The ATP-bioluminescence method for a rapid evaluation of the microbial activity in the stone materials of monuments

The examination of the state of conservation of works of art in stone includes the assessment of the presence of microbiological agents on the surface of the decayed monuments. These microorganisms can accelerate, via their metabolic activity, the decay process of the stone surface. At present this assessment is made with the traditional techniques for the microbiological examination of the soil, provides results only after a delay of 30 days. A bioluminescent ATP assay should provide rapid quantitation of actively growing organisms on the surface of a stone monument, and the applicability of this technique was verified on some samples of sandstone (Pietraforte) collected from a historic building (the Strozzi Palace) in Florence. These samples were evaluated for the amount of the ATP and the total number of microorganisms. The results obtained suggest that the bioluminescent assay could be suitable for detecting and quantitating the presence of microorganisms in a sample of stone.     

Use of the bioluminescent method for the determination of bacterial adenosinetriphosphate (ATP-metry) in microbiology

The attention of a wide circle of specialists has recently been attracted by different methods for rapid determination of pathogenic microorganisms in biological specimens, environmental objects and foodstuffs, as well as in cases of possible acts of bioterrorism. In this respect the bioluminescent method for determination of adenosine triphosphate (ATP) contained in microbial cells is of interest. The method is based on the interaction ATP, luciferase and luciferin, accompanied by giving off energy in the form of light emission. When compared with routine methods, the use of this method considerably reduces the duration of the analysis, and its high sensitivity is comparable with that of the polymerase chain reaction. In this review the data on the prospects of the practical use of the bioluminescent method of ATP-metry are presented.     

A bioluminescent assay for the determination of phosphoenolpyruvate carboxykinase activity in nanogram-sized tissue samples

A highly specific and sensitive assay for the determination of phosphoenolpyruvate carboxykinase (PEPCK) in nanogram-sized tissue samples is described. This test system is based on the stoichiometric transformation of phosphoenolpyruvate into ATP. In a subsequent step ATP is quantified by bioluminescent techniques. The applicability of this assay system is shown by measurements in liver samples with normal and high PEPCK activity levels.     

Bioluminescent assay of total bacterial contamination of drinking water.

A bioluminescent assay of total bacterial contamination (TBC) of drinking water (DW) with a detection limit of approximately 1 CFU/mL and duration of less than 7 h has been developed. The protocol of the TBC assay comprises: incubation of water sample in nutrition broth supplemented with salts mixture, up to 6 h; filtration of bacterial suspension obtained through membrane filter (pore size 0.45 microm); release of bacterial ATP by dimethyl sulphoxide; determination of bacterial ATP concentration using highly sensitive ATP reagent based on recombinant Luciola mingrelica luciferase. To simplify the assay, special luminometer microcuvette Filtravette (New Horizons Diagnostics Corp., USA) are used. A good correlation (R=0.98) between ATP concentration measured after 6 h incubation and initial bacterial titre in DW was observed. Semi-quantitative TBC assay of DW is also available. The TBC value in DW is assessed by the fixation of incubation time required to detect a measurable bioluminescent signal: 3, 4 and 6 h corresponds to 100-1000, 10-100 and 1-10 CFU/mL, respectively.     

Human plasma gelsolin binds adenosine triphosphate

Binding studies of human plasma gelsolin with ATP were done by equilibrium dialysis. Analysis of the binding data showed that plasma gelsolin had one class of ATP binding site with Kd = 2.8 x 10(-7) M, which saturated at an ATP/gelsolin ratio of 0.6. The bioluminescent assay for ATP with luciferin and firefly luciferase confirmed that the protein contained a nucleotide as ATP.     

Chemiluminescent assay of co-factors

Bioluminescent methods are widely used for the assay of the co-factors, NADH and ATP. Although the bioluminescent method is highly sensitive, the enzymes used are unstable and expensive. Therefore a chemiluminescent method would be valuable in clinical routine assay. We have developed a chemiluminescent method for the assay of NADH using the 1-methoxy-5-methylphenazinium methyl sulphate (1-MPMS)/isoluminol(IL)/microperox-idase(m-POD) system. In order to increase the sensitivity of this method, enzymatic cycling system was coupled to the chemiluminescent assay of NADH. Alcohol dehydrogenase and malate dehydrogenase were used as the cycling enzyme. The standard curve was obtained in the range from 3 × 10^?14 to 5 × 10^?12mol/assay. The detection limit of NADH was 30fmol/assay which was comparable to that of the bioluminescent method using bacterial luciferase. Two chemiluminescent methods for the assay of ATP have been developed. Method 1 is the system using hexokinase/G6PDH and 1-PMS/IL/m-POD, and method 2 is the system based on the enzymatic cycling reaction of ATP using hexokinase/pyruvate kinase. Method 2 is 1000/fold more sensitive than the method 1. The detection limit of ATP was 10 fmol/assay.     

