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Volumn 135, Issue 6, 2013, Pages 2072-2075
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DNAzyme footprinting: Detecting protein-aptamer complexation on surfaces by blocking DNAzyme cleavage activity
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Author keywords
[No Author keywords available]
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Indexed keywords
AMPLIFICATION SCHEME;
APTAMER SEQUENCES;
APTAMERS;
BINDING STRENGTH;
CLEAVAGE ACTIVITIES;
COMPLEX FORMATIONS;
DNAZYME;
FOOTPRINTING;
G-QUARTET;
PROTEIN-DNA INTERACTIONS;
RNA DETECTION;
RNA TRANSCRIPTION;
SINGLE-STRANDED DNA;
SPR IMAGING;
SSDNA APTAMER;
DNA;
ENZYMES;
MONOLAYERS;
RNA;
SURFACE REACTIONS;
TRANSCRIPTION;
PROTEINS;
ADAPTOR PROTEIN;
APTAMER;
NANOPARTICLE;
NUCLEIC ACID;
PROTEIN APTAMER COMPLEX;
SINGLE STRANDED DNA;
THROMBIN;
THROMBIN APTAMER COMPLEX;
UNCLASSIFIED DRUG;
ARTICLE;
COMPLEX FORMATION;
CONTROLLED STUDY;
DNA FOOTPRINTING;
DNA SEQUENCE;
ENZYME ACTIVITY;
ENZYME ANALYSIS;
ENZYME BINDING;
ENZYME INHIBITION;
ENZYME SPECIFICITY;
GENE AMPLIFICATION;
HYDROLYSIS;
PROTEIN ANALYSIS;
PROTEIN CLEAVAGE;
PROTEIN DNA INTERACTION;
RNA ANALYSIS;
RNA TRANSCRIPTION;
SURFACE PLASMON RESONANCE;
SURFACE PROPERTY;
APTAMERS, NUCLEOTIDE;
DNA, CATALYTIC;
DNA, SINGLE-STRANDED;
HYDROLYSIS;
SURFACE PROPERTIES;
THERMODYNAMICS;
THROMBIN;
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EID: 84873634307
PISSN: 00027863
EISSN: 15205126
Source Type: Journal
DOI: 10.1021/ja311367t Document Type: Article |
Times cited : (35)
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References (22)
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