栉角雪萤的荧光酶基因结构及其系统发育分析

短角窗萤属是萤科第四大属,但未见有该属物种荧光酶基因的研究报道.通过对总基因组的PCR扩增,对该属的栉角雪萤荧光酶基因进行了测序分析.基因序列长1 958 bp.与已知荧光酶基因进行同源性比较后推断,栉角雪萤的荧光酶基因由7个外显子和6个内含子组成,编码547个氨基酸残基;由推导的氨基酸序列进行同源性比较后发现,栉角雪萤的荧光酶基因与同一亚科中Lampyrini族和Cratomorphini族分别具有93-94%和92%相似性,而与北美萤火虫Photinus pyralis(Photinini族)的相似性较低(83%).系统发育分析进一步表明栉角雪萤与Pyrocoelia、Lampyris、Cratomorphus和Photinus同属于萤亚科,且与前3个属的亲缘关系较近.这在一定程度上与形态(Branham & Wenzel,2003)及线粒体DNA(Li et al,2006)系统发育分析所得结果一致.

不同地域卵黄萤荧光素酶基因的克隆与序列分析

为了比较不同地域萤火虫荧光素酶基因的进化关系,通过GenBank中已知的荧光素酶基因保守区段设计引物,利用5'-RACE(rapid-amplification of cDNA ends)和3'-RACE技术克隆了来自云南省文山州和西双版纳州的同种卵黄萤荧光素酶基因cDNA和全基因序列.来自不同地域的2种卵黄萤荧光素酶在基因序列上存在3个不同碱基位点,但是它们编码的荧光素酶只存在1个不同的氨基酸.卵黄萤荧光素酶基因全长(从起始密码子到终止密码子)1998 bp,包含7个外显子,6个内含子,其cDNA序列共1976 bp,包含102 bp 5'UTR(untranslated region)、1635 bp的荧光素酶基因开放阅读框和239 bp的3'UTR序列.卵黄萤荧光素酶基因的开放阅读框编码1个544个氨基酸的蛋白质,比同属的其它几种荧光素酶少4个氨基酸.来自2个不同地域的卵黄萤荧光素酶在进化上是比较保守的,它们与北美萤火虫Photinus pyralis荧光素酶在碱基序列上分别有62.9%和63%相似性.

卵黄萤荧光素再生酶基因的克隆与序列分析

目的 克隆和分析荧光素再生酶基因(LRE).方法 通过GeneBank中已知的荧光素再生酶基因保守区段设计引物,利用5'RACE(rapid-amplification of cDNA ends)和3'RACE技术克隆了来自云南省两双版纳州的卵黄萤(Luciola ovalis)荧光素再生酶基因cDNA和全基因序列.通过GeneBank、National Center for Bioteclmology Information和ProDom at the ExPASy Server软件和数据库进行序列分析.结果 卵黄萤荧光素再牛酶的cDNA序列和基因序列存在2个不同碱基位点,但是它们编码的荧光素再生酶是相同的.卵黄萤荧光素再生酶基因全长(从起始密码子到终止密码子)为1131 bp,包含5个外显子4个内含子,其cDNA 序列为1008 bp,包含924bp的荧光素酶基因开放阅读框和84 bp的3'UTR序列.卵黄萤荧光素酶基因的开放阅读框编码1个307个氨基酸的蛋白质.它与北美萤火虫(Photinus pyralis)荧光素再生酶在碱基序列和氨基酸序列上分别有61.8%和53.3%的相似性.结论 成功地克隆了荧光素再生酶的cDNA和基因序列,为其在基因工程中的应用奠定了基础.

