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Volumn 285, Issue 27, 2010, Pages 20558-20563
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A single residue switch for Mg2+-dependent inhibition characterizes plant class II diterpene cyclases from primary and secondary metabolism
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Author keywords
[No Author keywords available]
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Indexed keywords
A-CARBON;
ASPARTIC ACIDS;
CATALYTIC ACIDS;
CLASS II;
COFACTORS;
COUNTERIONS;
CYCLASES;
CYCLOISOMERIZATION REACTIONS;
DITERPENE CYCLASES;
DITERPENES;
GIBBERELLIN BIOSYNTHESIS;
LARGE CLASS;
NATURAL PRODUCTS;
PLANT CLASS;
PLANT HORMONE;
REGULATORY MECHANISM;
SECONDARY METABOLISM;
SINGLE RESIDUE;
AMINO ACIDS;
BIOCHEMISTRY;
BIOSYNTHESIS;
CATALYSTS;
ENZYMES;
HORMONES;
METABOLISM;
OLEFINS;
ORGANIC ACIDS;
PHOSPHATASES;
ENZYME INHIBITION;
ASPARTIC ACID;
DITERPENE CYCLASE;
GIBBERELLIN;
HISTIDINE;
LYASE;
MAGNESIUM ION;
UNCLASSIFIED DRUG;
ARTICLE;
BINDING AFFINITY;
CATALYSIS;
CHEMICAL BOND;
CONTROLLED STUDY;
ENZYME BINDING;
ENZYME INHIBITION;
ENZYME MECHANISM;
ENZYME REGULATION;
ENZYME STRUCTURE;
HORMONE METABOLISM;
HORMONE SYNTHESIS;
PRIORITY JOURNAL;
PROTON TRANSPORT;
REGULATORY MECHANISM;
STRUCTURE ACTIVITY RELATION;
AMINO ACID SUBSTITUTION;
ARABIDOPSIS;
ARGININE;
DITERPENES;
HISTIDINE;
HYDROGEN BONDING;
KINETICS;
MAGNESIUM;
MODELS, MOLECULAR;
PHOSPHORUS-OXYGEN LYASES;
PLANT PROTEINS;
PLASTIDS;
POLYISOPRENYL PHOSPHATES;
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EID: 77954228505
PISSN: 00219258
EISSN: 1083351X
Source Type: Journal
DOI: 10.1074/jbc.M110.123307 Document Type: Article |
Times cited : (33)
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References (32)
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