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Rational evolution of Cd2+-specific DNAzymes with phosphorothioate modified cleavage junction and Cd2+ sensing.


ABSTRACT: In vitro selection of RNA-cleaving DNAzymes is a powerful method for isolating metal-specific DNA. A few successful examples are known, but it is still difficult to target some thiophilic metals such as Cd(2+) due to limited functional groups in DNA. While using modified bases expands the chemical functionality of DNA, a single phosphorothioate modification might boost its affinity for thiophilic metals without complicating the selection process or using bases that are not commercially available. In this work, the first such in vitro selection for Cd(2+) is reported. After using a blocking DNA and negative selections to rationally direct the library outcome, a highly specific DNAzyme with only 12 nucleotides in the catalytic loop is isolated. This DNAzyme has a cleavage rate of 0.12 min(-1) with 10 ?M Cd(2+) at pH 6.0. The Rp form of the substrate is cleaved ?100-fold faster than the Sp form. The DNAzyme is most active with Cd(2+) and its selectivity against Zn(2+) is over 100 000-fold. Its application in detecting Cd(2+) is also demonstrated. The idea of introducing single modifications in the fixed region expands the scope of DNA/metal interactions with minimal perturbation of DNA structure and property.

SUBMITTER: Huang PJ 

PROVIDER: S-EPMC4499143 | biostudies-literature | 2015 Jul

REPOSITORIES: biostudies-literature

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Rational evolution of Cd2+-specific DNAzymes with phosphorothioate modified cleavage junction and Cd2+ sensing.

Huang Po-Jung Jimmy PJ   Liu Juewen J  

Nucleic acids research 20150518 12


In vitro selection of RNA-cleaving DNAzymes is a powerful method for isolating metal-specific DNA. A few successful examples are known, but it is still difficult to target some thiophilic metals such as Cd(2+) due to limited functional groups in DNA. While using modified bases expands the chemical functionality of DNA, a single phosphorothioate modification might boost its affinity for thiophilic metals without complicating the selection process or using bases that are not commercially available  ...[more]

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