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1.
Luciferases have proven to be useful tools in advancing our understanding of biologic processes. Having a multitude of bioluminescent reporters with different properties is highly desirable. We characterized codon-optimized thermostable green- and red-emitting luciferase variants from the Italian firefly Luciola italica for mammalian gene expression in culture and in vivo. Using lentivirus vectors to deliver and stably express these luciferases in mammalian cells, we showed that both variants displayed similar levels of activity and protein half-lives as well as similar light emission kinetics and higher stability compared to the North American firefly luciferase. Further, we characterized the red-shifted variant for in vivo bioluminescence imaging. Intramuscular injection of tumor cells stably expressing this variant into nude mice yielded a robust luciferase activity. Light emission peaked at 10 minutes post-d-luciferin injection and retained > 60% of signal at 1 hour. Similarly, luciferase activity from intracranially injected glioma cells expressing the red-shifted variant was readily detected and used as a marker to monitor tumor growth over time. Overall, our characterization of these codon-optimized luciferases lays the groundwork for their further use as bioluminescent reporters in mammalian cells.  相似文献   

2.
North American firefly Photinus pyralis luciferase, which emits yellow-green light (557 nm), has been adapted for a variety of applications, including gene reporter assays, whole-cell biosensor measurements, and in vivo imaging. Luciferase variants with red-shifted bioluminescence and high specific activity can be paired with green-emitting counterparts for use in dual-color reporter assays or can be used alone for in vivo imaging. Beginning with a previously reported red-emitting thermostable mutant and using mutagenesis techniques, we engineered two luciferases with redder emission maxima while maintaining satisfactory specific activities and thermostability. The novel enzymes were expressed in HEK293 cells, where they performed similarly to Promega’s codon-optimized click beetle red luciferase in model reporter assays. When the firefly luciferase variants were codon-optimized and retested using optimized substrate concentrations, they provided 50- to 100-fold greater integrated light intensities than the click beetle enzyme. These results suggest that the novel enzymes should provide superior performance in dual-color reporter and in vivo imaging applications, and they illustrate the importance of codon optimization for assays in mammalian cells.  相似文献   

3.
Chemical mutagens were used to obtain mutants deficient in bioluminescence in the marine bacterium Photobacterium fischeri strain MAV. Acridine dyes were effective in the production of dark mutants but not in the production of auxotrophs. These dark mutants were all of one type and appeared to contain lesions blocking the synthesis of luciferase. ICR-191 was especially effective in the production of aldehyde mutants, i.e., dark strains that luminesce when a long-chain aldehyde such as n-decanal is added to them. However, other mutant types were isolated after treatment with ICR-191. N-methyl-N'-nitro-N-nitrosoguanidine induced many bioluminescence-deficient types with respect to both the site of the lesion and the quantitative effect on the luminescent system. We characterized the dark and dim mutants with respect to their response to exogenous decanal, levels of in vivo and in vitro luminescence, and their rates of reversion to wild type. In addition, the luciferases of the mutant strains were examined by subunit complementation. On the basis of these analyses, we identified mutants which synthesize altered luciferase, strains which are deficient in synthesis of luciferase, and aldehyde mutants. The results of analysis of luciferase from the aldehyde mutants and the complementation studies indicate that the lesions in these strains are in the luciferase itself. Results obtained with wild-type cells grown in minimal medium, and aldehyde mutant cells grown either in complete or minimal medium, indicate that a "natural aldehyde factor" is involved in in vivo light emission. These same studies showed that the long-chain aldehyde(s) could only partially substitute for the natural "aldehyde factor." The possibility that the in vivo aldehyde factor is not a long-chain aldehyde is discussed.  相似文献   

4.
J Liu  A Escher 《Gene》1999,237(1):153-159
We have previously reported the construction of a functional Renilla luciferase enzyme secreted by mammalian cells when fused to the signal peptide of human interleukin-2. The presence of three predicted cysteine residues in the amino acid sequence of Renilla luciferase suggested that its secreted form could contain oxidized sulfhydryls, which might impair enzyme activity. In this work, four secreted Renilla luciferase mutants were constructed to investigate this possibility: three luciferase mutants in which a different cysteine residue was replaced by an alanine residue, and one luciferase mutant in which all three cysteine residues were replaced by alanine residues. Simian cells were transfected with the genes encoding these mutant luciferases, as well as with the original gene construct, and cell culture media were assayed for bioluminescence activity. Only media containing a mutated luciferase with a cysteine to alanine substitution at position 152 in the preprotein showed a marked increase in bioluminescence activity when compared to media containing the original secreted Renilla luciferase. This increase in light emission was due in part to enhanced stability of the mutant enzyme. This new enzyme represents a significant improvement in the sensitivity of the secreted Renilla luciferase assay for monitoring gene expression.  相似文献   

