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2-Aminopurine fluorescence quenching and lifetimes: Role of base stacking
J. M. Jean,
K. B. Hall
Department of Biochemistry & Molecular Biophysics
Roy and Diana Vagelos Division of Biology & Biomedical Sciences (DBBS)
Research output
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Contribution to journal
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Article
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peer-review
337
Scopus citations
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Keyphrases
Fluorescence Quenching
100%
Fluorescence Lifetime
100%
Base Stacking
100%
2-Aminopurine
100%
2-aminopurine Fluorescence
100%
Adenosine
66%
Guanosine
66%
Thymine
33%
Molecular Orbital
33%
Quantum Yield
33%
Dinucleotide
33%
Pyrimidine
33%
Nucleic Acids
33%
Spectral Features
33%
Fluorescent Analog
33%
Excited States
33%
Purine
33%
Cytosine
33%
Excited-state Properties
33%
Low-lying
33%
Time-dependent Density Functional Theory
33%
Context Dependence
33%
B-type
33%
Nucleic Acid Structure
33%
Quenching Mechanism
33%
Lifetime Yield
33%
Nucleic Acid Dynamics
33%
Biochemistry, Genetics and Molecular Biology
Lifespan
100%
Quenching (Fluorescence)
100%
2-Aminopurine
100%
Adenosine
33%
Guanosine
33%
Dynamics
16%
Nucleic Acid
16%
Quantum Yield
16%
Nucleic Acid Structure
16%
Cytosine
16%
Thymine
16%
Chemistry
Nucleic Acid Structure
16%