2013
DOI: 10.1021/ja403585e
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Small, Highly Active DNAs That Hydrolyze DNA

Abstract: DNA phosphoester bonds are exceedingly resistant to hydrolysis in the absence of chemical or enzymatic catalysts. This property is particularly important for organisms with large genomes, as resistance to hydrolytic degradation permits the long-term storage of genetic information. Here we report the creation and analysis of two classes of engineered deoxyribozymes that selectively and rapidly hydrolyze DNA. Members of class I deoxyribozymes carry a catalytic core composed of only 15 conserved nucleotides and a… Show more

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Cited by 145 publications
(226 citation statements)
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“…These reactions include Cu 2+ -dependent oxidative cleavage [4648], Cu 2+ /Mn 2+ -dependent oxidative nucleoside excision [49,50], DNA phosphodiester hydrolysis [51,52], RNA hydrolysis (involving a water molecule, a normally disfavored reaction relative to RNA cleavage by the Figure 1 mechanism) [53], and deglycosylation with subsequent backbone cleavage [5456]. Oligonucleotide end modification has also been achieved by DNA 5′-phosphorylation (kinase activity) [57] and adenylylation (capping) [58] followed by ligation [59].…”
Section: Reaction Scope Of Catalysis By Dnamentioning
confidence: 99%
“…These reactions include Cu 2+ -dependent oxidative cleavage [4648], Cu 2+ /Mn 2+ -dependent oxidative nucleoside excision [49,50], DNA phosphodiester hydrolysis [51,52], RNA hydrolysis (involving a water molecule, a normally disfavored reaction relative to RNA cleavage by the Figure 1 mechanism) [53], and deglycosylation with subsequent backbone cleavage [5456]. Oligonucleotide end modification has also been achieved by DNA 5′-phosphorylation (kinase activity) [57] and adenylylation (capping) [58] followed by ligation [59].…”
Section: Reaction Scope Of Catalysis By Dnamentioning
confidence: 99%
“…Engineering deoxyribozymes that selectively cleave DNA is expected to be very challenging. The Silverman 13 and Breaker 14 groups conducted direct evolution experiments that have given rise to selective and rapid DNA-hydrolyzing deoxyribozymes. DNA cleavage by oxidative mechanisms has also been well-studied for its potential role in the pathophysiology of inflammation, cancer, and degenerative diseases.…”
Section: Introductionmentioning
confidence: 99%
“…[4c, 12] High-speed atomic force microscopy (AFM) measurements were recently implemented to probe DNAn anostructures and their reactivity at the single-molecule level. [18] We connected the DNAzyme to one supported dsDNAm olecule and the substrate to another, and subsequently incorporated them into the DNAorigami frame by using the four single-stranded DNAt ethers as linkers (Figure 1b). [17] Because the target DNAs trands are directly attached to the nanoscaffold, the DNAs tructural changes can be controlled in the nanospace by arranging the structures inside the DNAn anoscaffold.…”
mentioning
confidence: 99%
“…Fort he observation of substrate cleavage by the DNAzyme,w e introduced the DNAzyme and substrate between two doublestranded DNAm olecules (dsDNAs) in aD NA frame ( Figure 1). [18] We connected the DNAzyme to one supported dsDNAm olecule and the substrate to another, and subsequently incorporated them into the DNAorigami frame by using the four single-stranded DNAt ethers as linkers (Figure 1b). [18] We connected the DNAzyme to one supported dsDNAm olecule and the substrate to another, and subsequently incorporated them into the DNAorigami frame by using the four single-stranded DNAt ethers as linkers (Figure 1b).…”
mentioning
confidence: 99%