中国两种萤火虫荧光素酶基因的分子克隆表达及其序列分析

本文通过5’-RACE和3’-RACE方法克隆了西双版纳地区的卵黄萤Luciola ovalis和端黑萤Luciola terminalis两种荧光素酶基因。两个荧光素酶基因被连接到pET-15b载体上并在BL21(DE3)菌株中表达。L. ovalis荧光素酶基因的开放阅读框有1635个碱基，编码一个544个氨基酸的蛋白。L. terminalis荧光素酶基因有一个1647bp的开放阅读框，编码一个548个氨基酸的蛋白。它们的氨基酸序列和北美萤火虫(Photinus pyralis)的氨基酸序列分别有65.3%和65.9%的相似性，而彼此之间又有73.5%的相似性。两种在大肠杆菌中表达的荧光素酶均有很高的活性，它们的最大发光波长分别是566 nm和563 nm。同时表达的四种荧光素酶(L. ovalis、L. terminalis、Hotaria parvula和Pyrocoelia miyako)在不同pH下活性变化很大，四种荧光素酶在pH 6.5-7.5之间有比较高的活性，其中L. ovalis和P. miyako两种荧光素酶在pH 7.0时活性最高，而另两种在pH 7.5时活性最高。当pH大于8.0时，这四种荧光素酶的活性都散失很快，可见它们对pH变化非常敏感。序列分析和结构模拟发现，荧光素酶活性位点周围有六个非常保守的结构域，这六个保守区域包含了大多数在催化发光反应中与底物荧光素和ATP结合的氨基酸。L. terminalis萤火虫荧光素酶的三级结构与L. cruciata荧光素酶晶体结构非常相似，而L. ovalis荧光素酶的三级结构在AMP结合位点附近有两个偏离的环。

A new firefly luciferase with bimodal spectrum: Identification of structural determinants of spectral pH-sensitivity in firefly luciferases

Fireflies emit flashes in the green-yellow region of the spectrum for the purpose of sexual attraction. The bioluminescence color is determined by the luciferases. It is well known that the in vitro bioluminescence color of firefly luciferases can be shifted toward the red by lower pH and higher temperature; for this reason they are classified as pH-sensitive luciferases. However, the mechanism and structural origin of pH sensitivity in fireflies remains unknown. Here we report the cloning of a new luciferase from the Brazilian twilight active firefly Macrolampis sp2, which displays an unusual bimodal spectrum. The recombinant luciferase displays a sensitive spectrum with the peak at 569 nm and a shoulder in the red region. Comparison of the bioluminescence spectra of Macrolampis, Photinus and Cratomorphus firefly luciferases shows that the distinct colors are determined by the ratio between green and red emitters under luciferase influence. Comparison of Macrolampis luciferase with the highly similar North American Photinus pyralis luciferase (91%) showed few substitutions potentially involved with the higher spectral sensitivity in Macrolampis luciferase. Site-directed mutagenesis showed that the natural substitution E354N determines the appearance of the shoulder in the red region of Macrolampis luciferase bioluminescence spectrum, helping to identify important interactions and residues involved in the pH-sensing mechanism in firefly luciferases. © 2005 American Society for Photobiology.

The influence of the loop between residues 223-235 in beetle luciferase bioluminescence spectra: A solvent gate for the active site of pH-sensitive luciferases

Beetle luciferases emit a wide range of bioluminescence colors, ranging from green to red. Firefly luciferases can shift the spectrum to red in response to pH and temperature changes, whereas click beetle and railroadworm luciferases do not. Despite many studies on firefly luciferases, the origin of pH-sensitivity is far from being understood. Through comparative site-directed mutagenesis and modeling studies, using the pH-sensitive luciferases (Macrolampis and Cratomorphus distinctus fireflies) and the pH-insensitive luciferases (Pyrearinus termitilluminans, Phrixotrix viviani and Phrixotrix hirtus) cloned by our group, here we show that substitutions dramatically affecting bioluminescence colors in both groups of luciferases are clustered in the loop between residues 223-235 (Photinus pyralis sequence). The substitutions at positions 227, 228 and 229 (P. pyralis sequence) cause dramatic redshift and temporal shift in both groups of luciferases, indicating their involvement in labile interactions. Modeling studies showed that the residues Y227 and N229 are buried in the protein core, fixing the loop to other structural elements participating at the bottom of the luciferin binding site. Changes in pH and temperature (in firefly luciferases), as well as point mutations in this loop, may disrupt the interactions of these structural elements exposing the active site and modulating bioluminescence colors. © 2007 The Authors.

