A comparison of chemiluminescent and colorimetric substrates in a hepatitis B virus DNA hybridization assay

We compared the sensitivity of a chemiluminescent substrate 3-(2'-spiroadamantane)-4-methoxy-4-(3"-phosphoryloxy)phenyl- 1,2-dioxetane (AMPPD) and a chromogenic substrate 5-bromo-4-chloro-3-indolyl phosphate/nitroblue tetrazolium (BCIP/NBT) for detection of an alkaline phosphatase label in a hepatitis B virus "core antigen" DNA (HBVc) probe hybridization assay. Chemiluminescent signal obtained from AMPPD hydrolysis by alkaline phosphatase was detected with Polaroid Instant Black and White Type 612 film. The chemiluminescent assay detected 1.18 x 10(6) copies of HBVc plasmid DNA in 30 min. By comparison, 9.8 x 10(7) copies of DNA could be measured using chromogenic BCIP/NBT substrate within the same incubation time. After further development, the chemiluminescent endpoint permitted detection of 4.39 x 10(4) copies of HBVc plasmid DNA in 2 h.     

Unusual luminescent properties of odd- and even-substituted naphthyl-derivatized dioxetanes

With the advent of enzymatically induced chemiluminescence and improved instrumentation for luminometry, ultrasensitive detection of a wide variety of analytes is now possible using standard immunoassay and DNA probe formats. Model molecular orbital calculations and literature precedent suggest that the singlet efficiencies observed upon decomposition of dioxetanes appended with donor substituted aromatic moieties are dependent on substitution pattern. We have recently discovered, in a series of 3-(2′-spiroadamantane)-4-methoxy-4-acetoxynaphth-2′-yl-1,2-dioxetanes, that enzymatic generation of a nonconjugated, charge transfer excited state results in luminescence of markedly different properties than that observed from an isomeric, conjugated excited state. An example of the former type, 3-(2′-spiroadamantane)-4-methoxy-4-(7″-acetoxy)naphth-2′-yl-1,2-dioxetane (1) emitting at 550 nm, not only provides an increase in Φ_CL but exhibits a dramatic bathochromic shift of 80–110 nm from the 460 nm emission of the conjugated isomer 3-(2′-spiroadamantane)-4-methoxy-4-(6″-acetoxy)naphth-2′-yl-1,2-dioxetane (2). These developments, along with the attendant glow-type luminescence kinetics displayed during the enzymatic decomposition of the new ‘odd-pattern’ dioxetane, allow the design of simple protocols capable of simultaneous or ‘multichannel’ detection of several analytes.     

The use of the nonradioactive digoxigenin chemiluminescent technology for plant genomic Southern blot hybridization: A comparison with radioactivity

A nonradioactive labelling and detection method for plant genomic DNA analysis is compared to the radioactive method. The radioisotopes are replaced by a nucleotide, digoxigenin-11-dUTP, and the signal detection is accomplished by the enzymatic reaction of alkaline phosphatase, conjugated to anti-digoxigenin antibodies, with the chemiluminescent substrate AMPPD (3-(2-spiroadamantane)-4-methoxy-4(3 phosphorytoxy) phenyl-1, 2-dioxetane). The sensitivity of the radioactive and nonradioactive methods are directly compared using identical Southern blots subjected to the radioactive and nonradioactive detection. The advantages of this nonradioactive method are discussed.     

Digital chemiluminescence imaging of DNA sequencing blots using a charge-coupled device camera.

Digital chemiluminescence imaging with a cryogenically cooled charge-coupled device (CCD) camera is used to visualize DNA sequencing fragments covalently bound to a blotting membrane. The detection is based on DNA hybridization with an alkaline phosphatase(AP) labeled oligodeoxyribonucleotide probe and AP triggered chemiluminescence of the substrate 3-(2'-spiro-adamantane)-4-methoxy-4-(3"-phosphoryloxy)phenyl- 1,2-dioxetane (AMPPD). The detection using a direct AP-oligonucleotide conjugate is compared to the secondary detection of biotinylated oligonucleotides with respect to their sensitivity and nonspecific binding to the nylon membrane by quantitative imaging. Using the direct oligonucleotide-AP conjugate as a hybridization probe, sub-attomol (0.5 pg of 2.7 kb pUC plasmid DNA) quantities of membrane bound DNA are detectable with 30 min CCD exposures. Detection using the biotinylated probe in combination with streptavidin-AP was found to be background limited by nonspecific binding of streptavidin-AP and the oligo(biotin-11-dUTP) label in equal proportions. In contrast, the nonspecific background of AP-labeled oligonucleotide is indistinguishable from that seen with 5'-32P-label, in that respect making AP an ideal enzymatic label. The effect of hybridization time, probe concentration, and presence of luminescence enhancers on the detection of plasmid DNA were investigated.     

