Sequence-dependent cleavage of mismatched DNA by Ban I restriction endonuclease.

Restriction enzymes have previously shown the ability to cleave DNA substrates with mismatched base(s) in recognition sequences; in this study, Ban I endonuclease demonstrated this same ability. Single base substitutions were introduced, and fragments containing various types of unpaired base(s) (heteroduplex fragments) within the Ban I endonuclease recognition sequence, 5′-G|GPyPuCC-3′, were generated. Each of the heteroduplex fragments was treated with Ban I endonuclease and analyzed by denaturing gradient gel electrophoresis. Our results showed that heteroduplex fragments containing mismatched bases at either the first or third position of the Ban I recognition sequence or, because of the symmetrical structure of the sequence, the sixth or fourth position on the opposite strand were cleaved by the enzyme. Furthermore, these cleaved fragments contained at least one strand corresponding to the original Ban I recognition sequence. Fragments with mismatches formed by an A ( noncanonical, nc) opposite a purine ( canonical, ca) or a T ( nc) opposite a pyrimidine ( ca) were cleaved more efficiently than other types of mismatched bases. These results may help elucidate the mechanisms by which DNA and protein interact during the process of DNA cleavage by Ban I endonuclease. [ABSTRACT FROM AUTHOR]