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Volumn 21, Issue 15, 2002, Pages 3960-3969
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Evolutionary domain fusion expanded the substrate specificity of the transmembrane electron transporter DsbD
a a a a |
Author keywords
CcdA; Disulfide bond; DsbD; Protein evolution; Transmembrane electron transporter
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Indexed keywords
CYTOCHROME C;
DISULFIDE;
ISOMERASE;
MEMBRANE PROTEIN;
PROTEIN CCDA;
PROTEIN DSBD;
THIOL DERIVATIVE;
UNCLASSIFIED DRUG;
ANIMAL CELL;
ARTICLE;
CATALYSIS;
CYTOPLASM;
DISULFIDE BOND;
ELECTRON TRANSPORT;
ENZYME SPECIFICITY;
ESCHERICHIA COLI;
GENETIC COMPLEMENTATION;
HYDROPHOBICITY;
MEMBRANE BINDING;
MOLECULAR EVOLUTION;
MOLECULAR INTERACTION;
NONHUMAN;
NUCLEOTIDE SEQUENCE;
OXIDATION REDUCTION REACTION;
PRIORITY JOURNAL;
PROTEIN DOMAIN;
RHODOBACTER CAPSULATUS;
SPECIES IDENTIFICATION;
BACTERIAL PROTEINS;
CYTOCHROME C GROUP;
ELECTRON TRANSPORT;
ESCHERICHIA COLI;
ESCHERICHIA COLI PROTEINS;
EVOLUTION, MOLECULAR;
GENES, SYNTHETIC;
MODELS, MOLECULAR;
OXIDATION-REDUCTION;
PHYLOGENY;
PROTEIN DISULFIDE-ISOMERASE;
PROTEIN STRUCTURE, TERTIARY;
RECOMBINANT FUSION PROTEINS;
RHODOBACTER CAPSULATUS;
SPECIES SPECIFICITY;
STRUCTURE-ACTIVITY RELATIONSHIP;
SUBSTRATE SPECIFICITY;
SULFHYDRYL COMPOUNDS;
ANIMALIA;
BACTERIA (MICROORGANISMS);
ESCHERICHIA COLI;
NEGIBACTERIA;
RHODOBACTER;
RHODOBACTER CAPSULATUS;
RHODOPSEUDOMONAS;
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EID: 0036682611
PISSN: 02614189
EISSN: None
Source Type: Journal
DOI: 10.1093/emboj/cdf405 Document Type: Article |
Times cited : (77)
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References (49)
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