5.
A study was made of the refolding of bacterial luciferases of Vibrio fischeri, V. harveyi, Photobacterium phosphoreum, and Photorhabdus luminescens. By reaction rate, luciferases were divided into two groups. The reaction rate constants of fast luciferases of V. fischeri and Ph. phosphoreum were about tenfold higher than those of slow luciferases of Ph. luminescens and V. harveyi. The order of increasing luciferase thermostability was Ph. phosphoreum, V. fischeri, V. harveyi, and Ph. luminescens. The refolding of thermoinactivated luciferases completely depended on the active DnaK-DnaJ-GrpE chaperone system. Thermolabile fast luciferases of V. fischeri and Ph. phosphoreum showed highly efficient rapid refolding. Slower and less efficient refolding was characteristic of thermostable slow luciferases of V. harveyi and Ph. luminescens. Chaperones of the Clp family were tested for effect on the efficiency of DnaK-dependent refolding of bacterial luciferases in Escherichia coli cells. The rate and extent of refolding were considerably lower in the clpB mutant than in wild-type cells. In E. coli cells with mutant clpA, clpP, of clpX showed a substantially lower luciferase refolding after heat shock.  相似文献   

6.
Bacterial luciferases and the genes encoding these light-emitting enzymes have an increasing number of applications in biological sciences. Temperature lability and the heterodimeric nature of these luciferases have been the major obstacles for their widespread use, for instance, as genetic reporters. Escherichia coli expressing wild-type Photorhabdus luminescens luciferase was found to produce eight times more light than the corresponding Vibrio harveyi luciferase clone in vivo at 37 degrees C. Three monomeric luciferases were created by translationally fusing the two genes encoding luxA and luxB proteins of P. luminescens. These clones were equally active in producing light in vivo when cultivated at 37 degrees C compared to cultivation at 30 degrees C. The fusion containing the longest linker showed the highest activity. In vitro, the monomeric luciferases were less active having at best 20% of activity of the wild-type enzyme due to the partial formation of insoluble aggregates. The results suggest that P. luminescens luciferase and monomeric derivatives thereof should be more suitable than the corresponding V. harveyi enzyme to be used as reporters in cell types which need cultivation at elevated temperatures.  相似文献   

7.
8.
The autosomal dominant skin disorder erythrokeratodermia variabilis (EKV) has been linked to mutations in the human connexin31 (hCx31) gene, which is expressed in the epidermis. We characterized and compared a pathogenic mutation resulting in replacement of amino acid glycine 12 with arginine (G12R) with wild-type hCx31 protein. HeLa cells were transfected with wild-type and mutant hCx31 cDNA, respectively, using different-constitutive and inducible-vector systems. Independent of the expression vector, wild-type and mutant hCx31 were expressed at comparative levels and localized at the plasma membranes. Mutated channels (hCx31G12R) showed higher conductance in dye coupling studies than wild type channels. Furthermore, HeLa cells died within 5 days after constitutive expression of the mutant protein. Using an inducible expression system, we demonstrated a direct correlation between survival/life span of transfected HeLa cells and expression level of the mutant protein, indicating a gain-of-function mechanism due to a defective channel closure mechanism.  相似文献   

9.
10.
Complementation has been demonstrated between two mutant bacterial luciferases which possess low activities due to different structural defects in different subunits. Activity characteristic of the wild type dimer was obtained by incubating under non-denaturing conditions. The specific activities of the two mutant enzymes were determined by using specific antiserum made against the wild type luciferase.  相似文献   