The structural origin and biological function of pH-sensitivity in firefly luciferases

Firefly luciferases are called pH-sensitive because their bioluminescence spectra display a typical red-shift at acidic pH, higher temperatures, and in the presence of heavy metal cations, whereas other beetle luciferases (click beetles and railroadworms) do not, and for this reason they are called pH-insensitive. Despite many studies on firefly luciferases, the origin of pH-sensitivity is far from being understood. This subject is revised in view of recent results. Some substitutions of amino-acid residues influencing pH-sensitivity in firefly luciferases have been identified. Sequence comparison, site-directed mutagenesis and modeling studies have shown a set of residues differing between pH-sensitive and pH-insensitive luciferases which affect bioluminescence colors. Some substitutions dramatically affecting bioluminescence colors in both groups of luciferases are clustered in the loop between residues 223-235 (Photinus pyralis sequence). A network of hydrogen bonds and salt bridges involving the residues N229-S284-E311-R337 was found to be important for affecting bioluminescence colors. It is suggested that these structural elements may affect the benzothiazolyl side of the luciferin-binding site affecting bioluminescence colors. Experimental evidence suggest that the residual red light emission in pH-sensitive luciferases could be a vestige that may have biological importance in some firefly species. Furthermore, the potential utility of pH-sensitivity for intracellular biosensing applications is considered. © The Royal Society of Chemistry and Owner Societies.

Klonierung und Charakterisierung der Luziferase und des Luziferin regenerierenden Enzyms aus dem marinen Schwamm Suberites domuncula

Bereits 1971 erkannte Reiswig bei einigen Schwämmen in der Kontraktion des Osculums eine Reaktion auf Licht. Nachfolgend konnte für eine Reihe von Schwämmen die Existenz von Lichtreaktionen beobachtet werden (Wapstra & van Soest, 1987). In dieser Arbeit sollten Gene eines Luziferin/Luziferase Systems im marinen Schwamm Suberites domuncula identifiziert werden, die eine Rolle bei der Bio¬lumineszenz spielen. Mit Hilfe der PCR-Technik konnten die in der cDNA-Bank identifizierten Fragmente einer Luziferase und eines Luziferin regenerierenden Enzyms erfolgreich vervollständigt, kloniert und analysiert werden. Datenbank¬analysen der abgeleiteten Aminosäuresequenzen ergeben sowohl für die Luziferase als auch für das Luziferin regenerierende Enzym Ähnlichkeiten zu den entsprechenden Proteinen aus Leuchtkäfern, wie z. B. Photinus pyralis. Ausgehend von der cDNA wurden zunächst beide Enzyme in E. coli rekombinant exprimiert und affinitätschromatographisch aufgereinigt. Für die Luziferase gelang es, spezifische Antikörper herzustellen, die im Anschluss an den im Western Blot durchgeführten Nachweis eine Identifizierung in histologischen Schwamm¬schnitten ermöglichte. Weitere Analysen konnten für Suberites domuncula sowohl im Schwammgewebe, im Proteinextrakt als auch für das rekombinante Protein die Licht-generierende Fähigkeit nachweisen. Das ermittelte in vitro Biolumineszenz-Emissionsspektrum der rekombinanten Luziferase weist eine Lichtemission im gelb-grünen Bereich des Spektrums mit einem Maximum bei 548 nm und einer Schulter bei 590 nm auf. Ausserdem bestätigte die Funktionanalyse des rekombinanten Enzyms die für Luziferasen bekannte ATP- und Temperatur¬abhängigkeit sowie den stimulierenden Effekt von Coenzym A. Die Existenz einer bioaktiven Luziferase in einem der ältesten, rezent vertretenen Metazoa deutet darauf hin, dass sich die Oxygenasefunktion der Luziferasen bereits früher entwickelte, als bisher von Viviani* vermutet. Die bisherigen Daten über die optischen Eigenschaften der Spiculae liefern gemeinsam mit den Ergebnissen dieser Arbeit – einer Licht-emittierenden Luziferase in S. domuncula – die Voraussetzungen für die mögliche Existenz eines Photorezeptionssystems in Schwämmen.