Improved chemiluminescent western blotting procedure.

A chemiluminescent Western blotting procedure and its application in assays for human transferrin and human immunodeficiency virus-I antibodies are described. The procedure is based on a chemiluminescent substrate, adamantyl 1,2-dioxetane aryl phosphate and alkaline phosphatase-labeled detection antibodies. Different membranes (polyvinylidene fluoride, nitrocellulose, nylon) and a proprietary membrane treatment agent (Nitro-Block) have been studied. This sensitive blotting procedure utilizing AMPPD, a polyclonal rabbit anti-transferrin:goat anti-rabbit IgG-alkaline phosphatase detection complex, and a PVDF membrane blocked with Nitro-Block permits the detection of 125 pg (1.6 fmol) of human transferrin. A novel 1,2-dioxetane substrate, CSPD, has also been evaluated.     

Ultrasensitive chemiluminescent and colorigenic detection of DNA, RNA, and proteins in plant molecular biology.

Nonradioactive detection methods for DNA, RNA, and protein analysis have been the subject of research for several years. In this paper the application of the digoxigenin nucleic acid labeling system, in combination with the new alkaline phosphatase substrate 3-(2'-spiroadamantane)-4-methoxy-4-(3"-phosphoryloxy)-phenyl -1,2-dioxetane, to the special requirements of the analysis of transgenic plants is described. Earlier detection systems lacked the required ultrasensitive limits of detection necessary because of the large genomes found in plant cells. Routine detection of single-copy genes from transgenic plant species requires the detection of bands of picograms of specific DNA, which is easily achieved by employing the AMPPD substrate. Optimal conditions of genomic Southern analysis have been successfully adapted for Northern blotting techniques. Detection of foreign proteins in transgenic plants has proven difficult because of the very small amounts of detectable specific protein. Until now, utilization of biotinylated antibodies in combination with a streptavidin-alkaline phosphatase conjugate has been the most sensitive procedure. By introducing the AMPPD substrate, a further significant enhancement of sensitivity leading to detectable signals in the picogram range can be obtained.     

Rapid and sensitive detection of DNA in Southern blots with chemiluminescence

A new chemiluminescent Southern blot procedure offers molecular biologists a safe, ultrasensitive and rapid alternative to conventional 32P-based systems. This new DNA detection system, SOUTHERN-LIGHT, has been developed by Tropix, Inc. The luminescent signal is produced from a direct chemiluminescent substrate, disodium 3-(4-methoxyspiro[1,2-dioxetane-3-2'-tricyclo-[3.3.1.1 .3,7]decan]-4-yl) phenyl phosphate (AMPPD), which decomposes upon dephosphorylation with alkaline phosphatase. SOUTHERN-LIGHT is an ultrasensitive, rapid detection kit for use with membrane-bound DNA. It is the first test kit to incorporate AMPPD. It requires no specialized equipment and results can be conveniently imaged on instant film or x-ray film within 5-60 min of exposure.     

