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Literature DB >> 16628220

Nucleotide flips determine the specificity of the Ecl18kI restriction endonuclease.

Matthias Bochtler¹, Roman H Szczepanowski, Gintautas Tamulaitis, Saulius Grazulis, Honorata Czapinska, Elena Manakova, Virginijus Siksnys.

Abstract

Restricion endonuclease Ecl18kI is specific for the sequence /CCNGG and cleaves it before the outer C to generate 5 nt 5'-overhangs. It has been suggested that Ecl18kI is evolutionarily related to NgoMIV, a 6-bp cutter that cleaves the sequence G/CCGGC and leaves 4 nt 5'-overhangs. Here, we report the crystal structure of the Ecl18kI-DNA complex at 1.7 A resolution and compare it with the known structure of the NgoMIV-DNA complex. We find that Ecl18kI flips both central nucleotides within the CCNGG sequence and buries the extruded bases in pockets within the protein. Nucleotide flipping disrupts Watson-Crick base pairing, induces a kink in the DNA and shifts the DNA register by 1 bp, making the distances between scissile phosphates in the Ecl18kI and NgoMIV cocrystal structures nearly identical. Therefore, the two enzymes can use a conserved DNA recognition module, yet recognize different sequences, and form superimposable dimers, yet generate different cleavage patterns. Hence, Ecl18kI is the first example of a restriction endonuclease that flips nucleotides to achieve specificity for its recognition site.

Entities: Chemical

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Year: 2006 PMID： 16628220 PMCID： PMC1462983 DOI： 10.1038/sj.emboj.7601096

Source DB: PubMed Journal: EMBO J ISSN： 0261-4189 Impact factor: 11.598

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