Your search keyword '"Ludmila P. Burakova"' showing total 16 results

1. Unexpected Coelenterazine Degradation Products of Beroe abyssicola Photoprotein Photoinactivation

Author

Eugene S. Vysotski, Ilia V. Yampolsky, Aleksandra S. Tsarkova, Konstantin S. Mineev, Zinaida M. Kaskova, Renata I Zagitova, Ludmila P. Burakova, Sergey I. Kovalchuk, Valentin N. Petushkov, and Maria S Lyakhovich

Subjects

Chemistry, Organic Chemistry, Beroe abyssicola, Photoprotein, Light irradiation, Total synthesis, Chromophore, Biochemistry, chemistry.chemical_compound, Coelenterazine, Biophysics, Bioluminescence, Degradation (geology), Physical and Theoretical Chemistry

Abstract

Ca2+-regulated photoproteins of ctenophores lose bioluminescence activity when exposed to visible light. Little is known about the chemical nature of chromophore photoinactivation. Using a total synthesis strategy, we have established the structures of two unusual coelenterazine products, isolated from recombinant berovin of the ctenophore Beroe abyssicola, which are Z/E isomers. We propose that during light irradiation, these derivatives are formed from 2-hydroperoxycoelenterazine via the intermediate 8a-peroxide by a mechanism reminiscent of that previously described for the auto-oxidation of green-fluorescent-protein-like chromophores.

Published

2021

2. Mutants of Ca2+-regulated Photoprotein Obelin for Site-specific Conjugation

Author

Vasilisa V. Krasitskaya, Ludmila A. Frank, Ludmila P. Burakova, Anastasia A. Komarova, and Eugenia E. Bashmakova

Subjects

0301 basic medicine, Oligonucleotide, Chemistry, Ligand binding assay, 010401 analytical chemistry, Mutant, Photoprotein, General Medicine, Plasma protein binding, 01 natural sciences, Biochemistry, 0104 chemical sciences, 03 medical and health sciences, 030104 developmental biology, Bioluminescence, Physical and Theoretical Chemistry, Cysteine, Conjugate

Abstract

Color variants of Ca2+ -regulated photoprotein obelin were shown to be an important tool for dual-analyte binding assay. To provide site-directed conjugation with biospecific molecules, several obelin color mutants carrying unique cysteine residues were obtained and characterized for their novel properties. A pair of obelins Y138F,A5C and W92F,H22E,D12C was found to be most suitable (in terms of high bioluminescent activity and stability) as reporters in simultaneous assay of two targets in a sample. Availability of SH-groups, accessible for chemical modification, essentially simplifies the synthesis of biospecific conjugates, increases their yield and conserves obelins' bioluminescence activity. Conjugates with immunoglobulin and oligonucleotide were produced and successfully applied in single nucleotide polymorphism genotyping.

Published

2017

3. Bioluminescent detection of tick-borne encephalitis virus in native ticks

Author

Alexander N. Kudryavtsev, Ludmila P. Burakova, and Ludmila A. Frank

Subjects

0301 basic medicine, General Chemical Engineering, Biology, 01 natural sciences, Virus, Analytical Chemistry, Microbiology, law.invention, 03 medical and health sciences, chemistry.chemical_compound, law, Coelenterazine, medicine, Bioluminescence, medicine.diagnostic_test, 010405 organic chemistry, General Engineering, medicine.disease, biology.organism_classification, Virology, 0104 chemical sciences, Tick-borne encephalitis virus, 030104 developmental biology, chemistry, Immunoassay, biology.protein, Recombinant DNA, Factor D, Encephalitis

Abstract

A one-step bioluminescent immunoassay for tick-borne encephalitis virus (TBEV) in natural ticks based on the hybrid protein 14D5a-Rm7 was developed. Recombinant Ca2+-dependent coelenterazine-binding protein was shown to be a more convenient substrate form for the Rm7 domain than coelenterazine. Over 600 samples of natural ticks were analyzed and shown to have essential differences in the discrimination factor D for TBEV-positive (2.77 ± 0.81) and TBEV-negative (1.15 ± 0.28) samples.