Chemiluminescent assay of various enzyme activites and its application to enzyme immunoassays

A highly sensitive chemiluminescent assay for NAD(P)H have been developed. The principle of the method is as follows; NAD(P)H reduces molecular oxygen to superoxide anion (O) and hydrogen peroxide (H₂O₂) in the presence of 1-methoxy-5-methylphenazinium methyl sulphate (1-MPMS) as electron mediator. The produced O and H₂O₂ can be measured by chemiluminescent reaction using isoluminol (IL) and microperoxidase (m-POD). A linear relationship between chemiluminescence intensity and NAD(P)H concentration (log/log) was obtained ranged from 10^?9 mol/I to 10^?5 mol/I. This chemiluminescent reaction has been coupled to the assay of glucose-6-phosphate dehydrogenase (G6PDH), β-D -galactosidase (β-Gal) and alkaline phosphatase (ALP). The detection limits of G6PDH, β-Gal and ALP were 10^?18 mol, 10^?20 mol and 10^?18 mol per assay, respectively. The chemiluminescent assay of these enzymes applied to chemiluminescent enzyme immunoassay for 17α-hydroxy-progesterone and DNA hybridization assay using these enzymes as label.     

Dual‐labeled chemiluminescence enzyme immunoassay for simultaneous measurement of total prostate specific antigen (TPSA) and free prostate specific antigen (FPSA)

The specificity for early diagnostic of prostate‐specific antigen (PSA) is low because the current technology mostly allows the detection of only one biomarker at one time. In this work, a dual‐labeled chemiluminescence enzyme immunoassay (CLEIA) for simultaneous measurement of total PSA (TPSA) and free PSA (FPSA) was proposed. Anti‐PSA McAb (Mab1) was immobilized on a microplate as the solid phase, horseradish peroxidase (HRP)‐labeled anti‐TPSA monoclonal antibody (McAb2) and alkaline phosphatase (ALP)‐labeled anti‐FPSA McAb3 were used as detection antibodies. Two chemiluminescence reactions of HRP with luminol and ALP with 4‐methoxy‐4‐(3‐phosphate‐phenyl)‐spiro‐(1,2‐dioxetane‐3,2′‐adamantane) (AMPPD) were used as the signal detecting system. Based on a sandwich model, the amount of FPSA and TPSA could be determined simultaneously. The effects of several physico‐chemical parameters were studied and optimized. Cross‐reactivities of six common tumor markers in serum were studied. The proposed method presented the sensitivity of 0.03 ng ml^?1 and 0.05 ng ml^?1 for FPSA and TPSA respectively, with low cross‐reactivities. Compared with the results from commercial chemiluminescent kits there was good correlation, indicating that this established method could be used to simultaneously to measure the concentrations of FPSA and TPSA in one serum sample and also could greatly facilitate the early diagnosis for PCa in clinical practice.     

Chemiluminescent assay of β-D-galactosidase based on indole luminescence

We developed a novel chemiluminescent assay of β-D -galactosidase (β-gal) based on the chemiluminescence of indole. 5-Bromo-4-chloro-3-indolyl-β-D -galactopyranoside (X-gal) was used as a substrate for β-gal and also as a light emitter. X-gal was hydrolysed by β-gal to liberate free indoxyl, followed by oxidation to indigo dye, and simultaneously produces hydrogen peroxide (H₂O₂). H₂O₂ reacts with the residual X-gal in the presence of horseradish peroxidase (HRP) to emit light. The measurable range of β-gal obtained by this method was 6 × 10⁻¹⁴ mol/L to 6 × 10⁻¹¹ mol/L; the detection limit was 3 amol/assay. This chemiluminescent assay could be applied to an enzyme immunoassay of thyroxine using β-gal as the enzyme label. © 1998 John Wiley & Sons, Ltd.     

Improved chemiluminescent DNA sequencing

A new chemiluminescent 1,2-dioxetane substrate, CSPD, shows improved performance over AMPPD when used in our nonisotopic method for DNA sequencing. CSPD differs from AMPPD by the addition of a chlorine atom to the adamantyl group that limits the amount of aggregation of the dioxetane and its dephosphorylated anion. This results in a shorter time elapsing before reaching steady state light emission when detecting nucleic acids on nylon membrane. An additional advantage of CSPD over AMPPD is that the resolution of imaged DNA bands does not degrade over time. These features of CSPD permit rapid acquisition of high-quality DNA sequence data.     

Chemiluminescent assay for the detection of viral and plasmid DNA using digoxigenin-labeled probes.

