Hybridization assays using an expressible DNA fragment encoding firefly luciferase as a label

We report the use of a new label, an expressible enzyme-coding DNA fragment, for nucleic acid hybridization assays. The DNA label contains a firefly luciferase coding sequence downstream from a T7 RNA polymerase promoter. The target DNA (200 bp) is denatured and hybridized simultaneously with two oligonucleotide probes. One of the probes is immobilized in microtiter wells, via the digoxigenin/anti-digoxigenin interaction, and the other probe is biotinylated. After completion of the hybridization, the hybrids are reacted with a streptavidin-luciferase DNA complex. Subsequently, the solid-phase bound DNA is expressed by coupled transcription/ translation. The synthesized luciferase catalyzes the luminescent reaction of luciferin with O2 and ATP. The luminescence is linearly related to the amount of target DNA in the range of 5-5000 amol. The CVs obtained for 20 and 100 amol of target are 6.5% and 10.8%, respectively (n = 4).

DNA probe hybridisation in microwells using a new bioluminescent system for the detection of PCR-amplified HIV-1 proviral DNA

A new bioluminescent detection system combined with a sandwich DNA hybridisation reaction in microwells has been developed for the detection of human immunodeficiency virus type 1 (HIV-1) provirus DNA amplified by the polymerase chain reaction (PCR). First, a fragment of the HIV-1 gag gene was amplified. The amplified DNA fragments were denatured and hybridised to a capture probe immobilised in microwells and to a biotinylated detection probe. A streptavidin-pyruvate kinase conjugate could then react on the biotinylated probe and the kinase activity detected by means of the luciferin-luciferase system, with production of a bioluminescent signal. This sandwich assay followed by a bioluminescent reaction detected as little as 7 amol of target DNA. The bioluminescent assay detected 5 HIV copies generated after one round of PCR, even if no band was seen on an agarose gel. The assay was applied to the detection of HIV-proviral DNA in peripheral blood mononuclear cells after one round of PCR and allowed to clearly identify a positive sample as compared to nested PCR.

Rapid, non-separation electrochemiluminescent DNA hybridization assays for PCR products, using 3'-labelled oligonucleotide probes

Described are rapid assays for the analysis of PCR products in a one step, non-separation assay based on the use of electrochemiluminescence generated from a tris-bipyridine ruthenium (II) label. The assay uses PCR incorporation of a biotinylated oligonucleotide as a primer, with the inclusion of a labelled oligonucleotide. Oligonucleotides were labelled with an N-hydroxy succinimide ester of tris-bipyridine ruthenium (II) dihexafluorophosphate (Origen-label) by modifying the 3' and 3' 5' ends of the oligonucleotide probes. The assay makes use of the inherent thermal stability and absence of polymerase activity on such probes to allow the PCR and probe hybridization to be completed automatically on the thermocycler. The assay is concluded by the addition of PCR samples to streptavidin beads on an electrochemiluminescence analyser for binding and analysis. Target genes evaluated were the HIV-1 gag gene, and cystic fibrosis delta F-508 deletion mutation. The results obtained from these assays demonstrated the detection of 10 copies of the HIV-1 gag gene, and cystic fibrosis delta F-508 mutation in 1 ng of human DNA within 15 min. This assay format allows a rapid and simple determination of specific amplified DNA sequences, reducing the contamination risks due to washes and multiple pipetting.

Evaluation of a fluorescent DNA hybridization assay for the detection of Neisseria gonorrhoeae

This study evaluates a four-hour fluorescent DNA hybridization assay using both known bacterial isolates and clinical specimens. A biotinylated oligonucleotide probe from a sequence of the plasmid-encoded gene cppB was used. Hybrids were detected by addition of a streptavidin-alkaline phosphatase conjugate, followed by incubation for 30 min in a fluorescent substrate for alkaline phosphatase. The level of detection of the fluorescent assay was 0.1 pg of cryptic plasmid DNA or 200 cfu of the plasmid-containing strain NG 34/85 of Neisseria gonorrhoeae. A total of 119 reference strains of Neisseria gonorrhoeae and other related bacteria were tested for reactivity with the probe. All Neisseria gonorrhoeae strains, including eight plasmid-free strains, hybridized with the probe. Fluorescence ratios were 2.67 for plasmid-free strains and 3.85 for plasmid-containing strains. Of the heterologous microorganisms tested, only one of six strains of Neisseria cinerea gave a fluorescence ratio above the 2.0 cut-off value for positivity with the probe at a cell density of 1 x 10(4) cfu. The probe was also evaluated using clinical specimens from 100 patients attending a clinic for sexually transmitted diseases. The sensitivity of the assay was 100% while the specificity was 97.5%. Positive and negative predictive values were 91.2% and 100%, respectively. The fluorescent DNA hybridization assay for the detection of Neisseria gonorrhoeae described here thus appears to be a highly specific and sensitive assay.