Published

2017

4. Bioluminescent detection probe for tick-borne encephalitis virus immunoassay

Author

Galina A. Stepanyuk, Ludmila P. Burakova, Victor N. Lyapustin, Maria A. Dubova, Ivan K. Baykov, Ludmila A. Frank, Nina V. Tikunova, Valeri V. Yakimenko, V. V. Morozova, and Alexander N. Kudryavtsev

Subjects

Recombinant Fusion Proteins, Biochemistry, Virus, Encephalitis Viruses, Tick-Borne, Analytical Chemistry, Mice, Ticks, medicine, Encephalitis Viruses, Animals, Humans, Bioluminescence, Luciferase, Luciferases, Renilla, Immunoassay, Luminescent Agents, biology, medicine.diagnostic_test, Chemistry, biology.organism_classification, medicine.disease, Molecular biology, Tick-borne encephalitis virus, Luminescent Measurements, biology.protein, Antibody, Encephalitis, Tick-Borne, Encephalitis, Single-Chain Antibodies

Abstract

To facilitate the detection of the tick-borne encephalitis virus (TBEV), the causative agent of one of the most severe human neuroinfections, we have developed an immunoassay based on bioluminescent hybrid protein 14D5a-Rm7 as a detection probe. The protein containing Renilla luciferase as a reporter and a single-chain variable fragment (scFv) of murine immunoglobulin to TBEV as a recognition element was constructed, produced by bacterial expression, purified, and tested. Both domains were shown to reveal their specific biological properties-affinity to the target antigen and bioluminescent activity. Hybrid protein was applied as a label for solid-phase immunoassay of the antigens, associated with the tick-borne encephalitis virus (native glycoprotein E or extracts of the infected strain of lab ticks). The assay demonstrates high sensitivity (0.056 ng of glycoprotein E; 10(4)-10(5) virus particles or 0.1 pg virions) and simplicity and is competitive with conventional methods for detection of TBEV.

Published

2015

5. The smallest natural high-active luciferase: Cloning and characterization of novel 16.5-kDa luciferase from copepod Metridia longa

Author

Eugene S. Vysotski, Marina Larionova, Svetlana V. Markova, and Ludmila P. Burakova

Subjects

Gene isoform, Signal peptide, Time Factors, Molecular Sequence Data, Biophysics, Biology, Biochemistry, law.invention, Copepoda, chemistry.chemical_compound, law, Complementary DNA, Coelenterazine, Sf9 Cells, Animals, Humans, Bioluminescence, Luciferase, Amino Acid Sequence, Cloning, Molecular, Luciferases, Molecular Biology, Inclusion Bodies, Cloning, Cell Biology, Molecular biology, Molecular Weight, Kinetics, HEK293 Cells, chemistry, Luminescent Measurements, Recombinant DNA, Sequence Alignment

Abstract

Coelenterazine-dependent copepod luciferases containing natural signal peptide for secretion are a very convenient analytical tool as they enable monitoring of intracellular events with high sensitivity, without destroying cells or tissues. This property is well suited for application in biomedical research and development of cell-based assays for high throughput screening. We report the cloning of cDNA gene encoding a novel secreted non-allelic 16.5-kDa isoform (MLuc7) of Metridia longa luciferase, which, in fact, is the smallest natural luciferase of known for today. Despite the small size, isoform contains 10 conservative Cys residues suggesting the presence of up to 5 SS bonds. This hampers the efficient production of functionally active recombinant luciferase in bacterial expression systems. With the use of the baculovirus expression system, we produced substantial amounts of the proper folded MLuc7 luciferase with a yield of ∼3 mg/L of a high purity protein. We demonstrate that MLuc7 produced in insect cells is highly active and extremely thermostable, and is well suited as a secreted reporter when expressed in mammalian cells ensuring higher sensitivity of detection as compared to another Metridia luciferase isoform (MLuc164) which is widely employed in real-time imaging.