A dot-blot hybridization immunoenzymatic assay with a chemiluminescent endpoint was developed for the rapid and sensitive detection of viral and plasmid DNAs. Digoxigenin-labeled probes were used to detect cytomegalovirus, parvovirus B19, and plasmid pBR328 DNAs. Hybridized probes were immunoenzymatically visualized by anti-digoxigenin Fab fragments labeled with alkaline phosphatase, and adamantyl 1,2-dioxetane phenyl phosphate was used as chemiluminescent substrate. Results were recorded by instant photographic films. The chemiluminescent hybridization assay was performed in about 8 hr and was able to detect as little as 50-10 fg of homologous target DNA.     

In vivo imaging of endogenous enzyme activities using luminescent 1,2-dioxetane compounds

Background

Here we present a non-invasive imaging method for visualizing endogenous enzyme activities in living animals. This optical imaging method is based on an energy transfer principle termed chemically initiated electron exchange luminescence (CIEEL). The light energy is provided by enzymatic activation of metastable 1,2-dioxetane substrates, whose protective groups are removed by hydrolytic enzymes such as β-galactosidase and alkaline phosphatase. In the presence of a nearby fluorescent recipient, the chemical energy within the activated substrate is then transferred via formation of a charge-transfer complex with the fluorophore, a mechanism closely related to glow stick chemistry.

Results

Efficient CIEEL energy transfer requires close proximity between the trigger enzyme and the fluorescent recipient. Using cells stained with fluorescent dialkylcarbocyanines as the energy recipients, we demonstrated CIEEL imaging of cellular β-galactosidase or alkaline phosphatase activity. In living animals, we used a similar approach to non-invasively image alkaline phosphatase activity in the peritoneal cavity.

Conclusions

In this report, we provide proof-of-concept for CIEEL imaging of in vivo enzymatic activity. In addition, we demonstrate the use of CIEEL energy transfer for visualizing elevated alkaline phosphatase activity associated with tissue inflammation in living animals.     

Characterization and validation of a chemiluminescent assay based on 1,2-dioxetanes for rapid detection of viable Escherichia coli

[(4-methoxy-4(3-β-d-galactose-4-chlorophenyl)]spiro[1,2-dioxetane-3-1,3-tricyclo[7.3.1.0^2,7]tridec-2,7-ene] (“sβ-Gal 102”) and sodium [4-methoxy-4(3-β-d-glucuronic acid-4-chlorophenyl)]spiro[1,2-dioxetane-3-1,3-tricyclo[7.3.1.0^2,7]tridec-2,7-ene] (“sβ-Glucor 102”) are carbohydrate-containing 1,2-dioxetane compounds that produce chemiluminescence upon enzymatic hydrolysis by β-d-galactosidase, and β-d-glucuronidase, respectively. In this study, we have characterized and validated a sensitive detection principle for viable Escherichia coli based on enzymatic cleavage of sβ-Gal 102 and sβ-Glucor 102 (“ColiLight II”). The proposed chemiluminescent assay was optimized with respect to analytical requirements including incubation time, temperature, pH, enzyme induction, and cell permeabilization. The sensitivity and specificity rates of the assay were tested on ten different bacterial genera. The assay was found to be representative based on low coefficients of variations for both accuracy and precision. The analysis time was less than 1 h and the analytical detection limit was 10² to 10³ E. coli cells. In combination with membrane filtration and a brief resuscitation step of 4 h, the proposed assay was capable of detecting low concentrations of stressed E. coli in potable water (<30 CFU 100 ml⁻¹). The proposed chemiluminescent enzyme assay may be used for assessing the metabolic activity of E. coli in oligotrophic environments and for early warning detection of low concentrations of E. coli in water for human consumption.     

A chemiluminescent assay for quantitation of beta-galactosidase in the femtogram range: application to quantitation of beta-galactosidase in lacZ-transfected cells.

An optimized chemiluminescent assay for beta-galactosidase using a chemiluminescent substrate AMPGD (3-(4-methoxyspiro[1,2-dioxetane-3,2'-tricyclo-[3.3.1. 1(3,7)]decan]-4- yl)phenyl-beta-D-galactopyranoside) is described. This assay is rapid and sensitive and can detect as little as 2 fg of beta-galactosidase. Its use for the quantitation of beta-galactosidase in cells transfected with lacZ-expressing vectors is described. It is possible to detect a single cell stably expressing lacZ by this technique.     

