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Volumn 131, Issue 49, 2009, Pages 17742-17743
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Efficient recognition of an unpaired lesion by a DNA repair glycosylase
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Author keywords
[No Author keywords available]
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Indexed keywords
BASE EXCISION REPAIRS;
BASE PAIRING;
BIOLOGICAL TARGETS;
CATALYTIC EFFICIENCIES;
CHEMICAL DAMAGES;
CHEMICAL EQUATIONS;
DEOXYINOSINE;
DNA DAMAGES;
DNA GLYCOSYLASE;
DNA REPAIR;
DUPLEX STABILITY;
DUPLEX STRUCTURES;
GAINING ACCESS;
GLYCOSIDIC BOND;
GLYCOSYLASE;
INVERSE CORRELATION;
LINEAR FREE-ENERGY RELATIONSHIPS;
NUCLEOBASES;
OXIDATIVE DEAMINATION;
AMINES;
CATALYSTS;
CHEMICAL REACTIONS;
DNA;
ENZYMES;
FREE ENERGY;
GENES;
OLIGONUCLEOTIDES;
REPAIR;
SLOPE STABILITY;
NUCLEIC ACIDS;
DNA GLYCOSYLTRANSFERASE;
ARTICLE;
CHEMICAL BOND;
CHEMICAL STRUCTURE;
CRYSTAL STRUCTURE;
DNA DAMAGE;
DNA REPAIR;
HUMAN;
HYDROLYSIS;
RECOGNITION;
DNA DAMAGE;
DNA GLYCOSYLASES;
DNA REPAIR;
HUMANS;
MODELS, MOLECULAR;
NUCLEIC ACID CONFORMATION;
NUCLEOTIDES;
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EID: 71749091666
PISSN: 00027863
EISSN: None
Source Type: Journal
DOI: 10.1021/ja908378y Document Type: Article |
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Times cited : (32)
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References (14)
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