Published

2015

6. Characterization of hydromedusan Ca2+-regulated photoproteins as a tool for measurement of Ca2+concentration

Author

Svetlana V. Markova, Natalia P. Malikova, Eugene S. Vysotski, and Ludmila P. Burakova

Subjects

Aequorin, Photoprotein, chemistry.chemical_element, Biosensing Techniques, CHO Cells, Calcium, Biochemistry, Calcium in biology, Analytical Chemistry, chemistry.chemical_compound, Cricetulus, Cricetinae, Coelenterazine, Animals, Calcium metabolism, biology, Chinese hamster ovary cell, biology.organism_classification, Luminescent Proteins, chemistry, Luminescent Measurements, Aequorea victoria, biology.protein, Biophysics

Abstract

Calcium ion is a ubiquitous intracellular messenger, performing this function in many eukaryotic cells. To understand calcium regulation mechanisms and how disturbances of these mechanisms are associated with disease states, it is necessary to measure calcium inside cells. Ca(2+)-regulated photoproteins have been successfully used for this purpose for many years. Here we report the results of comparative studies on the properties of recombinant aequorin from Aequorea victoria, recombinant obelins from Obelia geniculata and Obelia longissima, recombinant mitrocomin from Mitrocoma cellularia, and recombinant clytin from Clytia gregaria as intracellular calcium indicators in a set of identical in vitro and in vivo experiments. Although photoproteins reveal a high degree of identity of amino acid sequences and spatial structures, and, apparently, have a common mechanism for the bioluminescence reaction, they were found to differ in the Ca(2+) concentration detection limit, the sensitivity of bioluminescence to Mg(2+), and the rates of the rise of the luminescence signal with a sudden change of Ca(2+) concentration. In addition, the bioluminescence activities of Chinese hamster ovary cells expressing wild-type photoproteins also differed. The light signals of cells expressing mitrocomin, for example, slightly exceeded the background, suggesting that mitrocomin may be hardly used to detect intracellular Ca(2+) without modifications improving its properties. On the basis of experiments on the activation of endogenous P2Y2 receptor in Chinese hamster ovary cells by ATP, we suggest that wild-type aequorin and obelin from O. longissima are more suitable for calcium detection in cytoplasm, whereas clytin and obelin from O. geniculata can be used for calcium measurement in cell compartments with high Ca(2+) concentration.

Published

2014

7. Hydrogen-bond networks between the C-terminus and Arg from the first α-helix stabilize photoprotein molecules

Author

Osamu Shimomura, Ludmila P. Burakova, Elena Eremeeva, Ludmila A. Frank, Alexander N. Kudryavtsev, and Vasilisa V. Krasitskaya

Subjects

Proline, Stereochemistry, Aequorin, Photoprotein, Arginine, Protein Structure, Secondary, Escherichia coli, Side chain, Molecule, Physical and Theoretical Chemistry, biology, Protein Stability, Chemistry, Hydrogen bond, C-terminus, Imidazoles, Hydrogen Bonding, Fusion protein, Recombinant Proteins, Kinetics, Luminescent Proteins, Pyrazines, Luminescent Measurements, Mutation, Helix, biology.protein, Crystallization

Abstract

Previous studies have stated that aequorin loses most of its bioluminescence activity upon modification of the C-terminus, thus limiting the production of photoprotein fusion proteins at its N-terminus. In the present work, we investigate the importance of the C-terminal proline and the hydrogen bonds it forms for photoprotein active complex formation, stability and functional activity. According to the crystal structures of obelin and aequorin, two Ca(2+)-regulated photoproteins, the carboxyl group of the C-terminal Pro forms two hydrogen bonds with the side chain of Arg21 (Arg15 in aequorin case) situated in the first α-helix. Whereas, deletion or substitution of the C-terminal proline could noticeably change the bioluminescence activity, stability or the yield of an active photoprotein complex. Therefore, modifications of the first α-helix Arg has a clear destructive effect on the main photoprotein properties. A C-terminal hydrogen-bond network is proposed to be important for the stability of photoprotein molecules towards external disturbances, when taking part in the formation of locked protein conformations and isolation of coelenterazine-binding cavities.