Immunoenzymatic techniques applied to the specific detection of nucleic acids. A review

Numerous enzymatic and chemical methods are now available for the preparation of non-radioactive nucleic acid probes. Labels, such as enzymes, fluorophores, lumiphores can be attached to the nucleic acid probe either by covalent bonds (direct labelling) or by biospecific recognition after hybridization (indirect labelling). The principle of the latter method is based on the use of a hapten-labelled nucleic acid probe which is generally detected by an immunoenzymatic assay. Indirect labelling has several advantages: this procedure uses multienzyme complexes to increase the number of enzyme molecules associated with hybridization and hence provides an increase in detectability; moreover, haptens (biotin, dinitrophenol, acetylaminofluorene analogues, digoxigenin, brominated or sulphonylated pyrimidines) used to label nucleic acid probes are not sensitive to elevated temperatures (42-80 degrees C), extended incubation times (several hours), detergents and organic solvents currently required in hybridization techniques. The application of the immunoenzymatic and related techniques to nucleic acid probing is reviewed, focussing on the strategies of non-radioactive hybridization, hapten-labelling of nucleic acids and methods for the immunodetection of the hybrids.

Quantification of DNA sequences obtained by polymerase chain reaction using a bioluminescent adsorbent

We studied various parameters affecting the sensitivity of assays that use nucleic acid hybridization in solution followed by capture of the hybrid on a solid phase. Sensitivity is limited not only by nonspecific binding of the detection components but also by reannealing of the target or probe to itself. To perform sensitive assays, the probe concentration must be low enough to reduce high nonspecific binding. Under these conditions, however, the strand displacement reaction or the reannealing of the target to itself drastically decreases the hybridization yield, particularly when the target and the probes are different sizes. To improve DNA detection, we propose a sandwich method based on hybridization of oligonucleotides with a single-strand DNA obtained by polymerase chain reaction under asymmetric conditions. The assay can be performed in one step using a bioluminescent detection procedure which does not require any separation step. The specificity of the method is sufficient to perform a rapid detection and quantification of papillomavirus in biological samples.

Evaluation of a DNA probe of plasmid origin for the detection of Neisseria gonorrhoeae in cultures and clinical specimens

This study evaluates a cryptic plasmid-derived DNA probe in a dot-blot hybridization assay of 4-h duration, using both known bacterial isolates and clinical specimens. The probe, consisting of a 237 bp segment of the plasmid-encoded gene cppB, sequences of which are also found in the chromosome, was labelled with digoxigenin-11-dUTP. The sensitivity of the probe was approximately 25 pg of DNA or 500 cfu of Neisseria gonorrhoeae. A total of 170 reference strains of Neisseria gonorrhoeae and other related bacteria were tested for reactivity with the probe. All N. gonorrhoeae strains, including three plasmid-free strains, hybridized with the probe. Among the heterologous bacterial cultures, only one strain of N. cinerea reacted with the probe when the cell concentration was 5 x 10(6) cfu. The probe was also evaluated in a clinical study. A total of 201 patients visiting the STD clinic at the University Hospital, University of Seville, participated in the study. The sensitivity of the assay was 95% while the specificity was 98%. Positive and negative predictive values were 97% and 98%, respectively. It appears that the plasmid-derived probe used in this study could serve as a useful tool in the rapid and specific detection of Neisseria gonorrhoeae in clinical specimens.

Analytical methodology for immunoassays and DNA hybridization assays--current status and selected systems--critical review

Immunoassay is an established technique which has contributed enormously to biomedical analysis. DNA hybridization (DNA probing) methodology is emerging as the most promising new discipline of laboratory medicine with potential applications in areas such as genetics, pathology, microbiology and oncology. In this review, immunoassay and DNA probing methodologies are considered together because of their many similarities in assay design and labeling systems. Selected labeling systems are described in this paper in order to stress strategies, general principles and future trends. Special attention has been given to systems that introduce linear or exponential amplification. In the author's view, such systems will dominate in future applications. It is anticipated that during the next decade, immunoassay and DNA probing assays will be carried out on completely automated systems.

A rapid solution hybridization method for detection of human papillomaviruses

Nucleic acid hybridization methods in routine diagnosis of micro-organisms have been limited by the tedious assay procedures. We have previously described the sandwich hybridization method which allows convenient testing of biological specimens. In this paper we describe the adaptation of the solution hydridization method into the microtitre plate format using 35S-isotope as label. Using 3-hour hybridization followed by 2-hour collection of the hybrids a sensitivity of 5 x 10(5) target DNA molecules was achieved. The method was applied for identification of human papillomaviruses in crude gynaecological specimens. A simple 1-day assay protocol was achieved with high HPV type specificity. The specificity was confirmed by testing a variety of unrelated micro-organisms, none of which gave a positive signal in the test. Results, obtained as numerical values, were easy to interpret; positive and negative samples gave clearly distinguishable signals.

Detection techniques for immunoassay and DNA probing applications

A brief review of the major detection systems used in the field of biotechnology is presented. The focus is on immunoassay and DNA probing applications and on systems that show promise of extreme sensitivity. Specific examples are discussed to illustrate approaches which introduce chemical, enzymatic, or exponential amplification. The author's projections for the next 5-10 years in this field are expressed.