11.
Dissociation constants (Ks) in the pH range 6.5-9.0 for complexes of luciferin, dimethyloxyluciferin (DMOL), and monomethylluciferin (MMOL) with recombinant wild-type and mutant (His433Tyr) luciferases from the Luciola mingrelica firefly were determined by fluorescent titration. The protonated effectors were bound by the wild-type and mutant luciferases better than the nonprotonated ones. The affinity of DMOL for the mutant luciferase was higher than for the wild-type luciferase at alkaline pH, whereas the affinity of MMOL was higher at all pH values studied. The fluorescence emission and excitation spectra of DMOL and MMOL in buffer solution (pH 7.8) were obtained in the absence and presence of luciferase. The fluorescence maxima of DMOL and MMOL complexes with luciferase were 20 and 100 nm, respectively, shifted to shorter wavelengths as compared to the values in buffer solution. This was explained by nonspecific and specific influence of the protein microenvironment on the fluorescence spectra of DMOL and its specific influence on the MMOL fluorescence spectra.  相似文献   

12.

Background

Despite a plethora of bioluminescent reporter genes being cloned and used for cell assays and molecular imaging purposes, the simultaneous monitoring of multiple events in small animals is still challenging. This is partly attributable to the lack of optimization of cell reporter gene expression as well as too much spectral overlap of the color-coupled reporter genes. A new red emitting codon-optimized luciferase reporter gene mutant of Photinus pyralis, Ppy RE8, has been developed and used in combination with the green click beetle luciferase, CBG99.

Principal Findings

Human embryonic kidney cells (HEK293) were transfected with vectors that expressed red Ppy RE8 and green CBG99 luciferases. Populations of red and green emitting cells were mixed in different ratios. After addition of the shared single substrate, D-luciferin, bioluminescent (BL) signals were imaged with an ultrasensitive cooled CCD camera using a series of band pass filters (20 nm). Spectral unmixing algorithms were applied to the images where good separation of signals was observed. Furthermore, HEK293 cells that expressed the two luciferases were injected at different depth in the animals. Spectrally-separate images and quantification of the dual BL signals in a mixed population of cells was achieved when cells were either injected subcutaneously or directly into the prostate.

Significance

We report here the re-engineering of different luciferase genes for in vitro and in vivo dual color imaging applications to address the technical issues of using dual luciferases for imaging. In respect to previously used dual assays, our study demonstrated enhanced sensitivity combined with spatially separate BL spectral emissions using a suitable spectral unmixing algorithm. This new D-luciferin-dependent reporter gene couplet opens up the possibility in the future for more accurate quantitative gene expression studies in vivo by simultaneously monitoring two events in real time.  相似文献   

13.
3a蛋白和7a蛋白是SARS-CoV的非结构蛋白,分别主要由SARS基因组中ORF 3a 和ORF 7a所编码。在体内和体外感染病毒的细胞中均发现了有3a蛋白的表达。首先将pGL3-Control载体进行了改构,除去了SV40启动子基因,获得了pGL3-Enhancer载体,将获得的IFN-β启动子基因连入载体中,构建了带有人IFN-β启动子基因的荧光素酶报告质粒IP-21,并且通过实验证明所构建的质粒在干扰素的诱导剂NDV的作用下能够表达荧光素酶活性,照度计检测荧光素酶活性增强,从而验证了所构建的重组质粒的有效性。为了观察SARS-CoV非结构蛋白3a和7a对干扰素诱生途径的影响,将IP-21瞬转入稳定表达有3a和7a蛋白的CHO细胞,通过荧光素酶的信号强弱对3a和7a的作用进行分析,结果表明SARS-CoV的3a和7a蛋白能够刺激荧光素酶的表达,即在体外的细胞实验中,3a和7a能有效地激活IFN-β的启动子部分。此结果对进一步研究3a和7a的功能以及对SARS-CoV的致病机制的进一步研究有一定意义。  相似文献   