Methodological problems of direct bioluminescent ADP assay in platelets and erythrocytes

We have developed a method for ADP bioluminescent measurement in platelets and erythrocytes which complements our previous method for ATP assay. When the different parameters of the system under investigation are taken into account, a linea range between 10(-9) and 10(-7) g/ml can be obtained without incubation or troublesome extraction. This makes the method easy and useful for identifying any disease-induced alterations in ATP and/or ADP levels in these blood cells. The data obtained correlate well with those of a bioluminescent method requiring extraction with ethanol/EDTA and incubation, giving the reference intervals of 3.5-5.5 mumol/10(11) PLT for ATP determination and 1.9-3.7 mumol/10(11) PLT for ADP determination in platelets, and 3.2-3.8 mumol/g Hgb for ATP determination and 0.56-0.73 mumol/g Hgb for ADP in erythrocytes. This assay was applied to quality control on blood bags in transfusion centers and proved to be a rapid and reliable method for testing the viability of stored blood cells.     

Continuous flow method for extraction and bioluminescence assay of ATP in baker's yeast

Summary The intracellular ATP of baker's yeast (Saccharomyces cerevisiae) was measured using the bioluminescent firefly luciferase assay. Benzalkonium chloride and trichloro-acetic acid served in the experiments as extracting agents and optimal conditions for the extraction and assay of the intracellular ATP are reported. Using the results obtained from manually performed experiments two continuous flow systems were designed for the measurement of ATP in yeast cells during cell growth. Good correlation between the amount of cellular ATP and cell growth was found during the exponential growth phase.     

重组丙酮酸磷酸双激酶与荧光素酶偶联催化ATP-AMP循环反应

丙酮酸磷酸双激酶（pyruvate phosphate dikinase, PPDK; EC 2.7.9.1）能够可逆催化磷酸烯醇式丙酮酸（phosphoenolpyruvate, PEP）、单磷酸腺苷（adenosine monophosphate, AMP）和焦磷酸盐（pyrophosphate, PPi）生成三磷酸腺苷（adenosine triphosphate, ATP）、无机磷酸盐（orthophosphate, Pi）和丙酮酸（pyruvate）.以热玫瑰小双孢菌基因组DNA为模板,PCR扩增得到了编码PPDK的基因,将此基因片段插入表达载体pET24a (+),在大肠杆菌中表达C端融合His-Tag的重组PPDK.与我们先前表达的N端融合His-Tag的PPDK相比,酶的活性提高了20倍,提示该酶的N端对活性十分重要.重组PPDK单体分子量为98 kD.经过镍亲和层析和超滤后,重组PPDK基本达到电泳纯.重组PPDK与荧光素酶偶联能够形成1个ATP-AMP循环反应,在该循环反应中,荧光素酶催化ATP生成的AMP和PPi能够被PPDK重新转化成ATP,产生一个持续稳定的信号.     

Bioluminescent assay of ATPase activity in embryonic material using firefly luciferase

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.     

Bioluminescent assay of bacterial ATP for rapid detection of bacterial growth in clinical blood cultures

A bioluminescent assay of bacterial ATP for rapid detection of bacterial growth in 512 clinical aerobic blood cultures was evaluated. At the detection limit of bacterial ATP (10^?10 mol/l) in the blood cultures 94.2% of the true positive blood cultures were detected (sensitivity) and the specificity was 85.8%. If the cut-off limit was increased the sensitivity decreased and the specificity increased and at 2 × 10^?9 mol/l ATP the maximum correctly classified blood cultures was reached. At this cut-off limit the sensitivity was 82.9% and the specificity was 99.6%. In 54.3% of the true positive blood cultures bacterial growth was detected more rapidly with the bioluminescent assay than with macroscopic examination and subculture.     

