex. Plasmids containing a single GAAGA site were hydrolyzed slowly by MboII. Plasmids containing two sites were cut far more rapidly, suggesting that the enzyme requires two recognition sites in the same DNA molecule for efficient hydrolysis. MboII appears to have a mechanism similar to the best characterized type IIs enzyme, FokI. Both enzymes initially bind DNA as monomers, followed by dimerization to give an (enzyme)(2)-(DNA)(2) complex. Dimerization is efficient only when the two target sites are located in the same DNA molecule and requires divalent metal ions.Entities:
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Year: 2001 PMID: 11606594 DOI: 10.1074/jbc.M109100200
Source DB: PubMed Journal: J Biol Chem ISSN: 0021-9258 Impact factor: 5.157