An ultrasensitive NanoLuc-based luminescence system for monitoring Plasmodium berghei throughout its life cycle

BACKGROUND: Bioluminescence imaging is widely used for cell-based assays and animal imaging studies, both in biomedical research and drug development. Its main advantages include its high-throughput applicability, affordability, high sensitivity, operational simplicity, and quantitative outputs. In malaria research, bioluminescence has been used for drug discovery in vivo and in vitro, exploring host-pathogen interactions, and studying multiple aspects of Plasmodium biology. While the number of fluorescent proteins available for imaging has undergone a great expansion over the last two decades, enabling simultaneous visualization of multiple molecular and cellular events, expansion of available luciferases has lagged behind. The most widely used bioluminescent probe in malaria research is the Photinus pyralis firefly luciferase, followed by the more recently introduced Click-beetle and Renilla luciferases. Ultra-sensitive imaging of Plasmodium at low parasite densities has not been previously achieved. With the purpose of overcoming these challenges, a Plasmodium berghei line expressing the novel ultra-bright luciferase enzyme NanoLuc, called PbNLuc has been generated, and is presented in this work. RESULTS: NanoLuc shows at least 150 times brighter signal than firefly luciferase in vitro, allowing single parasite detection in mosquito, liver, and sexual and asexual blood stages. As a proof-of-concept, the PbNLuc parasites were used to image parasite development in the mosquito, liver and blood stages of infection, and to specifically explore parasite liver stage egress, and pre-patency period in vivo. CONCLUSIONS: PbNLuc is a suitable parasite line for sensitive imaging of the entire Plasmodium life cycle. Its sensitivity makes it a promising line to be used as a reference for drug candidate testing, as well as the characterization of mutant parasites to explore the function of parasite proteins, host-parasite interactions, and the better understanding of Plasmodium biology. Since the substrate requirements of NanoLuc are different from those of firefly luciferase, dual bioluminescence imaging for the simultaneous characterization of two lines, or two separate biological processes, is possible, as demonstrated in this work.

Receptor-mediated gene transfer into macrophages.

Gene transfer systems targeting various receptors have been developed to introduce functional genes into cells in culture and into intact animals. A synthetic molecular conjugate, consisting of mannosylated polylysine that exploits endocytosis via the macrophage mannose receptor, was constructed and complexed to expression plasmids containing either the Photinus pyralis luciferase or Escherichia coli beta-galactosidase (lacZ) reporter genes. The DNA complexes were used to transfect murine macrophages isolated from peritoneal exudates in vitro. Luciferase and beta-galactosidase activity was found in transfected cells in culture, whereas complexes consisting of an irrelevant plasmid bound to mannosylated polylysine or the expression plasmid bound to galactosylated polylysine resulted in no detectable transgene expression. Gene transfer was inhibited by the addition of excess mannosylated bovine serum albumin to the culture medium before transfection. Reporter genes were also transferred into macrophages residing in the spleen and liver of adult animals using this system. Luciferase activity was maximal at 4 days after transfection and decreased to lower levels by 16 days. Transgene expression conformed to the distribution of cells that had nonspecific esterase, a cytochemical marker for macrophages. Thus, this system can be used to introduce functional genes into macrophages and may be an approach to the treatment of storage diseases that affect the reticuloendothelial system.

The first cytogenetic report of fireflies (Coleoptera, Lampyridae) from Brazilian fauna

The first cytogenetic analysis of fireflies from Brazilian fauna was carried out in this work. The investigation of two species of the subfamily Lampyrinae, Aspisoma maculatum and Photinus sp. (aff. pyralis), showed the diploid number 2n = 19 and an X0 sex determination system in males. These observations are similar to those already described for all the Lampyrinae species previously studied. In contrast, Bicellonycha lividipennis (Photurinae) revealed the karyotype 2n = 16 + neoXY, which has not yet been registered for any firefly species. The neoXY sex determination system encountered in this species probably arose through fusion between an ancestral X sex chromosome, belonging to the X0 system, and an autosomal element. This event also reduced the diploid number from 2n = 19, which is more frequent in the family Lampyridae, to 2n = 18 in B. lividipennis. The analysis of meiotic cells showed that the neoXY sexual bivalent of B. lividipennis exhibited a prominent terminal chiasma, indicating that the sex chromosomes are not wholly differentiated and still retain a region of homology. A review of the cytogenetic data known for the family Lampyridae was also documented in this work, as well as a discussion on the main trends of chromosomal evolution that seem to have occurred in this group.