14.
Luciferase was rapidly inactivated in stationary-phase cultures of the wild type of the luminous marine bacterium Vibrio harveyi, but was stable in stationary-phase cultures of mutants of V. harveyi that are nonluminous without exogenous aldehyde, termed the aldehyde-deficient mutants. The inactivation in the wild type was halted by cell lysis and was slowed or stopped by O2 deprivation or by addition of KCN and NaF or of chloramphenicol. If KCN and NaF or chloramphenicol were added to a culture before the onset of luciferase inactivation, then luciferase inactivation did not occur. However, if these inhibitors were added after the onset of luciferase inactivation, then luciferase inactivation continued for about 2 to 3 h before the inactivation process stopped. The onset of luciferase inactivation in early stationary-phase cultures of wild-type cell coincided with a slight drop in the intracellular adenosine 5'-triphosphate (ATP) level from a relatively constant log-phase value of 20 pmol of ATP per microgram of soluble cell protein. Addition of KCN and NaF to a culture shortly after this drop in ATP caused a rapid decrease in the ATP level to about 4 pmol of ATP per microgram whereas chloramphenicol added at this same time caused a transient increase in ATP level to about 25 pmol/microgram. The aldehyde-deficient mutant (M17) showed a relatively constant log-phase ATP level identical with that of the wild-type cells, but rather than decreasing in early stationary phase, the ATP level increased to a value twice that in log-phase cells. We suggest that the inactivation of luciferase is dependent on the synthesis of some factor which is produced during stationary phase and is itself unstable, and whose synthesis is blocked by chloramphenicol or cyanide plus fluoride.  相似文献   

15.
考察自制的肽型阳离子脂质体CDO14作为RNA转染载体的细胞毒性及其运载si RNA进行RNA干扰的效果。通过MTT法检测脂质体对稳定表达荧光素酶的肺癌A549(Luc-A549)细胞的毒性。以脂质体为载体将荧光素酶si RNA(Luc-si RNA)转染至Luc-A549细胞内,用发光仪检测转染细胞内荧光素酶含量,BCA法检测细胞内总蛋白含量。在裸鼠腋下接种Luc-A549细胞,成瘤后尾静脉注射Luc-si RNA和脂质体的复合物,利用活体成像系统检测模型小鼠体内荧光素酶的表达量。细胞毒性实验表明,自制脂质体的毒性与商品脂质体DOTAP相近,低于商品脂质体Lipo2000;细胞转染实验表明自制脂质体作为基因转染载体的转染效率高于DOTAP;体内转染实验表明CDO14作为载体转染效果优于DOTAP。结果表明,肽型阳离子脂质体CDO14具有毒性小、转染效率高等优点,有望作为转染载体用于基因治疗。  相似文献   

16.
Bioluminescence spectra of the wild-type recombinant Luciola mingrelica firefly luciferase and its mutant form with the His433Tyr point mutation were obtained within the pH 5.6-10.2 interval. The spectra are shown to be a superposition of the spectra of the three forms of the electronically excited reaction product oxyluciferin: ketone (lambdamax = 618 nm), enol (lambdamax = 587 nm), and enolate-ion (lambdamax = 556 nm). The shift in lambdamax by 40 nm to the red region in the mutant luciferase bioluminescence at the pH optimum of enzyme activity (pH 7.8) is explained by the change in the relative content of different oxyluciferin forms due to the shift in the ketone <--> enol <--> enolate equilibria. A computer model of the luciferase-oxyluciferin-AMP complex was constructed and the structure of amino acid residues participating in the equilibrium is proposed. Computer models of the protein region near the His433 residue for the wild type and mutant luciferases are also proposed. Comparison of the models shows that the His433Tyr mutation increases flexibility of the polypeptide loop that binds the N and C domains of luciferase. As a result, the flexibility of the C domain amino acid residues in the emitter microenvironment increases, and this increase may be the reason for the observed differences in the bioluminescence spectra of the native and mutant luciferases.  相似文献   

17.
The aim of this study was to compare three different luciferase genes by placing them in a single reporter vector and expressing them in the same mammalian cell type. The luciferase genes investigated were the luc genes from the fireflies Photinus pyralis (PP) and Luciola mingrelica (LM) and the lux AB5 gene, a translational fusion of the two subunits of the bacterial luciferase from Vibrio harveyi (VH). The chloramphenicol acetyltransferase (CAT) gene was also included in this study for comparison. The performances of the assay methods of the corresponding enzymes were evaluated using reference materials and the results of the expressed enzymes following transfection were calculated using calibration curves. All of the bioluminescent assays possess high reproducibility both within and between the batches (less than 15%). The comparison of the assay methods shows that firefly luciferases have the highest detection sensitivity (0.05 and 0.08 amol for PP and LM, respectively) whereas the VH bacterial luciferase has 5 amol and CAT 100 amol. On the other hand, the transfection of the various plasmids shows that the content of the expressed enzyme within the cells is much higher for CAT than for the other luciferase genes. VH luciferase is expressed at very low levels in mammalian cells due to the relatively high temperature of growing of the mammalian cells that seems to impair the correct folding of the active enzyme. PP and LM luciferases are both expressed at picomolar level but usually 10 to 70 times less in content with respect to CAT within the transfected cells. On the basis of these results the overall improvement in sensitivity related to the use of firefly luciferases as reporter genes in mammalian cells is about 30 to 50 times with respect to that of CAT.  相似文献   