Thonningine-A and thonningine-B: two 3-phenylcoumarins from the seeds of Millettia thonningii

The seeds of Millettia thonningii have yielded four isoflavones and three 4-hydroxy-3-phenylcoumarins, of which two are novel. On the basis of spectral analyses the novel compounds have been identified as 4-hydroxy-5,8-dimethoxy-3-(3′,4′-methylenedioxy)phenyl-2″-isopropenylfurano (4″,5″:6,7)coumarin (thonningine-A) and 4-hydroxy-5,8-dimethoxy-3-(4′-methoxy)phenyl-2″-isopropenylfurano(4″, 5″: 6,7)coumarin (thonningine-B).     

青蕨植物化学成分的研究

从青蕨根部的乙酸乙酯提取物中分离得到4个化合物。通过化学及波谱分析鉴定其结构为：saucerneol D(1),dehydrogoniothalamin(2),1-acetoxyl-2-piperonyl-6-[6-methoxyl-piperonyl]3,7-dioxabicyclo-[3,3,0]-octane(3) and 5,5′-dihydroxy-3-methoxy-6,8,3″,3″-tetramethylpyran-(3′,4′)flavone-7-O-[β—D—apiofuranosyl-(1→6)]-β-D-glucopyranoside(4)。其中化合物(4)为新化合物,化合物(1)为首次从该属植物中分离得到。     

The neolignans (−)-carinatone and carinatin from Virola carinata

From the bark of Virola carinata two neolignans have been isolated: (?)-carcinatone, [(2S)-1-(3′,4′-dimethoxyphenyl)-2-(3″-allyl-5″-methoxy-6″-hydroxyphenyl) propanone] and carinatin, [5-allyl-7-methoxy-3-methyl-2-(3′,4′-dimethoxyphenyl)benzofuran].     

Development of a high‐throughput,indirect antibody immobilization format chemiluminescence enzyme immunoassay (CLEIA) for the determination of progesterone in human serum

A high‐throughput and simple chemiluminescence (CL) enzyme immunoassay (CLEIA) for the determination of progesterone (P) in human serum was developed, with the highly sensitive 4‐methoxy‐4‐(3‐phosphatephenyl)‐spiro‐(1,2‐dioxetane‐3,2′‐adamantane) (AMPPD)–alkaline phosphatase (ALP) system as the CL detection system. The results showed that the indirect immobilization of rabbit anti‐progesterone polyclonal antibody (RAPA) through secondary antibody exhibited apparent advantages over direct coating in terms of antibody saving and improvement of the coating stability and uniformity. The direct analysis of P in human serum without extraction was realized by using 8‐anilino‐1‐naphthalenesulphonic acid (ANS) to displace P from its binding proteins. The effect of several relevant parameters of the immunoreaction were examined and optimized. Compared with some commercial progesterone kits, the presented CLEIA has higher sensitivity with detection limitation as low as 0.06 ng/mL. The recoveries were 95.9–101%. The coefficient of variation was <8.4% and 9.9% for intra‐ and inter‐assay precision, respectively. This method has been successfully applied to the evaluation of P in human serum. Copyright © 2008 John Wiley & Sons, Ltd.     

Neolignans of Virola carinata bark

Four neolignans, dehydrodieugenol, its monomethylether, carinatone and carinatin have been isolated from the hexane fraction of the bark of Virola carinata. Three new neolignans were separated from the chloroform fraction and examined by spectroscopy and chemical reactions. Their structures were determined as (2S, 3S)-5-allyl- 7-methoxy-3-hydroxymethyl-2-(3′,4′-dimethoxyphenyl)-2,3-dihydrobenzofuran, (2S)- 1-(3′,4′-dimethoxyphenyl)-2-(3″-allyl-5″-methoxy-6″-hydroxyphenyl)propanone(1) ol(3), (1S,2S)-1-(3′,4′-dimethoxyphenyl)-2-(3″-allyl-5″-methoxy-6″-hydroxyphenyl) propanol(1) and called dihydrocarinatinol, carinatonol and carinatol, respectively.