A bioluminescent assay for monitoring conjugation of ubiquitin and ubiquitin-like proteins

Post-translational modification of target proteins by ubiquitin (Ub) and ubiquitin-like (Ubl) proteins is a critical mechanism for regulating protein functions affecting diverse cellular processes. Ub/Ubl proteins are conjugated to lysine residues in substrate proteins through an adenosine triphosphate (ATP)-dependent enzymatic cascade involving enzyme 1 (E1)-activating enzyme, E2-conjugating enzyme, and E3 ligase. The amount of adenosine monophosphate (AMP) produced in the first step, involving E1-mediated Ub/Ubl activation, represents an accurate measure of Ub/Ubl transfer during the process. Here we describe a novel bioluminescent assay platform, AMP-Glo, to quantify Ub/Ubl conjugation by measuring the AMP generated. The AMP-Glo assay is performed in a two-step reaction. The first step terminates the ubiquitination reaction, depletes the remaining ATP, and converts the AMP generated in the ubiquitination reaction to adenosine diphosphate (ADP), and in the second step the ADP generated is converted to ATP, which is detected as a bioluminescent signal using luciferase/luciferin, proportional to the AMP concentration and correlated with the Ub/Ubl transfer activity. We demonstrate the use of the assay to study Ub/Ubl conjugation and screen for chemical modulators of enzymes involved in the process. Because there is a sequential enhancement in light output in the presence of E1, E2, and E3, the AMP-Glo system can be used to deconvolute inhibitor specificity.     

Enumeration of bacterial cell numbers by amplified firefly bioluminescence without cultivation

We recently developed a novel bioluminescent enzymatic cycling assay for ATP and AMP with the concomitant use of firefly luciferase and pyruvate orthophosphate dikinase (PPDK), where AMP and pyrophosphate produced from ATP by firefly luciferase were converted back into ATP by PPDK. Background luminescence derived from contaminating ATP and AMP in the reagent was reduced using adenosine phosphate deaminase which degrades ATP, ADP, and AMP, resulting in constant and highly amplified bioluminescence with low background luminescence. To detect bacterial cells without cultivation, we applied the above bioluminescent enzymatic cycling reagent to rapid microbe detection system. ATP spots (0.31-5.0 amol/spot) at the level of a single bacterial cell were detected with 5 min signal integration, signifying that integrated luminescence was amplified 43 times in comparison to traditional ATP bioluminescence. Consequently, Escherichia coli, Staphylococcus aureus, Pseudomonas aeruginosa, and Lactobacillus brevis in beer were detected without cultivation. Significant correlation was observed between the number of signal spots obtained using this novel system and the colony-forming units observed with the conventional colony-counting method (R(2)=0.973).     

Methodological problems of direct bioluminescent ATP assay in platelets and erythrocytes

Direct bioluminescent ATP determination in platelets and erythrocytes involves the study of different parameters which are discussed here. Some parameters are linked to the bioluminescent reaction and to the analyte (ATP); others have regard to the biological matrix. The composition of bioluminescent reagents and the preparation and conservation of the ATP standard, also in the presence of excipients, are among the first given. Matrix problems involve cell characteristics related to age and form, lysis resistance and the possible formation of aggregates (platelets) that may inhibit the complete release of ATP. For these reasons we used the most efficient ATP release agent with the lowest inhibitory effect on luciferase. The data obtained correlate well with a bioluminescent method requiring extraction with ethanol/EDTA, and therefore more time, for ATP determination in platelets and erythrocytes.     

COMPARISON OF LUMINOL CHEMILUMINESCENCE WITH ATP BIOLUMINESCENCE FOR THE ESTIMATION OF TOTAL BACTERIAL LOAD IN PURE CULTURES

A rapid chemiluminescent assay of total bacterial load that is based on the oxidation of luminol (5-amino-2,3-dihydro-1,4-phthalazinedione) as catalyzed by bacterial iron protoporphyrins is described and compared to the ATP bioluminescent assay of microbial biomass. An assay format that elicits linear light output response to a range of analyte concentrations of model compounds such as hematin and various heme-containing enzymes within the dynamic range of a BioOrbit 1251 luminometer is presented. When the assay was applied to eight pure bacterial cultures, the sensitivity was typically in the range of 10⁴-10⁵ cfu/ml, and was comparable to that obtained by the ATP assay. Similar levels of sensitivity can be derived from estimates of average values of 2.8 × 10^-18 mole of heme/cfu and 1 × 10^-19 mole of ATP/cfu. The potential of the luminal assay as an alternative rapid test for the estimation of total bacterial count in food and environmental samples is discussed.     

