Exploring Bioluminescence Function of the Ca<sup>2+</sup>‐regulated Photoproteins with Site‐directed Mutagenesis

Eremeeva, Elena V.; Vysotski, Eugene S.

doi:10.1111/php.12945

Cited by 16 publications

(23 citation statements)

References 91 publications

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“…is difficult to identify the protonation forms of three histidines (His16, His58 and His169 in aequorin; His22, His64 and His175 in obelin) involved in three key triads surrounding the substrate in cavity. Many site-directed mutagenesis experimental studies found that only the H169Q mutant of aequorin, in which His169 was replaced by glutamine, whose side chain has two protons, retained BL activity (23% of the wild-type protein BL) (36). This implies that His169 is protonated in aequorin.…”

Section: Methodsmentioning

confidence: 99%

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Luminescence Activity Decreases When v‐coelenterazine Replaces Coelenterazine in Calcium‐Regulated Photoprotein—A Theoretical and Experimental Study

Ding

Eremeeva

Vysotski

et al. 2020

Photochem & Photobiology

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Calcium‐regulated photoproteins are found in at least five phyla of organisms. The light emitted by those photoproteins can be tuned by mutating the photoprotein and/or by modifying the substrate coelenterazine (CTZ). Thirty years ago, Shimomura observed that the luminescence activity of aequorin was dramatically reduced when the substrate CTZ was replaced by its analog v‐CTZ. The latter is formed by adding a phenyl ring to the π‐conjugated moiety of CTZ. The decrease in luminescence activity has not been understood until now. In this paper, through combined quantum mechanics and molecular mechanics calculations as well as molecular dynamics simulations, we discovered the reason for this observation. Modification of the substrate changes the conformation of nearby aromatic residues and enhances the π‐π stacking interactions between the conjugated moiety of v‐CTZ and the residues, which weakens the charge transfer to form light emitter and leads to a lower luminescence activity. The microenvironments of CTZ in obelin and in aequorin are very similar, so we predicted that the luminescence activity of obelin will also dramatically decrease when CTZ is replaced by v‐CTZ. This prediction has received strong evidence from currently theoretical calculations and has been verified by experiments.

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Section: Methodsmentioning

confidence: 99%

“…Additionally, three histidines (His16, His58 and His169) of three key triads located in the CTZ-binding cavity of aequorin are strictly conserved (36). The other well-known calcium-regulated photoprotein, obelin, also has three histidines, that is, Scheme 1.…”

Section: Introductionmentioning

confidence: 99%

Luminescence Activity Decreases When v‐coelenterazine Replaces Coelenterazine in Calcium‐Regulated Photoprotein—A Theoretical and Experimental Study

Ding

Eremeeva

Vysotski

et al. 2020

Photochem & Photobiology

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“…Cloning of cDNAs encoding several photoproteins and their expression in bacterial cells, as well as effective activation of the recombinant apophotoproteins with a synthetic coelenterazine (under calcium-free conditions in the presence of O 2 ) opened the way to obtaining almost unlimited amounts of the recombinant proteins as well as to producing different mutated and chimeric photoproteins. Many photoprotein mutants with altered characteristics such as higher thermostability and bioluminescence activity, different emission color, faster or slower bioluminescence kinetics, and modified calcium affinity [ 3 , 4 , 24 , 25 ], as well as chimeric photoproteins genetically fused with different polypeptides, were produced. The diversity of photoprotein variants and synthetic coelenterazine analogues allow the development of novel bioluminescent assays or to improve characteristics of the already existing ones.…”

Section: Analytical Application Of Ca 2+ -Regulmentioning

confidence: 99%

“…Numerous studies on photoprotein EF-hand motif have shown that calcium affinity of the protein can be changed. Different approaches have been used to perform modifications: specific point mutations of the Ca 2+ -binding sites, random mutagenesis and functional screening, replacement of the consensus sequence of the first Ca 2+ -binding site with a loop sequence belonging to other EF-hand Ca 2+ -binding proteins [ 4 , 25 ], or/and the usage of coelenterazine synthetic analogues [ 31 ]. The aequorin variant with a reduced Ca 2+ affinity was produced and proved to be eminently suitable for measuring Ca 2+ within cell compartments with high calcium concentration (endoplasmic reticulum, mitochondria, etc.)…”