The histology of the light organs of Photinus marginellus

Reprint from vol. XXXVIII, No. 446.

Cloning and characterization of the cDNA for the Brazilian Cratomorphus distinctus larval firefly luciferase: Similarities with European Lampyris noctiluca and Asiatic Pyrocoelia luciferases

Studies on firefly (Lampyridae) luciferases have focused on nearctic species of Photinus and Photuris and Euroasiatic species of Lampyris, Luciola, Hotaria, and Pyrocoelia. Despite accounting for the greatest diversity of fireflies in the world, no molecular studies have been carried out on the highly diverse genera from the neotropical region. Here we report the luciferase cDNA cloning for the larva of the Brazilian firefly Cratomorphus distinctus. The cDNA has 1978 bp and codes for a 547-residue-long polypeptide. Noteworthy, sequence comparison as well as functional properties show the highest degree of similarity with Lampyris noctiluca (93%) and Pyrocoelia spp. (91%) luciferases, suggesting a close phylogenetic relationship despite the geographical distance separating these species. The bioluminescence emission spectrum peaks at 550 nm and, as expected, is sensitive to pH, shifting to 605 nm at pH 6. The kinetic properties of the recombinant luciferase were similar to those of other firefly luciferases. © 2004 Elsevier Inc. All rights reserved.

In vivo electroporation and ubiquitin promoter--a protocol for sustained gene expression in the lung

BACKGROUND: Gene therapy applications require safe and efficient methods for gene transfer. Present methods are restricted by low efficiency and short duration of transgene expression. In vivo electroporation, a physical method of gene transfer, has evolved as an efficient method in recent years. We present a protocol involving electroporation combined with a long-acting promoter system for gene transfer to the lung. METHODS: The study was designed to evaluate electroporation-mediated gene transfer to the lung and to analyze a promoter system that allows prolonged transgene expression. A volume of 250 microl of purified plasmid DNA suspended in water was instilled into the left lung of anesthetized rats, followed by left thoracotomy and electroporation of the exposed left lung. Plasmids pCiKlux and pUblux expressing luciferase under the control of the cytomegalovirus immediate-early promoter/enhancer (CMV-IEPE) or human polyubiquitin c (Ubc) promoter were used. Electroporation conditions were optimized with four pulses (200 V/cm, 20 ms at 1 Hz) using flat plate electrodes. The animals were sacrificed at different time points up to day 40, after gene transfer. Gene expression was detected and quantified by bioluminescent reporter imaging (BLI) and relative light units per milligram of protein (RLU/mg) was measured by luminometer for p.Pyralis luciferase and immunohistochemistry, using an anti-luciferase antibody. RESULTS: Gene expression with the CMV-IEPE promoter was highest 24 h after gene transfer (2932+/-249.4 relative light units (RLU)/mg of total lung protein) and returned to baseline by day 3 (382+/-318 RLU/mg of total lung protein); at day 5 no expression was detected, whereas gene expression under the Ubc promoter was detected up to day 40 (1989+/-710 RLU/mg of total lung protein) with a peak at day 20 (2821+/-2092 RLU/mg of total lung protein). Arterial blood gas (PaO2), histological assessment and cytokine measurements showed no significant toxicity neither at day 1 nor at day 40. CONCLUSIONS: These results provide evidence that in vivo electroporation is a safe and effective tool for non-viral gene delivery to the lungs. If this method is used in combination with a long-acting promoter system, sustained transgene expression can be achieved.