Published

2014

8. Spatial structure of the novel light-sensitive photoprotein berovin from the ctenophore Beroe abyssicola in the Ca2+-loaded apoprotein conformation state

Author

Eugene S. Vysotski, Bi-Cheng Wang, Zhi-Jie Liu, Galina A. Stepanyuk, Ludmila P. Burakova, John Lee, and John Rose

Subjects

Models, Molecular, Light, Protein Conformation, Globular protein, Molecular Sequence Data, Structural alignment, Biophysics, Photoprotein, Crystallography, X-Ray, Biochemistry, Analytical Chemistry, chemistry.chemical_compound, Coelenterazine, Escherichia coli, Side chain, Animals, Bioluminescence, Luciferase, Amino Acid Sequence, Amino Acids, Molecular Biology, Peptide sequence, chemistry.chemical_classification, Ctenophora, Imidazoles, Hydrogen-Ion Concentration, Recombinant Proteins, Protein Structure, Tertiary, Oxygen, Luminescent Proteins, chemistry, Pyrazines, Luminescent Measurements, Calcium, Apoproteins, Sequence Alignment

Abstract

The bright bioluminescence of ctenophores, found in oceans worldwide, is determined by Ca 2 + -regulated photoproteins, functionally identical to and sharing many properties of hydromedusan photoproteins. In contrast, however, the ctenophore photoproteins are extremely sensitive to UV and visible light over the range of their absorption spectrum. The spatial structure of a novel light-sensitive photoprotein from the ctenophore Beroe abyssicola in its apoform bound with three calcium ions is determined at 2.0 A. We demonstrate that the apoberovin is a slightly asymmetrical compact globular protein formed by two domains with a cavity in the center, which exactly retains the fold architecture characteristic of hydromedusan photoproteins despite their low amino acid sequence identity. However, the structural alignment of these two photoprotein classes clearly shows that despite the high similarity of shape and geometry of their coelenterazine-binding cavities, their interiors differ drastically. The key residues appearing to be crucial for stabilizing the 2-hydroperoxycoelenterazine and for formation of the emitter in hydromedusan photoproteins, are replaced in berovin by amino acid residues having completely different side chain properties. Evidently, these replacements must be responsible for the distinct properties of ctenophore photoproteins such as sensitivity to light or the fact that the formation of active photoprotein from apophotoprotein, coelenterazine, and oxygen is more effective at alkaline pH.

Published

2013

9. Role of certain amino acid residues of the coelenterazine-binding cavity in bioluminescence of light-sensitive Ca(2+)-regulated photoprotein berovin

Author

Eugene S. Vysotski, Galina A. Stepanyuk, Ludmila P. Burakova, and Elena V. Eremeeva

Subjects

0301 basic medicine, Models, Molecular, Luminescence, Protein Conformation, Mutant, Photoprotein, Aequorin, Benzeneacetamides, Biology, 03 medical and health sciences, chemistry.chemical_compound, Coelenterazine, Bioluminescence, Animals, Physical and Theoretical Chemistry, Amino Acids, chemistry.chemical_classification, Binding Sites, Luminescent Agents, Imidazoles, Amino acid, Luminescent Proteins, 030104 developmental biology, Hydrozoa, chemistry, Biochemistry, Docking (molecular), Pyrazines, Coelenteramide, Luminescent Measurements, biology.protein, Calcium, Protein Binding

Abstract

Bright bioluminescence of ctenophores is caused by Ca(2+)-regulated photoproteins. Although these photoproteins are functionally identical to and share many properties of cnidarian photoproteins, like aequorin and obelin, and retain the same spatial architecture, they are extremely sensitive to light, i.e. lose the ability to bioluminesce on exposure to light over the entire absorption spectrum. In addition, the degree of identity of their amino acid sequences with those of cnidarian photoproteins is only 29.4%. This suggests that the residues involved in bioluminescence of ctenophore and cnidarian photoproteins significantly differ. Here we describe the bioluminescent properties of berovin mutants with substitution of the residues located in the photoprotein internal cavity. Since the spatial structure of berovin bound with a substrate is not determined yet, to identify these residues we have modeled it with an accommodated substrate using the structures of some cnidarian Ca(2+)-regulated photoproteins with bound coelenterazine or coelenteramide as templates in order to obtain an adequate sampling and to take into account all possible conformers and variants for ligand-protein docking. Based on the impact of substitutions on the bioluminescent properties and model structures we speculate that within the internal cavity of ctenophore photoproteins, coelenterazine is bound as a 2-peroxy anion adduct which is stabilized owing to Coulomb interaction with a positively charged guanidinium group of Arg41 paired with Tyr204. In this case, the bioluminescence reaction is triggered by only calcium-induced conformational changes leading to the disturbance of charge-charge interaction.

