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Coelenterazine-dependent luciferases / S. V. Markova, E. S. Vysotski // Biochemistry Moscow. - 2015. - Vol. 80, Is. 6. - P714-732, DOI 10.1134/S0006297915060073 . - ISSN 0006-2979
Кл.слова (ненормированные):
bioluminescence -- coelenterazine -- luciferase -- luciferin -- Coelenterata -- Cypridina luciferin -- Fungi -- Hexapoda -- Mollusca -- Protozoa
Аннотация: Bioluminescence is a widespread natural phenomenon. Luminous organisms are found among bacteria, fungi, protozoa, coelenterates, worms, molluscs, insects, and fish. Studies on bioluminescent systems of various organisms have revealed an interesting feature - the mechanisms underlying visible light emission are considerably different in representatives of different taxa despite the same final result of this biochemical process. Among the several substrates of bioluminescent reactions identified in marine luminous organisms, the most commonly used are imidazopyrazinone derivatives such as coelenterazine and Cypridina luciferin. Although the substrate used is the same, bioluminescent proteins that catalyze light emitting reactions in taxonomically remote luminous organisms do not show similarity either in amino acid sequences or in spatial structures. In this review, we consider luciferases of various luminous organisms that use coelenterazine or Cypridina luciferin as a substrate, as well as modifications of these proteins that improve their physicochemical and bioluminescent properties and therefore their applicability in bioluminescence imaging in vivo. © 2015 Pleiades Publishing, Ltd.

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Держатели документа:
Institute of Biophysics, Siberian Branch of the Russian Academy of Sciences, Krasnoyarsk, Russian Federation

Доп.точки доступа:
Markova, S.V.; Vysotski, E.S.

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Crystal structures of the F88Y obelin mutant before and after bioluminescence provide molecular insight into spectral tuning among hydromedusan photoproteins / P. V. Natashin [et al.] // FEBS J. - 2014. - Vol. 281, Is. 5. - P1432-1445, DOI 10.1111/febs.12715 . - ISSN 1742-4658
Кл.слова (ненормированные):
aequorin -- bioluminescence -- coelenterazine, obelin -- 6 (4 hydroxyphenyl) derivative -- aequorin -- benzene derivative -- calcium ion -- hydromedusan -- mutant protein -- obelin -- oxygen -- photoprotein -- unclassified drug -- amino acid substitution -- article -- bioluminescence -- calcium transport -- crystal structure -- fluorescence -- hydrogen bond -- priority journal -- protein conformation -- protein structure -- wild type -- Coelenterata -- aequorin -- bioluminescence -- Ca2+-regulated photoprotein -- coelenterazine, obelin -- Amino Acid Substitution -- Animals -- Conserved Sequence -- Crystallography, X-Ray -- Hydrogen Bonding -- Hydrozoa -- Luminescent Proteins -- Models, Molecular -- Mutagenesis, Site-Directed -- Mutant Proteins -- Protein Conformation -- Spectrophotometry
Аннотация: Ca2+-regulated photoproteins are responsible for the bioluminescence of a variety of marine coelenterates. All hydromedusan photoproteins are a single-chain polypeptide to which 2- hydroperoxycoelenterazine is tightly but non-covalently bound. Bioluminescence results from oxidative decarboxylation of 2-hydroperoxycoelenterazine, generating protein-bound coelenteramide in an excited state. The bioluminescence spectral maxima of recombinant photoproteins vary in the range 462-495 nm, despite a high degree of identity of amino acid sequences and spatial structures of these photoproteins. Based on studies of obelin and aequorin mutants with substitution of Phe to Tyr and Tyr to Phe, respectively [Stepanyuk GA et al. (2005) FEBS Lett 579, 1008-1014], it was suggested that the spectral differences may be accounted for by an additional hydrogen bond between the hydroxyl group of a Tyr residue and an oxygen atom of the 6-(p-hydroxyphenyl) substituent of coelenterazine. Here, we report the crystal structures of two conformation states of the F88Y obelin mutant that has bioluminescence and product fluorescence spectra resembling those of aequorin. Comparison of spatial structures of the F88Y obelin conformation states with those of wild-type obelin clearly shows that substitution of Phe to Tyr does not affect the overall structures of either F88Y obelin or its product following Ca2+ discharge, compared to the conformation states of wild-type obelin. The hydrogen bond network in F88Y obelin being due to the Tyr substitution clearly supports the suggestion that different hydrogen bond patterns near the oxygen of the 6-(p-hydroxyphenyl) substituent are the basis for spectral modifications between hydromedusan photoproteins. Comparison of spatial structures and the hydrogen bond network formed into the substrate-binding cavity of WT obelin, F88Y obelin, and aequorin clearly shows that the main cause determining different light emission colors of hydromedusan photoproteins is a different arrangement of the hydrogen-bond network near OH group of 6-(p-hydroxyphenyl) substituent of coelenterazine due to the presence of either Phe or Tyr residue. © 2014 FEBS.

Scopus
Держатели документа:
National Laboratory of Biomacromolecules, Institute of Biophysics, Chinese Academy of Sciences, Beijing 100101, China
Institute of Biophysics, Russian Academy of Sciences, Siberian Branch, Akademgorodok 50, Krasnoyarsk 660036, Russian Federation
Laboratory of Bioluminescence Biotechnology, Institute of Fundamental Biology and Biotechnology, Siberian Federal University, Russian Federation
Department of Biochemistry and Molecular Biology, University of Georgia, Athens, GA, United States
IHuman Institute, ShanghaiTech University, Shanghai, China : 660036, Красноярск, Академгородок, д. 50, стр. 50

Доп.точки доступа:
Natashin, P.V.; Markova, S.V.; Lee, J.; Vysotski, E.S.; Liu, Z.-J.

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