Singlet-triplet fission of carotenoid excitation in the purple phototrophic bacteria Thermochromatium tepidum
- Authors: Klenina I.B.1, Gryaznov A.A.1, Makhneva Z.K.1, Proskuryakov I.I.1
-
Affiliations:
- Institute of Basic Biological Problems of the Russian Academy of Sciences
- Issue: Vol 485, No 4 (2019)
- Pages: 511-514
- Section: Biochemistry, biophysics, molecular biology
- URL: https://journals.eco-vector.com/0869-5652/article/view/14264
- DOI: https://doi.org/10.31857/S0869-56524854511-514
- ID: 14264
Cite item
Full Text
Abstract
Confirmation of intermolecular mechanism of excitation fission involving two carotenoid molecules in the purple phototrophic bacteria Thermochromatium tepidum is obtained.
About the authors
I. B. Klenina
Institute of Basic Biological Problems of the Russian Academy of Sciences
Email: pros@isssp.serpukhov.su
Russian Federation, 2, Institutskaya street, Pushchino, Moscow Region, 142290
A. A. Gryaznov
Institute of Basic Biological Problems of the Russian Academy of Sciences
Email: pros@isssp.serpukhov.su
Russian Federation, 2, Institutskaya street, Pushchino, Moscow Region, 142290
Z. K. Makhneva
Institute of Basic Biological Problems of the Russian Academy of Sciences
Email: pros@isssp.serpukhov.su
Russian Federation, 2, Institutskaya street, Pushchino, Moscow Region, 142290
I. I. Proskuryakov
Institute of Basic Biological Problems of the Russian Academy of Sciences
Author for correspondence.
Email: pros@isssp.serpukhov.su
Russian Federation, 2, Institutskaya street, Pushchino, Moscow Region, 142290
References
- Hashimoto H., Sugai Y., Uragami C., Gardiner A. T., Cogdell R. J. // J. Photochem. Photobiol. C. 2015. V. 25. P. 46-70.
- Frank H. A., Cogdell R. J. The Photochemistry and Function of Carotenoids in Photosynthesis. In: Caro-tenoids in Photosynthesis. B.: Springer-Science, 1993. Ch. 8. P. 252-326.
- Smith M. B., Michl J. // Chem. Rev. 2010. V. 110. P. 6891-6936.
- Gradinaru C. C., Kennis J. T.M., Papagiannakis E., van Stokkum I. H.M., Cogdell R. J., Fleming G. R., Niederman R. A., van Grondelle R. // Proc. Nat. Acad. Sci. USA. 2001. V. 98. P. 2364-2369.
- Кленина И. Б., Махнева З. К., Москаленко А. А., Проскуряков И. И. // ДАН. 2011. Т. 441. № 6. С. 833-836. 6. Yu J., Fu L.-M., Yu L.-J., Shi Y., Wang P., Wang-Otomo Z.-Y., Zhang J.-P. // J. Amer. Chem. Soc. 2017. V. 139. P. 15 984-15 993.
- Кленина И. Б., Махнева З. К., Москаленко А. А., Кузьмин А. Н., Проскуряков И. И. // Биофизика. 2013. Т. 58. № 1. С. 54-63.
- Ashikhmin A., Makhneva Z., Moskalenko A. // Photosynth. Res. 2014. V. 119. P. 291-303.
- Angerhofer A., Bornhauser F., Gall A., Cogdell R. J. // Chem. Phys. 1995. V. 194. P. 259-274.
- Swenberg C. E., Geacintov N. E. Exciton Interactions in Organic Solids. In: Organic Molecular Photophysics. L.: Wiley, 1973. V. 1. P. 489-564.
- Niedzwiedzki D. M., Kobayashi M., Blankenship R. E. // Photosynth. Res. 2011. V. 107. P. 177-186.
- Rademaker H., Hoff A. J., van Grondelle R., Duysens L. N.M. // Biochim. et Biophys. Acta. 1980. V. 592. P. 240-257.
- Кленина И. Б., Махнева З. К., Москаленко А. А., Гудков Н. Д., Большаков М. А., Павлова Е. А., Проскуряков И. И. // Биохимия. 2014. Т. 79. № 3. С. 310-317.