Published

2016

10. Bioluminescent reporters for identification of gene allelic variants

Author

Inna A. Pyshnaya, Ludmila A. Frank, Ludmila P. Burakova, and Vasilisa V. Krasitskaya

Subjects

Genetics, biology, DNA polymerase, Base pair, Organic Chemistry, Biochemistry, Molecular biology, Primer extension, SNP genotyping, genomic DNA, chemistry.chemical_compound, chemistry, biology.protein, Primer (molecular biology), Gene, DNA

Abstract

A method for single nucleotide polymorphism identification was developed, which was based on the primer extension reaction (PEXT) followed by bioluminescent solid-phase microassay. Recombinant Ca2+-regulated photoprotein obelin and coelenterazine-dependent Renilla muelleri luciferase were used as reporters. The study was performed as an example of SNP genotyping of the human F5 gene encoding human Factor V Leiden polymorphism 1691 G→A (R506Q). Genomic DNA was amplified by PCR using primers flanking polymorphic site of 140 base pairs. PCR products were used as templates for two PEXT reactions using two primers containing 3′-terminal nucleotides, which were complementary to either normal or mutant alleles. If the template and allele-specific primer were completely complementary, the latter was elongated with DNA polymerase. The resulting extension product contained biotin residue due to the presence of biotinylated deoxyuridine triphosphate (B-dUTP) in the reaction mixture. The products were analyzed using obelin-streptavidin conjugates. The optimal PEXT-reaction conditions were found, which ensured a high reliability of SNP genotyping. A new approach to simultaneously revealing both alleles in one well was developed using two bioluminescent reporters. The efficiency of the proposed approach was shown in the study of clinical DNA samples.

Published

2012

11. Recombinant Metridia luciferase isoforms: expression, refolding and applicability for in vitro assay

Author

Svetlana V. Markova, Vasilisa V. Borisova, Eugene S. Vysotski, Ludmila P. Burakova, and Ludmila A. Frank

Subjects

Guanidinium chloride, Protein Folding, Molecular Sequence Data, Photoprotein, Gene Expression, Biology, law.invention, Copepoda, chemistry.chemical_compound, law, Coelenterazine, Animals, Bioluminescence, Luciferase, Amino Acid Sequence, Physical and Theoretical Chemistry, Luciferases, Recombinant Proteins, Isoenzymes, Kinetics, Spectrometry, Fluorescence, Biochemistry, chemistry, Biotinylation, Recombinant DNA, Light emission, Sequence Alignment

Abstract

The recombinant coelenterazine-dependent luciferases (isoforms MLuc164 and MLuc39) from the marine copepod Metridia longa were expressed as inclusion bodies in E. coli cells, dissolved in 6 M guanidinium chloride and folded in conditions developed for proteins containing intramolecular disulfide bonds. One of them (MLuc39) was obtained in an active monomeric form with a high yield. The luciferase bioluminescence is found to be initiated not only by free coelenterazine, but also by Ca2+-dependent coelenterazine-binding protein (CBP) of Renilla muelleri on Ca2+ addition. The use of CBP as a "substrate" provides higher light emission and simultaneously the lower level of background. The high purity MLuc39 can be detected down to attomol with a linear range extending over 5 orders of magnitude. The MLuc39 reveals also a high stability towards heating and chemical modification; the chemically synthesized biotinylated derivatives of the luciferase preserve 35-40% of the initial activity. The luciferase applicability as an in vitro bioluminescent reporter is demonstrated in model tandem bioluminescent solid-phase microassay combining the Ca2+-regulated photoprotein obelin and the Metridia luciferase.

