Igor A Yaroshevich1, Eugene G Maksimov2,3, Nikolai N Sluchanko4, Dmitry V Zlenko1, Alexey V Stepanov5, Ekaterina A Slutskaya1,5, Yury B Slonimskiy1,4, Viacheslav S Botnarevskii1,4, Alina Remeeva6, Ivan Gushchin6, Kirill Kovalev6,7,8,9,10, Valentin I Gordeliy6,7,8,9, Ivan V Shelaev11, Fedor E Gostev11, Dmitry Khakhulin12, Vladimir V Poddubnyy13, Timofey S Gostev1, Dmitry A Cherepanov11,14, Tomáš Polívka15, Miroslav Kloz16, Thomas Friedrich17, Vladimir Z Paschenko1, Victor A Nadtochenko11, Andrew B Rubin1, Mikhail P Kirpichnikov1,5. 1. Faculty of Biology, M.V. Lomonosov Moscow State University, Moscow, Russia. 2. Faculty of Biology, M.V. Lomonosov Moscow State University, Moscow, Russia. emaksimoff@yandex.ru. 3. A.N. Bach Institute of Biochemistry, Federal Research Center of Biotechnology of the Russian Academy of Sciences, Moscow, Russia. emaksimoff@yandex.ru. 4. A.N. Bach Institute of Biochemistry, Federal Research Center of Biotechnology of the Russian Academy of Sciences, Moscow, Russia. 5. M.M. Shemyakin and Yu.A. Ovchinnikov Institute of Bioorganic Chemistry, Russian Academy of Sciences, Moscow, Russia. 6. Research Center for Molecular Mechanisms of Aging and Age-Related Diseases, Moscow Institute of Physics and Technology, Dolgoprudny, Russia. 7. Institut de Biologie Structurale J.-P. Ebel, Université Grenoble Alpes-CEA-CNRS, Grenoble, France. 8. Institute of Biological Information Processing (IBI-7: Structural Biochemistry), Forschungszentrum Jülich, Jülich, Germany. 9. JuStruct: Jülich Center for Structural Biology, Forschungszentrum Jülich, Jülich, Germany. 10. Institute of Crystallography, RWTH Aachen University, Aachen, Germany. 11. N.N. Semenov Federal Research Center for Chemical Physics, Russian Academy of Sciences, Moscow, Russia. 12. European XFEL GmbH, Schenefeld, Germany. 13. Chemistry department, M.V. Lomonosov Moscow State University, Moscow, Russia. 14. A.N. Belozersky Institute of Physical-Chemical Biology, Moscow State University, Moscow, Russia. 15. Institute of Physics, Faculty of Science, University of South Bohemia, České Budějovice, Czech Republic. 16. ELI-Beamlines, Institute of Physics, Praha, Czech Republic. 17. Technische Universität Berlin, Institute of Chemistry PC14, Berlin, Germany.
Abstract
Here, we propose a possible photoactivation mechanism of a 35-kDa blue light-triggered photoreceptor, the Orange Carotenoid Protein (OCP), suggesting that the reaction involves the transient formation of a protonated ketocarotenoid (oxocarbenium cation) state. Taking advantage of engineering an OCP variant carrying the Y201W mutation, which shows superior spectroscopic and structural properties, it is shown that the presence of Trp201 augments the impact of one critical H-bond between the ketocarotenoid and the protein. This confers an unprecedented homogeneity of the dark-adapted OCP state and substantially increases the yield of the excited photoproduct S*, which is important for the productive photocycle to proceed. A 1.37 Å crystal structure of OCP Y201W combined with femtosecond time-resolved absorption spectroscopy, kinetic analysis, and deconvolution of the spectral intermediates, as well as extensive quantum chemical calculations incorporating the effect of the local electric field, highlighted the role of charge-transfer states during OCP photoconversion.
Here, we propose a possible photoactivation mechanism of a 35-kDa blue light-triggered photoreceptor, the Orange Carotenoid Protein (pan class="Chemical">OCP), suggesting that the reaction involves the transient formation of a protonated ketocarotenoid (oxocarbenium cation) state. Taking advantage of engineering an OCP variant carrying the Y201W mutation, which shows superior spectroscopic and structural properties, it is shown that the presence of Trp201 augments the impact of one critical H-bond between the ketocarotenoid and the protein. This confers an unprecedented homogeneity of the dark-adapted OCP state and substantially increases the yield of the excited photoproduct S*, which is important for the productive photocycle to proceed. A 1.37 Å crystal structure of OCPY201W combined with femtosecond time-resolved absorption spectroscopy, kinetic analysis, and deconvolution of the spectral intermediates, as well as extensive quantum chemical calculations incorporating the effect of the local electric field, highlighted the role of charge-transfer states during OCP photoconversion.
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