共查询到20条相似文献,搜索用时 15 毫秒
1.
Crystalline firefly luciferase 总被引:13,自引:0,他引:13
2.
3.
We demonstrated that firefly luciferase has a catalytic function of fatty acyl-CoA synthesis [Oba, Y., Ojika, M. and Inouye, S. (2003) Firefly luciferase is a bifunctional enzyme: ATP-dependent monooxygenase and a long chain fatty acyl-CoA synthetase. FEBS Lett. 540, 251-254] and proposed that the evolutionary origin of beetle luciferase is a fatty acyl-CoA synthetase (FACS) in insect. In this study, we performed the functional conversion of FACS to luciferase by replacing a single amino acid to serine. This serine residue is conserved in luciferases and possibly interacts with luciferin. The mutants of FACSs in non-luminous click beetle Agrypnus binodulus (AbLL) and Drosophilamelanogaster (CG6178) gave luminescence enhancement, suggesting that the serine residue is a key substitution responsible for luminescence activity. 相似文献
4.
Bakhtiarova A Taslimi P Elliman SJ Kosinski PA Hubbard B Kavana M Kemp DM 《Biochemical and biophysical research communications》2006,351(2):481-484
The potential therapeutic value of resveratrol in age-related disease settings including cancer, diabetes, and Alzheimer's has emerged from a rapidly growing body of experimental evidence. Protection from oxidative stress appears to be a common feature of resveratrol that may be mediated through SirT1, though more specific molecular mechanisms by which resveratrol mediates its effects remain unclear. This has prompted an upsurge in cell-based mechanistic studies, often incorporating reporter assays for pathway elucidation in response to resveratrol treatment. Here, we report that resveratrol potently inhibits firefly luciferase with a K(i) value of 2microM, and caution that this confounding element may lead to compromised data interpretation. 相似文献
5.
The temporal pattern of light production by firefly luciferase depends on the ATP concentration. With low concentrations of ATP a constant production of light occurred while at high concentrations of ATP (greater than 10 microM) there was a flash of light followed by a decline in light production. This time course of light production with high ATP concentrations was changed from the flash pattern to a pattern with a constant production of light by several cytidine nucleotides. CTP, CDP, dCTP, dCDP, dideoxyCTP, periodate-oxidized CTP and CDP, and the etheno derivatives of CTP and CDP produced that change. CMP, cytidine, CDP-glycerol, CDP-glucose, CDP-ethanolamine, and benzoylbenzoylCTP either were inhibitory to firefly luciferase or were not effective in changing the flash time course. Coenzyme A and related compounds also changed the time course of light production. The changes in time course produced by either cytidine nucleotides or CoA were inhibited by desulfoCoA. These compounds apparently enhanced light production by promoting the dissociation of the inhibitory product, oxidized luciferin, from the enzyme. When the activating compounds were used with high concentrations of ATP, the sensitivity of assay for firefly luciferase was increased. This increased sensitivity is important when using the firefly luciferase gene as a reporter. 相似文献
6.
Photographic detection of luminescence in Escherichia coli containing the gene for firefly luciferase 总被引:7,自引:0,他引:7
The gene for firefly luciferase (luc) can be used as a generalized genetic probe. A method that aids in the analysis of shuttle vectors containing luc by allowing verification in Escherichia coli of a functional coding sequence is presented here. Colonies containing a functional form of luc are detected on film after luciferin is added to initiate the luminescent reaction. Two conditions, lowering the pH of the environment and maintaining aerobic conditions, were found to greatly improve the sensitivity of the assay. This technique may be useful in the development of genetic constructs that alter the natural coding sequence of luc, such as in gene fusions. 相似文献
7.
Catalytic subunit of firefly luciferase 总被引:4,自引:0,他引:4
8.
The dependence of luciferase activity in the homogenate of leaves of transgenic tobacco plants with chimeric firefly luciferase gene on ATP concentration and temperature was studied. The optimum ATP concentration was between 0.625 mM and 2.5 mM. The activity rapidly decreased if the homogenate was kept in 25°C and is completely lost during 30 min. 相似文献
9.
Firefly luciferase, containing an average of seven free sulfhydryls per two 50 000-dalton polypeptides, was modified by various sulfhydryl reagents. The differential reactivities of the sulfhydryls in luciferase protected by substrates allow one to define three categories of these groups: Class SH-III contains three sulfhydryls that are not involved in enzymatic activity. Class SH-II contains two sulfhydryls whose modification by different reagents causes varying effects on activity ranging from 0 to 60% inactivation. These sulfhydryls are not essential but may be important structurally or sterically. Class SH-I contains two sulfhydryls that are protected by substrates, either dehydroluciferyl adenylate or dehydroluciferin alone, and are located at or near the active site. The SH-I sulfhydryls are vicinal in the enzyme as demonstrated by their ability to form a disulfide bond. They have also been shown to exist on a single polypeptide chain. Modification of the SH-I groups by most reagents results in complete loss of enzymatic activity; reaction with methyl methanethiosulfonate produces an enzyme that emits only red light whereas native luciferase emits yellow-green light. Evidence is presented that the modified enzyme, while catalytically active, has a distorted active site. It is concluded that these two SH-I sulfhydryls are not essential for activity. 相似文献
10.
Various solvents stimulate the catalytic activity of firefly luciferase, up to sevenfold. Polyvinylpyrrolidone, polyethylene glycols, and nonionic detergents such as Triton X-100 were the most effective stimulators of the enzyme. Both peak light and total light emission were enhanced in the presence of these solvents indicating an increased turnover of the enzyme. The primary effect of the solvents is on the oxidative reaction rather than the activation reaction. All the experimental data support the hypothesis that the presence of solvent promotes the dissociation of the inhibitory product from the enzyme. 相似文献
11.
