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Properties of recombinant fluorescent proteins from Photobacterium leiognathi and their interaction with luciferase intermediates / V. N. Petushkov, B. G. Gibson, J. Lee // Biochemistry. - 1995. - Vol. 34, Is. 10. - P3300-3309 . - ISSN 0006-2960
Кл.слова (ненормированные):
luciferase -- recombinant protein -- article -- ligand binding -- nonhuman -- priority journal -- protein isolation -- protein protein interaction -- protein stability -- vibrionaceae -- Bacterial Proteins -- Binding Sites -- Carrier Proteins -- Circular Dichroism -- Flavin Mononucleotide -- Fluorescence Polarization -- Genes, Bacterial -- Kinetics -- Ligands -- Luciferase -- Luminescence -- Molecular Sequence Data -- Photobacterium -- Recombinant Proteins -- Spectrophotometry -- Support, U.S. Gov't, P.H.S. -- Photobacterium leiognathi -- Vibrionaceae
Аннотация: Ligand binding and luciferase interaction properties of the recombinant protein corresponding to the lumazine protein gene (EMBL X56534) of Photobacterium leiognathi have been determined by fluorescence dynamics, circular dichroism, gel filtration, and SDS-PAGE. Scatchard analysis of a fluorescence titration shows that the apoprotein possess one binding site, and at 30В°C the KdS (?M) are as follows: 6,7-dimethyl-8-ribityllumazine, 0.26; riboflavin, 0.53; and much more weakly bound FMN, 30. All holoproteins are highly fluorescent and have absorption spectra distinct from each other and from the free ligands. The longest wavelength absorption maxima are, respectively (nm, 2В°C), 420,463, and 458. Ligand binding produces no change in the far-UV circular dichroism; all have mean residual ellipticity at 210 nm of -6500 deg cm2 dmol-1, the same as the native protein. However, in the bioluminescence reaction only the lumazine holoprotein shows a bioluminescence effect. Fluorescence emission anisotropy decay was used to establish that none of these holoproteins complexed with native luciferase and that the lumazine protein alone formed a 1:1 complex with the luciferase hydroxyflavin fluorescent transient and the luciferase peroxyflavin intermediates, revealed by a dominant channel of anisotropy loss, with rotational correlation time of 2.5 ns, and attributed to excitation transfer from the luciferase flavin donor to the acceptor, the lumazine ligand. The complex stability was sufficient to allow its isolation by FPLC gel filtration and verification by SDS-PAGE. These methods also confirmed the absence of interaction of the holoflavoproteins.

Scopus
Держатели документа:
Department of Biochemistry and Molecular Biology, University of Georgia, Athens, GA 30602, United States
Institute of Biophysics, Academy of Sciences of Russia (Siberian Branch), 660036 Krasnoyarsk, Russian Federation : 660036, Красноярск, Академгородок, д. 50, стр. 50

Доп.точки доступа:
Petushkov, V.N.; Gibson, B.G.; Lee, J.

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The yellow bioluminescence bacterium, Vibrio fischeri Y1, contains a bioluminescence active riboflavin protein in addition to the yellow fluorescence FMN protein / V. N. Petushkov, B. G. Gibson, J. Lee // Biochemical and Biophysical Research Communications. - 1995. - Vol. 211, Is. 3. - P774-779, DOI 10.1006/bbrc.1995.1880 . - ISSN 0006-291X
Кл.слова (ненормированные):
riboflavin -- article -- bioluminescence -- fluorescence -- nonhuman -- priority journal -- protein analysis -- protein synthesis -- vibrio -- vibrionaceae -- Bacterial Proteins -- Chromatography, Gel -- Chromatography, Thin Layer -- Flavin Mononucleotide -- Flavoproteins -- Luminescence -- Riboflavin -- Spectrometry, Fluorescence -- Support, U.S. Gov't, P.H.S. -- Vibrio -- Bacteria (microorganisms) -- Photobacterium -- Vibrio -- Vibrio fischeri
Аннотация: The yellow bioluminescence Y1 strain of Vibrio fischeri can produce a 22 kDa protein with either FMN or riboflavin as a bound fluorophore. Both forms are active for shifting the bioluminescence spectral maximum. The fluorescence spectral distribution of the two proteins differs slightly and the in vivo emission appears to be an equal mixture of the two. The bioluminescence activity of the riboflavin Y1 protein contrasts with the inactivity of the related Photobacterium type.

Scopus
Держатели документа:
Department of Biochemistry and Molecular Biology, University of Georgia, Athens, GA 30602, United States
Institute of Biophysics, Academy of Sciences of Russia (Siberian Branch), 660036 Krasnoyarsk, Russian Federation : 660036, Красноярск, Академгородок, д. 50, стр. 50

Доп.точки доступа:
Petushkov, V.N.; Gibson, B.G.; Lee, J.

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Green flavoprotein from P. leiognathi: purification, characterization and identification as the product of the lux G(N) gene / A. A. Raibekas // Journal of bioluminescence and chemiluminescence. - 1991. - Vol. 6, Is. 3. - P. 169-176 . - ISSN 0884-3996
Кл.слова (ненормированные):
bacterial protein -- flavoprotein -- amino acid sequence -- article -- bacterial gene -- chemistry -- genetics -- isolation and purification -- luminescence -- molecular genetics -- molecular weight -- Photobacterium -- Amino Acid Sequence -- Bacterial Proteins -- Flavoproteins -- Genes, Bacterial -- Luminescence -- Molecular Sequence Data -- Molecular Weight -- Photobacterium -- Support, U.S. Gov't, P.H.S.
Аннотация: A green flavoprotein (GFP) was isolated and purified to homogeneity from Photobacterium leiognathi, strain 208. GFP is a homodimer of molecular weight 54,000 and contains two molecules of an unusual flavin per molecule of protein. Various biochemical characteristics including isoelectric point, trypsin and chymotrypsin degradation, SDS and temperature influence on subunit dissociation and the dissociation of the flavin chromophore, were investigated. The sequence of 23 N-terminal amino acids was determined and found to be concurrent with the N-terminal amino acid sequence encoded by the lux G(N) gene of P. leiognathi. This fact suggests that GFP is a structural component of the Photobacterium luminescence system.

Scopus
Держатели документа:
Institute of Biophysics, USSR Academy of Sciences, Krasnoyarsk. : 660036, Красноярск, Академгородок, д. 50, стр. 50

Доп.точки доступа:
Raibekas, A.A.

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