Reporter Dye Research Articles

HLA-DRB fluorotyping by dark quenching and automated analysis.

In fluorescence-based sequence-specific primed polymerase chain reaction (PCR), referred to as fluorotyping for HLA typing, a major problem is the overlap of the emission spectra of the single dyes. In order to increase the robustness of the previously described HLA-DRB1,3,4,5 low-resolution fluorotyping method, we have constructed two probes quenched by the non-fluorescent acceptor dye DABCYL. The HLA-DRB-specific probe was labeled with FAM, and the internal control probe with TAMRA, respectively, as reporter fluorescent dyes. TAMRA was replaced by DABCYL as a quencher, which led to increased robustness and better discrimination between negative and positive amplification results. ROX was used as a reference to normalize the fluorescence of the reporter dyes. Moreover, as FAM and TAMRA differ strongly by their emission maxima, HLA-DRB-specific and internal control amplification could be clearly distinguished. To further automate data analysis, the software of the TaqMan system 7700 was supplemented by an EXCEL-based calculation table, which directly took over the data. Using modified fluorotyping chemistry and automated data analysis, a total of 201 DNA samples was typed correctly. In summary, HLA-DRB fluorotyping by dark quenching and automated analysis proved to be a robust and reliable tool for research and routine purposes.

Buffering intracellular calcium disrupts motoneuron development in intact zebrafish embryos

Numerous studies, performed mainly on dissociated cells, have shown that calcium signals have a role during different stages of neuronal development. However, the actions of calcium during neuronal development in vivo remain to be established. The present study has investigated the role of intracellular calcium signals during development of motoneurons in the spinal cord of intact zebrafish embryos. Loading blastomeres of early embryos with either the calcium buffer BAPTA or the calcium reporter dye Calcium Green, was shown to disrupt motoneuron development in the spinal cord of embryos at 24 h postfertilisation. Loading the calcium buffer BAPTA, at an intracellular concentration of 1 mM, into the blastomeres of early embryos did not alter the resting levels of intracellular calcium, but significantly dampened transient rises in intracellular calcium in the cells of later stage embryos. Loading cells with 1 mM BAPTA significantly decreased the number of motoneurons present in the spinal cord at 24 h, indicating that calcium signals are important for normal motoneuron differentiation. Furthermore, in those BAPTA-filled cells that did adopt a motoneuron cell fate, axogenesis was found to be inhibited, suggestive of a role for calcium signalling in neurite initiation. This work provides evidence that calcium signals are necessary at several stages of motoneuron development in vivo.

Novel Colloidal Materials for High‐Throughput Screening Applications in Drug Discovery and Genomics

Tracking the reaction history is the means of choice to identify bioactive compounds in large combinatorial libraries. The authors describe two approaches to synthesis on silica beads: a) addition of a reporter dye tag during each synthesis step (see Figure), which attaches itself to the bead by colloidal forces, and b) encapsulating arrays of fluorescent dyes into the beads to encode them uniquely, for recognition with a flow cytometer after each reaction step.

Simultaneous Absolute Quantification of Target and Control Templates by Real-Time Fluorescence Reverse Transcription-PCR Using 4-(4′-Dimethylaminophenylazo)benzoic Acid as a Dark Quencher Dye

Despite the many advantages of real-time fluorescence reverse transcription-PCR (RT-PCR) as a quantitative analytical tool, simultaneous quantification of target and reference templates within one reaction has not been reported. We developed such an assay with an internal reference template. For quantification of target and reference sequences, we used two fluorescent probes in one reaction vessel on an ABI PRISM 7700 SDS instrument. Fluorescent probes were labeled with either 6-carboxy-fluorescein or hexachloro-6-carboxy-fluorescein as reporter dye and 4-(4'-dimethylaminophenylazo)benzoic acid (DABCYL) as a dark quencher fluorophore. To test the sensitivity and specificity of this assay, serial dilutions of reference and target templates were analyzed in one PCR reaction. In the presence of 10 beta-actin molecules as control templates, 10(5) bcr/abl molecules were amplified, and 10(5) beta-actin molecules were amplified in the presence of 10 bcr/abl copies. We also performed single and duplex measurements on samples from five patients with documented Philadelphia chromosome-positive chronic myelogenous leukemia disease courses (72 samples) and three with minor bcr/abl+ acute myelogenous leukemias (26 samples). For M-bcr/abl duplex RT-PCR, the correlation coefficient (r) for starting template amounts and threshold cycle values was 0.99; for m-bcr/abl, r = 0.96, indicating a precise log-linear relation for 10-10(5) copies/100 ng of cDNA. In the same PCR reactions, r = 0.99 for beta-actin (coamplified with M-bcr/abl or m-bcr/abl) for 10(3)-10(7) copies/100 ng cDNA. The linear correlation coefficient for single and duplex measurements was 0.98 for M- and m-bcr/abl in patient samples. DABCYL can be used as dark quencher fluorophore in real-time fluorescence PCR. The duplex fluorescence RT-PCR assay for bcr/abl and beta-actin transcripts allows monitoring of bcr/abl+ leukemias.