Section: Analytical Application Of Ca 2+ -Regulmentioning

confidence: 99%

“…This suggests a fundamentally linear relationship between the protein amount and the light emitted. Being the in situ stable enzyme–substrate complexes, photoproteins have become of great academic interest—many proteins of the wild type (WT) and their mutant variants with altered bioluminescent properties were obtained, tertiary structures were determined, and the reaction mechanism was studied (e.g., [ 4 ]).…”

Section: Introductionmentioning

confidence: 99%

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Coelenterazine-Dependent Luciferases as a Powerful Analytical Tool for Research and Biomedical Applications

Krasitskaya

Bashmakova

Frank

2020

IJMS

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: The functioning of bioluminescent systems in most of the known marine organisms is based on the oxidation reaction of the same substrate—coelenterazine (CTZ), catalyzed by luciferase. Despite the diversity in structures and the functioning mechanisms, these enzymes can be united into a common group called CTZ-dependent luciferases. Among these, there are two sharply different types of the system organization—Ca2+-regulated photoproteins and luciferases themselves that function in accordance with the classical enzyme–substrate kinetics. Along with deep and comprehensive fundamental research on these systems, approaches and methods of their practical use as highly sensitive reporters in analytics have been developed. The research aiming at the creation of artificial luciferases and synthetic CTZ analogues with new unique properties has led to the development of new experimental analytical methods based on them. The commercial availability of many ready-to-use assay systems based on CTZ-dependent luciferases is also important when choosing them by first-time-users. The development of analytical methods based on these bioluminescent systems is currently booming. The bioluminescent systems under consideration were successfully applied in various biological research areas, which confirms them to be a powerful analytical tool. In this review, we consider the main directions, results, and achievements in research involving these luciferases.

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Bioluminescence goes portable: recent advances in whole‐cell and cell‐free bioluminescence biosensors

et al. 2020

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Recent advancements in synthetic biology, organic chemistry, and computational models have allowed the application of bioluminescence in several fields, ranging from well established methods for detecting microbial contamination to in vivo imaging to track cancer and stem cells, from cell‐based assays to optogenetics. Moreover, thanks to recent technological progress in miniaturized and sensitive light detectors, such as photodiodes and imaging sensors, it is possible to implement laboratory‐based assays, such as cell‐based and enzymatic assays, into portable analytical devices for point‐of‐care and on‐site applications. This review highlights some recent advances in the development of whole‐cell and cell‐free bioluminescence biosensors with a glance on current challenges and different strategies that have been used to turn bioassays into biosensors with the required analytical performance. Critical issues and unsolved technical problems are also highlighted, to give the reader a taste of this fascinating and challenging field.

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Exploring Bioluminescence Function of the Ca²⁺‐regulated Photoproteins with Site‐directed Mutagenesis

Cited by 16 publications

References 91 publications

Luminescence Activity Decreases When v‐coelenterazine Replaces Coelenterazine in Calcium‐Regulated Photoprotein—A Theoretical and Experimental Study

Luminescence Activity Decreases When v‐coelenterazine Replaces Coelenterazine in Calcium‐Regulated Photoprotein—A Theoretical and Experimental Study

Coelenterazine-Dependent Luciferases as a Powerful Analytical Tool for Research and Biomedical Applications

Bioluminescence goes portable: recent advances in whole‐cell and cell‐free bioluminescence biosensors

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Exploring Bioluminescence Function of the Ca2+‐regulated Photoproteins with Site‐directed Mutagenesis

Cited by 16 publications

References 91 publications

Luminescence Activity Decreases When v‐coelenterazine Replaces Coelenterazine in Calcium‐Regulated Photoprotein—A Theoretical and Experimental Study

Luminescence Activity Decreases When v‐coelenterazine Replaces Coelenterazine in Calcium‐Regulated Photoprotein—A Theoretical and Experimental Study

Coelenterazine-Dependent Luciferases as a Powerful Analytical Tool for Research and Biomedical Applications

Bioluminescence goes portable: recent advances in whole‐cell and cell‐free bioluminescence biosensors

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Exploring Bioluminescence Function of the Ca²⁺‐regulated Photoproteins with Site‐directed Mutagenesis