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Dissecting metal ion-dependent folding and catalysis of a single DNAzyme.


ABSTRACT: Protein metalloenzymes use various modes for functions for which metal-dependent global conformational change is required in some cases but not in others. In contrast, most ribozymes require a global folding that almost always precedes enzyme reactions. Herein we studied metal-dependent folding and cleavage activity of the 8-17 DNAzyme using single-molecule fluorescence resonance energy transfer. Addition of Zn2+ and Mg2+ induced folding of the DNAzyme into a more compact structure followed by a cleavage reaction, which suggests that the DNAzyme may require metal-dependent global folding for activation. In the presence of Pb2+, however, the cleavage reaction occurred without a precedent folding step, which suggests that the DNAzyme may be prearranged to accept Pb2+ for the activity. Neither ligation reaction of the cleaved substrates nor dynamic changes between folded and unfolded states was observed. These features may contribute to the unusually fast Pb2+-dependent reaction of the DNAzyme. These results suggest that DNAzymes can use all modes of activation that metalloproteins use.

SUBMITTER: Kim HK 

PROVIDER: S-EPMC4376948 | biostudies-literature | 2007 Dec

REPOSITORIES: biostudies-literature

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Dissecting metal ion-dependent folding and catalysis of a single DNAzyme.

Kim Hee-Kyung HK   Rasnik Ivan I   Liu Juewen J   Ha Taekjip T   Lu Yi Y  

Nature chemical biology 20071028 12


Protein metalloenzymes use various modes for functions for which metal-dependent global conformational change is required in some cases but not in others. In contrast, most ribozymes require a global folding that almost always precedes enzyme reactions. Herein we studied metal-dependent folding and cleavage activity of the 8-17 DNAzyme using single-molecule fluorescence resonance energy transfer. Addition of Zn2+ and Mg2+ induced folding of the DNAzyme into a more compact structure followed by a  ...[more]

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