Pseudo-allosteric behavior of firefly luciferase 总被引:2,自引:0,他引:2
12.
Bruce R. Branchini Thomas M. Marschner Angelina M. Montemurro 《Analytical biochemistry》1980,104(2):386-396
A method is described for purifying luciferase from firefly lanterns in very good yield. The enzyme was extracted from Photinus lanterns, dialyzed, and further purified by affinity chromatography with 6-aminohexanoic acid-Sepharose 4b benzylamine. Fractions containing luciferase activity were pooled, concentrated by ultrafiltration, and crystallized by dialysis against a low-ionic-strength buffer. The crystalline enzyme appears to be homogeneous by sodium dodecyl sulfate-gel electrophoresis. The entire protocol described was conveniently performed in less than 3 days and yielded 6.2 mg of enzyme from 2.2 g of firefly lanterns. Furthermore, the affinity column employed can be reused at least five times without appreciable loss of binding capacity. Luciferase was chromatographed with several other affinity gels and the results are compared. It appears that 6-aminohexanoic acid-Sepharose 4b benzylamine does not function as a true bioaffinity gel, but rather as a hydrophobic interaction support. 相似文献
13.
14.
The effect of CoA on the characteristic light decay of the firefly luciferase catalysed bioluminescence reaction was studied. At least part of the light decay is due to the luciferase catalysed formation of dehydroluciferyl-adenylate (L-AMP), a by-product that results from oxidation of luciferyl-adenylate (LH2-AMP), and is a powerful inhibitor of the bioluminescence reaction (IC50 = 6 nm). We have shown that the CoA induced stabilization of light emission does not result from an allosteric effect but is due to the thiolytic reaction between CoA and L-AMP, which gives rise to dehydroluciferyl-CoA (L-CoA), a much less powerful inhibitor (IC50 = 5 microm). Moreover, the V(max) for L-CoA formation was determined as 160 min(-1), which is one order of magnitude higher than the V(max) of the bioluminescence reaction. Results obtained with CoA analogues also support the thiolytic reaction mechanism: CoA analogues without the thiol group (dethio-CoA and acetyl-CoA) do not react with L-AMP and do not antagonize its inhibitor effect; CoA and dephospho-CoA have free thiol groups, both react with L-AMP and both antagonize its effect. In the case of dephospho-CoA, it was shown that it reacts with L-AMP forming dehydroluciferyl-dephospho-CoA. Its slower reactivity towards L-AMP explains its lower potency as antagonist of the inhibitory effect of L-AMP on the light reaction. Moreover, our results support the conjecture that, in the bioluminescence reaction, the fraction of LH2-AMP that is oxidized into L-AMP, relative to other inhibitory products or intermediates, increases when the concentrations of the substrates ATP and luciferin increases. 相似文献
15.
16.
G Sala-Newby N Kalsheker A K Campbell 《Biochemical and biophysical research communications》1990,172(2):477-482
cDNA coding for the luciferase in the firefly Photinus pyralis was cloned using pcDV1 primer and Honjo linker containing SP6 RNA polymerase promoter. This enabled conditions to be established to produce mRNA, capped with m7 GpppG, in vitro and then translated to form light emitting protein. Full length recombinant luciferase produced by in vitro translation, was fully active, had the same isoelectric focusing point as the native enzyme and produced a similar, yellow emission. Removal of the coding sequence for the last 12 amino acids at the C terminus, containing the peroxisome signal peptide, by polymerase chain reaction resulted in greater than or equal to 99% loss in activity of the protein formed from mRNA in vitro. This has important implications for using this luciferase as an indicator or reporter gene in eukaryotic cells, and for identifying the active centre of the enzyme. 相似文献
17.
The continuous bioluminescent assay of ATP has been adapted to the study of Mg2+-dependent ATPases, including the (Na+,K+) pump, in amphibian tissues. A discrete bioluminescent assay procedure for ATPase has also been developed. Components of the firefly luciferase assay reagent modify the observed ATPase activity but this can be circumvented by performing discrete instead of continuous measurements of enzyme activity. In assays with commercial ATPase preparations the continuous bioluminescent assay procedure gave ATPase activities 2.2-fold lower than obtained with the discrete procedure. In Xenopus oocyte or egg homogenates, in contrast, the total ATPase activity measured is stimulated eight times by the luciferase reagent, mainly through an unexplained activation of a Mg2+-independent ATPase. In other tissues, such as Xenopus brain homogenates, both the continuous and discrete monitoring procedures are equally suitable for the determination of ATPase activity. 相似文献
18.
Nucleoside triphosphate specificity of firefly luciferase 总被引:7,自引:0,他引:7
Twelve naturally occurring nucleoside triphosphates have been examined as substrates and inhibitors of the light-producing reaction of firefly luciferase. Deoxyadenosine 5'-triphosphate was 1.7% as effective relative to ATP as a substrate, whereas all others tested were less than 0.1% as effective as ATP. At concentrations normally present in mammalian cell extracts no interference with ATP measurements results from these nucleotides. 相似文献
19.
The kinetic properties of collagen-bound firefly luciferase have been investigated. Under definite hydrodynamic conditions with low agitation in the reaction medium, the observed behavior is modified compared to the enzyme free in solution: reducing the stirring rate decreases the observed enzymatic activity. But diffusional resistances alone cannot account for these atypical kinetics though mass transfer may certainly play an important role during the transient state of the bioluminescent reaction. After immobilization, the time necessary to reach the steady state increased from 300 ms to 3 min and the two substrates, luciferin and ATP, behave differently with respect to the enzyme: The nature of the saturating substrate first in contact with the bound enzyme is not indifferent suggesting that immobilization can reveal behaviors or mechanisms which are not visualized with the free enzyme. 相似文献