1. Isotopic substitution affects excited state branching in a DNA duplex in aqueous solution
- Author
-
Yuyuan Zhang, Forrest R. Kohl, Kimberly de La Harpe, and Bern Kohler
- Subjects
inorganic chemicals ,Models, Molecular ,Dna duplex ,Base pair ,010402 general chemistry ,Branching (polymer chemistry) ,01 natural sciences ,Catalysis ,Materials Chemistry ,A-DNA ,Deuterium Oxide ,Base Pairing ,Aqueous solution ,Base Sequence ,010405 organic chemistry ,Chemistry ,Metals and Alloys ,General Chemistry ,DNA ,0104 chemical sciences ,Surfaces, Coatings and Films ,Electronic, Optical and Magnetic Materials ,Solvent ,Solutions ,Chemical physics ,Duplex (building) ,Excited state ,Ceramics and Composites ,Solvents ,Quantum Theory - Abstract
Changing the solvent from H2O to D2O dramatically affects the branching of the initial excited electronic states in an alternating G·C DNA duplex into two distinct decay channels. The slower, multisite PCET channel that deactivates more than half of all excited states in D2O becomes six times weaker in H2O.
- Published
- 2019