Published

2008

12. Bioluminescent properties of obelin and aequorin with novel coelenterazine analogues

Author

Aren J. Borgdorff, Ludmila P. Burakova, Philippe Brulet, Robert H. Dodd, Eugene S. Vysotski, Natalia P. Malikova, Sandrine Picaud, Ronan Gealageas, Institut de Chimie des Substances Naturelles (ICSN), Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC), and Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Aequorin, Photoprotein, CHO Cells, Biochemistry, Analytical Chemistry, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Cricetulus, In vivo, Coelenterazine, Bioluminescence, Animals, 030304 developmental biology, 0303 health sciences, Luminescent Agents, biology, Chemistry, [CHIM.ORGA]Chemical Sciences/Organic chemistry, Imidazoles, biology.organism_classification, Molecular Imaging, Light intensity, Luminescent Proteins, Hydrozoa, Pyrazines, Luminescent Measurements, Aequorea victoria, biology.protein, Light emission, 030217 neurology & neurosurgery

Abstract

International audience; The main analytical use of Ca(2+)-regulated photoproteins from luminous coelenterates is for real-time non-invasive visualization of intracellular calcium concentration ([Ca(2+)]i) dynamics in cells and whole organisms. A limitation of this approach for in vivo deep tissue imaging is the fact that blue light emitted by the photoprotein is highly absorbed by tissue. Seven novel coelenterazine analogues were synthesized and their effects on the bioluminescent properties of recombinant obelin from Obelia longissima and aequorin from Aequorea victoria were evaluated. Only analogues having electron-donating groups (m-OCH3 and m-OH) on the C6 phenol moiety or an extended resonance system at the C8 position (1-naphthyl and α-styryl analogues) showed a significant red shift of light emission. Of these, only the α-styryl analogue displayed a sufficiently high light intensity to allow eventual tissue penetration. The possible suitability of this compound for in vivo assays was corroborated by studies with aequorin which allowed the monitoring of [Ca(2+)]i dynamics in cultured CHO cells and in hippocampal brain slices. Thus, the α-styryl coelenterazine analogue might be potentially useful for non-invasive, in vivo bioluminescence imaging in deep tissues of small animals.

Published

2014

13. High-active truncated luciferase of copepod Metridia longa

Author

Eugene S. Vysotski, Svetlana V. Markova, and Ludmila P. Burakova

Subjects

Signal peptide, Mutant, Molecular Sequence Data, Biophysics, Biology, medicine.disease_cause, Biochemistry, Copepoda, chemistry.chemical_compound, Coelenterazine, medicine, Escherichia coli, Bioluminescence, Animals, Humans, Luciferase, Amino Acid Sequence, Luciferases, Molecular Biology, Peptide sequence, Sequence Deletion, HEK 293 cells, Cell Biology, Molecular biology, HEK293 Cells, chemistry

Abstract

The technology of real-time imaging in living cells is crucial for understanding of intracellular events. For this purpose, bioluminescent reporters have been introduced as sensitive and convenient tools. Metridia luciferase (MLuc) from the copepod Metridia longa is a coelenterazine-dependent luciferase containing a natural signal peptide for secretion. We report the high-active MLuc mutants with deletion of the N-terminal variable part of amino acid sequence. The MLuc variants were produced in Escherichia coli cells, converted to an active protein, and characterized. We demonstrate that the truncated MLucs have significantly increased bioluminescent activity as against the wild type enzyme but substantially retain other properties. One of the truncated variants of MLuc was transiently expressed in HEK 293 cells. The results clearly suggest that the truncated Metridia luciferase is well suited as a secreted reporter ensuring higher detection sensitivity in comparison with a wild type enzyme.

Published

2011

14. The interaction of linear and ring forms of DNA molecules with nanodiamonds synthesized by detonation

Author

K. V. Purtov, Ludmila P. Burakova, Vladimir S. Bondar, and Alexey P. Puzyr

Subjects

Materials science, Mechanical Engineering, Detonation, Bioengineering, General Chemistry, Ring (chemistry), chemistry.chemical_compound, Crystallography, Adsorption, chemistry, Sticky and blunt ends, Mechanics of Materials, bacteria, Molecule, Organic chemistry, General Materials Science, pUC19, Electrical and Electronic Engineering, Nanodiamond, DNA

Abstract

Nanodiamonds synthesized by detonation have been found not to immobilize the ring form of pUC19 plasmid DNA. Linear pUC19 molecules with blunt ends, prepared by restriction of the initial ring form of pUC19 DNA, and linear 0.25-10 kb DNA fragments are adsorbed on nanodiamonds. The amount of adsorbed linear DNA molecules depends on the size of the molecules and the size of the nanodiamond clusters.