An enzymatic cycling method using pyruvate orthophosphate dikinase and firefly luciferase for the simultaneous determination of ATP and AMP (RNA)

A novel bioluminescent enzymatic cycling assay for ATP and AMP with concomitant use of firefly luciferase and pyruvate orthophosphate dikinase (PPDK) was developed. In this system, AMP and pyrophosphate produced from ATP by firefly luciferase were converted back into ATP by PPDK. This resulted in constant luminescence once the stable phase had been reached. Background luminescence of the reagent was reduced with adenosine phosphate deaminase by degrading ATP and AMP in the reagent. The maximum recycling ratio calculated from the integrated luminescence value was 2.64 cycles/min. The measurable ranges for ATP and AMP were equal and were between 4 x 10(-13) and 4 x 10(-17) mol/assay. The amount of yeast RNA could be estimated in the range of 1 x 10(-8) to 1 x 10(-12) g/assay by estimating the amount of AMP resulting from the degradation of RNA with nuclease P1. Various food samples were subjected to measurement of the amount of ATP + AMP + RNA to provide an index for hygiene monitoring. For beef extract, sensitivity was improved by more than 20 million compared to the previous methods relying only on the amount of ATP as an index.     

Novel bioluminescent assay of alkaline phosphatase using adenosine-3'-phosphate-5'-phosphosulfate as substrate and the luciferin-luciferase reaction and its application

This paper describes a novel bioluminescent assay of alkaline phosphatase (ALP) utilizing ATP-sulfurylase and the luciferin-luciferase reaction. The principle governing the assay is as follows. Adenosine-3'-phosphate-5'-phosphosulfate, which serves as the substrate for ALP, is hydrolyzed enzymatically to produce adenosine-5'-phosphosulfate (APS). APS is converted into ATP by ATP-sulfurylase in the presence of pyrophosphate. The ATP produced is detected by the luciferin-luciferase reaction. The measurable range was 1 zmol to 100 fmol/assay and the detection limit at blank+3 SD was 10 zmol/assay. The coefficient of variation (CV, n=5) was examined at each point of the standard curve; the mean CV percentage was 4.47% (n=6). This assay system was applied to enzyme immunoassay of human chorionic gonadotropin and allele-specific PCR enzyme-linked immunosorbent assay of verotoxin gene using ALP as the label enzyme; 10(-2) mIU/mL hCG in urine and 5 pg of Escherichia coli O157 DNA could be assayed directly and with high sensitivity by the proposed method.     

发光细菌在水环境生物毒性检测中应用的研究进展

发光细菌是一类自身含发光基因且能够发出可见光的细菌,其分布非常广泛。由于具备了日常毒性检测所要求的快速灵敏以及再现性好的特点,发光细菌法愈来愈受到关注,且因其快速和低成本的特点常被用作早期预警系统。基因操作技术的介入更使得发光细菌试验具有了分辨各种毒性的功能。本文综述了发光细菌在环境毒性检测中的进展,重点介绍了基于发光细菌的毒性试验方法,以及在水质检测中的应用。     

Bacteriophage-based biosorbents coupled with bioluminescent ATP assay for rapid concentration and detection of Escherichia coli

Wild type T4 bacteriophage and recombinant T4 bacteriophages displaying biotin binding peptide (BCCP) and cellulose binding module (CBM) on their heads were immobilized on nano-aluminum fiber-based filter (Disruptor™), streptavidin magnetic beads and microcrystalline cellulose, respectively. Infectivity of the immobilized phages was investigated by monitoring the phage-mediated growth inhibition of bioluminescent E. coli B and cell lysis using bioluminescent ATP assay. The results showed that phage immobilization resulted in a partial loss of infectivity as compared with the free phage. Nevertheless, the use of a biosorbent based on T4 bacteriophage immobilized on Disruptor™ filter coupled with a bioluminescent ATP assay allowed simultaneous concentration and detection of as low as 6 × 10³ cfu/mL of E. coli in the sample within 2 h with high accuracy (CV = 1-5% in log scale). Excess of interfering microflora at levels 60-fold greater than the target organism did not affect the results when bacteriophage was immobilized on the filter prior to concentration of bacterial cells.     

Rapid microbiology: Applications of bioluminescence in the food industry a review

The bioluminescent assay of ATP is rapid and simple and may be used as an estimate of microbial numbers. It therefore shows great potential as a technique to provied information on the microbiological quality of a food within a few minutes, in comparison with conventional techniques, which provide results retrospectively. Howver, despite the advantages of speed and senstitivity, no food microbiologists are using the technique for routine quality control and hygiene monitoring. This review seeks to highlight the reasons for this, and to offer some ideas for future research to increase the acceptance of ATP assays within the food industry.