18.
In the present study, we applied a highly sensitive NanoLuc‐based technology to understand the status of superoxide dismutase 1 (SOD1) within mammalian cells. Two fragments of NanoLuc (NanoBit), large N‐terminal and small C‐terminal regions, were fused with wild‐type (wt) and mutant human SOD1 (hSOD1) genes and transfected into cells. Luciferase activity through NanoBit assembly was only detected in NanoBit‐tagged wtSOD1‐expressing cells. Furthermore, the developed NanoLuc system was used to investigate the role of protein‐protein interactions in the pathogenesis of amyotrophic lateral sclerosis (ALS). In addition to SOD1, we also applied this NanoBit system for detecting the dimerization of wild‐type, M337V‐mutated human TAR‐binding protein 43 kDa (hTDP43) and its cleaved C‐terminal fragment (TDP25M337V) as well as their interactions with SOD1. Luciferase activities of NanoBit‐tagged mutant SOD1, TDP43, or TDP25 were negligible. Finally, we found that a zinc chelator partially reduced the luciferase activity of NanoBit‐wtSOD1. Collectively, these results show that the present assay is sensitive and convenient to appreciate ALS and to develop useful agents for the modulation of SOD1 conformation.  相似文献   

19.
The comparison of click beetle and railroadworm luciferases (pH-insensitive) with firefly luciferases (pH-sensitive) showed a set of conserved residues differing between the two groups which could be involved with the bioluminescence spectra pH sensitivity. The substitution C258V in Pyrocoelia miyako (Pml) firefly luciferase and V255C in Ragophthalmus ohbai railroad worm luciferase (Rol) had no effect on the bioluminescence spectra. Substitution of Thr226 in the green-light-emitting luciferases of Rol and Pyrearinus termitilluminans (Pyt) click beetle luciferases resulted in red-shifts (12 to 35 nm), whereas the substitution T226N in the red-light-emitting luciferase of Phrixothrix hirtus (PhRE) railroadworm resulted in a 10 nm blue-shift. In PmL the substitution N230S resulted in a typical red mutant (lambda(max) = 611 nm). The bioluminescence spectrum of all these luciferase mutants did not show altered pH-sensitivity nor considerably changed half-bandwidth in relation to the wild-type luciferases. Altogether present data suggest that Thr226 is an important residue for keeping active-site core in both groups of beetle luciferases. The mechanism for bioluminescence color determination between pH-sensitive and pH-insensitive luciferases could be different.  相似文献   

20.
Lipofection of cDNAs in the embryonic vertebrate central nervous system.   总被引:8,自引:0,他引:8  
C E Holt  N Garlick  E Cornel 《Neuron》1990,4(2):203-214
Neurons from the embryonic brain of Xenopus were transfected in vivo with a vector expressing luciferase cDNA using a simple lipofection procedure. Luciferase activity was monitored quantitatively, and the protein was immunolocalized in whole-mount embryonic brains. Luciferase-expressing neurons were often intensely labeled, displaying a Golgi-like filling of their dendrites, axons, and growth cones. Luciferase expression could be targeted to the retina by simply removing the skin epidermis covering the area and exposing the whole embryo to the DNA-lipofectin mixture. Luciferase activity in transfected embryos rose to peak values during the first 48 hr posttransfection and was still detectable 28 days later. Cotransfection experiments in which embryonic nervous tissue was exposed simultaneously to two different genes, luciferase and chloramphenicol acetyl-transferase, showed that transfected cells coexpressed the two genes at an extremely high frequency (85%-100%). This offers the possibility of targeting functionally significant genes along with benign reporter genes in the developing CNS.  相似文献   

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