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Volumn 283, Issue 6, 2008, Pages 3537-3549
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Direct spectroscopic study of reconstituted transcription complexes reveals that intrinsic termination is driven primarily by thermodynamic destabilization of the nucleic acid framework
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Author keywords
[No Author keywords available]
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Indexed keywords
BINDING SITES;
BIOMOLECULES;
DICHROISM;
DNA;
ELECTRIC FIELD EFFECTS;
FUNCTIONAL POLYMERS;
GENES;
OPTICAL PROPERTIES;
ORGANIC ACIDS;
POLYMERS;
RNA;
SCAFFOLDS;
SPECTROSCOPIC ANALYSIS;
TRANSCRIPTION;
ACTIVE SITES;
AMINOPURINE;
BASE PAIRS;
COMPLEX DISSOCIATIONS;
DNA TRANSCRIPTIONS;
ELONGATION COMPLEXES;
FLUORESCENCE SPECTRUMS;
NUCLEIC ACID SCAFFOLDS;
RNA POLYMERASES;
SPECTROSCOPIC STUDIES;
TEMPLATE BASE;
TRANSCRIPTION COMPLEXES;
UV CIRCULAR DICHROISMS;
NUCLEIC ACIDS;
2 AMINOPURINE;
CYSTEINE;
GLYCINE;
RNA POLYMERASE;
SINGLE STRANDED RNA;
T7 RNA POLYMERASE;
UNCLASSIFIED DRUG;
BACTERIAL DNA;
BACTERIAL RNA;
BACTERIOPHAGE T7 RNA POLYMERASE;
DNA DIRECTED RNA POLYMERASE;
NUCLEIC ACID;
VIRUS PROTEIN;
ARTICLE;
BASE PAIRING;
CIRCULAR DICHROISM;
DNA RNA HYBRIDIZATION;
DNA TRANSCRIPTION;
ENZYME ACTIVE SITE;
FLUORESCENCE SPECTROSCOPY;
NUCLEOTIDE SEQUENCE;
PRIORITY JOURNAL;
RNA BINDING;
RNA STRUCTURE;
THERMODYNAMICS;
BINDING SITE;
BIOLOGICAL MODEL;
CHEMISTRY;
CONFORMATION;
ESCHERICHIA COLI;
GENETIC TRANSCRIPTION;
METABOLISM;
METHODOLOGY;
MOLECULAR GENETICS;
REGULATOR GENE;
SPECTROPHOTOMETRY;
BASE SEQUENCE;
BINDING SITES;
CIRCULAR DICHROISM;
DNA, BACTERIAL;
DNA-DIRECTED RNA POLYMERASES;
ESCHERICHIA COLI;
MODELS, GENETIC;
MOLECULAR SEQUENCE DATA;
NUCLEIC ACID CONFORMATION;
NUCLEIC ACIDS;
RNA, BACTERIAL;
SPECTROPHOTOMETRY;
TERMINATOR REGIONS (GENETICS);
THERMODYNAMICS;
TRANSCRIPTION, GENETIC;
VIRAL PROTEINS;
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EID: 41249091442
PISSN: 00219258
EISSN: 1083351X
Source Type: Journal
DOI: 10.1074/jbc.M707998200 Document Type: Article |
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Times cited : (26)
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References (31)
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