Published

2011

15. Obelin from the bioluminescent marine hydroid Obelia geniculata: cloning, expression, and comparison of some properties with those of other Ca2+-regulated photoproteins

Author

Svetlana V. Markova, Ludmila P. Burakova, John Lee, Eugene S. Vysotski, John R. Blinks, and B-C. Wang

Subjects

DNA, Complementary, Hydra, Molecular Sequence Data, Photoprotein, medicine.disease_cause, Biochemistry, chemistry.chemical_compound, Sequence Analysis, Protein, Complementary DNA, Botany, medicine, Bioluminescence, Animals, Magnesium, Amino Acid Sequence, Obelia longissima, Cloning, Molecular, Escherichia coli, biology, Base Sequence, Sequence Homology, Amino Acid, Protein primary structure, biology.organism_classification, Kinetics, Luminescent Proteins, Spectrometry, Fluorescence, chemistry, Gene Expression Regulation, Coelenteramide, Luminescent Measurements, Calcium, Spectrophotometry, Ultraviolet, Aequorea

Abstract

A cDNA encoding the Ca2+-regulated photoprotein of the bioluminescent marine hydroid Obelia geniculata was cloned and sequenced. The cDNA is a 774 bp fragment containing two overlapping open reading frames, one of which contained 585 bp encoding a 195 amino acid polypeptide which obviously has the primary structure of the apoprotein of a calcium-regulated photoprotein. Many of the residues are identical to those in other Ca2+-regulated photoproteins: 86% compared with that from Obelia longissima, 76% with that from Clytia (Phialidium), 64% with that from Aequorea, and 64% with that from Mitrocoma(Halistaura). The obelin from O. geniculata was overexpressed in Escherichia coli, refolded from inclusion bodies, and purified. The yield of highly purified recombinant protein was 55-80 mg/L of LB medium. O. geniculata obelin has absorption maxima at 280 and 460 nm and a shoulder at approximately 310 nm. The calcium-discharged protein loses visible absorption but exhibits a new absorption maximum at 343 nm. The bioluminescence of the obelin from O. geniculata is blue (lambda(max) = 495 nm). In contrast, the fluorescence of the calcium-discharged protein is yellow-green (lambda(max) = 520 nm; excitation at 340 nm). This is in sharp contrast to aequorin in which the bioluminescence and fluorescence emission spectra of the calcium-discharged protein are almost identical (lambda(max) = 465 nm). The Ca2+ concentration-effect curve for O. geniculata obelin is similar to those of many other photoproteins: at [Ca2+] below approximately 10(-8) M, calcium-independent luminescence is observed, and at [Ca2+] approximately 10(-3) M, the luminescence reaches a maximum. Between these extremes, the curve spans a vertical range of almost 8 log units with a maximum slope on a log-log plot of about 2.5. In the absence of Mg2+ the rate constant for the rise of bioluminescence determined by the stopped-flow technique is about 450 s(-1). The effects of Mg2+ on the kinetics of bioluminescence are complicated, but at all concentrations studied they are relatively small compared to the corresponding effects on aequorin luminescence. At least with respect to speed and sensitivity to Mg2+, the obelins from both O. longissima and O. geniculata would appear to be more suitable than aequorin for use as intracellular Ca2+ indicators.

Published

2002

16. Engineering of Obelin with Changed Calcium Affinities and Light Emission Spectra for Simultaneous Measurement of [Ca2+] in Cytoplasm and Mitochondria

Author

Anton V. Eremeev, Svetlana V. Markova, Ludmila P. Burakova, Natalia P. Malikova, Eugene S. Vysotski, and Galina A. Stepanyuk

Subjects

chemistry.chemical_element, Bioengineering, General Medicine, Mitochondrion, Calcium, Applied Microbiology and Biotechnology, Affinities, Spectral line, Calcium in biology, Biochemistry, chemistry, Cytoplasm, Bioluminescence, Light emission, Biotechnology

Published

2010