TY - JOUR
T1 - Spectroscopic and Theoretical Study on Electronically Modified Chromophores in LOV Domains
T2 - 8-Bromo- and 8-Trifluoromethyl-Substituted Flavins
AU - Mansurova, Madina
AU - Simon, Julian
AU - Salzmann, Susanne
AU - Marian, Christel M.
AU - Gärtner, Wolfgang
PY - 2013/3
Y1 - 2013/3
N2 - Two chemically synthesized flavin derivatives, 8-trifluoromethyl- and 8-bromoriboflavin (8-CF3RF and 8-BrRF), were photochemically characterized in H2O and studied spectroscopically after incorporation into the LOV domain of the blue light photoreceptor YtvA from Bacillus subtilis. The spectroscopic studies were paralleled by high-level quantum chemical calculations. In solution, 8-BrRF showed a remarkably high triplet quantum yield (0.97, parent compound riboflavin, RF: 0.6) and a small fluorescence quantum yield (0.07, RF: 0.27). For 8-CF3RF, the triplet yield was 0.12, and the fluorescence quantum yield was 0.7. The high triplet yield of 8-BrRF is due to the bromine heavy atom effect causing a stronger spin-orbit coupling. Theoretical calculations reveal that the decreased triplet yield of 8-CF3RF is due to a smaller charge transfer and a less favorable energetic position of T2, required for intersystem crossing from S1 to T1, as an effect of the electron-withdrawing CF3 group. The reconstitution of the LOV domain with the new flavins resulted in the typical LOV photochemistry, consisting of triplet state formation and covalent binding of the chromophore, followed by a thermal recovery of the parent state, albeit with different kinetics and photophysical properties. Vision in blue: Flavin derivatives, substituted at position 8 (R=bromo-, trifluoromethyl-) were synthesized and incorporated as chromophores into the blue-light-sensing LOV domain of YtvA from Bacillus subtilis. The resultant strong change in electronegativity significantly modifies the electronic and functional properties of the reconstituted LOV domains.
AB - Two chemically synthesized flavin derivatives, 8-trifluoromethyl- and 8-bromoriboflavin (8-CF3RF and 8-BrRF), were photochemically characterized in H2O and studied spectroscopically after incorporation into the LOV domain of the blue light photoreceptor YtvA from Bacillus subtilis. The spectroscopic studies were paralleled by high-level quantum chemical calculations. In solution, 8-BrRF showed a remarkably high triplet quantum yield (0.97, parent compound riboflavin, RF: 0.6) and a small fluorescence quantum yield (0.07, RF: 0.27). For 8-CF3RF, the triplet yield was 0.12, and the fluorescence quantum yield was 0.7. The high triplet yield of 8-BrRF is due to the bromine heavy atom effect causing a stronger spin-orbit coupling. Theoretical calculations reveal that the decreased triplet yield of 8-CF3RF is due to a smaller charge transfer and a less favorable energetic position of T2, required for intersystem crossing from S1 to T1, as an effect of the electron-withdrawing CF3 group. The reconstitution of the LOV domain with the new flavins resulted in the typical LOV photochemistry, consisting of triplet state formation and covalent binding of the chromophore, followed by a thermal recovery of the parent state, albeit with different kinetics and photophysical properties. Vision in blue: Flavin derivatives, substituted at position 8 (R=bromo-, trifluoromethyl-) were synthesized and incorporated as chromophores into the blue-light-sensing LOV domain of YtvA from Bacillus subtilis. The resultant strong change in electronegativity significantly modifies the electronic and functional properties of the reconstituted LOV domains.
KW - Chromophore-protein interactions
KW - Flavins
KW - Photophysics
KW - Photoreceptors
KW - QM/MM calculations
UR - http://www.scopus.com/inward/record.url?scp=84874976679&partnerID=8YFLogxK
U2 - 10.1002/cbic.201200670
DO - 10.1002/cbic.201200670
M3 - Article
C2 - 23456923
AN - SCOPUS:84874976679
SN - 1439-4227
VL - 14
SP - 645
EP - 654
JO - ChemBioChem
JF - ChemBioChem
IS - 5
ER -