Stable Adsorption of Lipid Vesicles on Modified Gold Surfaces

AbstractThe use of vesicles as amplifiers in biosensors is receiving increasing attention. Because vesicles may entrap thousands of reporter molecules, strong signal amplification can be obtained if a small number of analytes can simply release the entrapped reporters. Surface immobilization of vesicles with sensitivities for different analytes could then provide for simultaneous amplified detection of a number of analytes on a single chip. To achieve this goal, vesicles must first be stably adsorbed to a surface, without rupture. We have varied vesicle composition and charge (phosphatidylcholine, phosphatidylcholine-phosphatidic acid at 4.6 molar ratio) and solution ionic strength, to study the adsorption of fluorescent vesicles to glass, gold, and gold modified with chemisorbed acetylcysteine. Surfaces were characterized with angle-resolved X-ray photoelectron spectroscopy (ARXPS), and vesicle integrity and behavior was studied using entrapped and lipophilic fluorescent markers either together or in separate experiments. Diffusion coefficients (by photobleaching recovery) and vesicle fusion (by energy transfer) were monitored using confocal fluorescence microscopy. Finally, as a “proof of principle”, release of a self-quenching entrapped reporter dye (calcein) by the detergent Triton X-100 was followed in real time.

The application of real‐time PCR to the identification, detection and quantification of Pyrenophora species in barley seed

Summary A real-time quantitative PCR technique has been used to develop a rapid and sensitive seed health test for Pyrenophora spp. on barley seed. Using the fluorescent reporter dye SYBR Green I for real-time detection of PCR amplification, pathogen DNA extracted from infected seed can be quantified to the picogram level. The amount of Pyrenophora DNA extracted from seed samples of an artificial infection level gradient, constructed by mixing infected and uninfected seed, correlated with good agreement (r = 0.931) to percentage infection levels of the same samples measured by agar plate testing. In addition, a correlation of r = 0.883 was obtained between the two testing methods for naturally infected seed, ranging from 0% to 89% infection. Samples could be quantified to below the 2% voluntary threshold required for deciding on seed treatment. The proposed test was performed in three parts: (i) quantification of Pyrenophora spp. infection using Pyrenophora-specific PCR primers; (ii) test of any negative samples from (i) with barley-specific PCR primers to check the DNA extraction process; (iii) test of positive samples from (i) for the presence of Pyrenophora graminea using P. graminea-specific PCR primers. All PCRs were performed in the LightCycler instrument allowing each PCR run and analysis to be completed within 30 min. With the current daily receipt of samples (batches up to 16) the test can be completed in 8 h, compared to 7 days for the traditional agar plate test.

Development of PCR-based assays for allelic discrimination in maize by using the 5′-nuclease procedure

We describe the development of non-electrophoresis-based PCR assays for the allelic discrimination at two linked loci flanking an important QTL controlling days to pollen shed in maize. The assays are based on the fluorogenic 5′-nuclease procedure (TaqMan), which allows for the direct detection of the PCR product by the release of a fluorescent reporter dye as a result of DNA amplification. The assays were developed after sequencing the alleles at both loci, by designing suitable primers and probes based on single nucleotide or insertion/deletion polymorphisms. The TaqMan procedure allowed for a fast and highly reproducible analysis directly in the PCR vials. The lack of any fragment separation step allows for an almost complete automation of the process thus making this technique particularly valuable for the large-scale screening required for map-based cloning projects and for marker-assisted selection, particularly when the results are needed in a short time.

Biallelic discrimination assays for the three common Ashkenazi Jewish mutations and a common non-Jewish mutation, in Tay-Sachs disease, using fluorogenic TaqMan probes.

We have developed rapid semiautomated fluorogenic TaqMan assays for the three common Jewish mutations that occur in Tay-Sachs disease, the TATC 4-bp insertion in exon 11 (1,278insTATC), the IVS 12 + 1G --> C, splice site mutation in intron 12 (1421 + 1 G --> C), and the G --> A change at the 3' end of exon 7 (G269S), as well as for a non-Jewish mutation, IVS9 + I G --> A, believed to be prevalent in patients of Celtic descent. The TaqMan assays are designed to run on the ABI SDS 7700 sequence detection system, using allele-specific probes that carry a reporter dye at the 5' end and a quencher dye at the 3' end. Using a 96-well format, all four assays can be performed simultaneously on the same plate, with real-time fluorescence detection or just an end-point plate read. DNA samples from 78 patients identified as carriers by biochemical screening and genotyped by conventional techniques were used to assess the accuracy and efficiency of the probes in allelic discrimination assays. There were no discrepancies noted between previously assigned genotypes and the results obtained by application of this methodology.

Multiplexed particle-based flow cytometric assays

Several methods have been developed to quantify soluble analytes in biological fluids and tissue culture samples, including bioassays, ELISA, RPA and PCR. However, each of these techniques possesses one or more significant limitations; ELISA will only measure one analyte as a time; PCR does not detect native protein. The recent development of particle-based flow cytometric assays has raised hopes that many of these limitations can be overcome. The technology utilizes microspheres as the solid support for a conventional immunoassay, affinity assay or DNA hybridization assay which are subsequently analyzed on a flow cytometer. Several multiplexed bead systems are currently marketed by different vendors. We have used the Luminex FlowMetrix™ system which consists of 64 different bead sets manufactured with uniform, distinct proportions of red and orange fluorescent dyes (detected by FL2/FL3 on a FACScan). Each bead set forms the basis of an individual assay using a green fluorescent reporter dye (FL1). This system facilitates the development of multiplexed assays that simultaneously measure many different analytes in a small sample volume. They can also be developed into rapid, ‘no wash’ assays that can be completed in <2 h. This review traces the historical association between microspheres and flow cytometry, the development and use of particle-based flow cytometric assays, how they compare with current assays and potential future developments of this very exciting technology.

Rapid Single-Tube Genotyping of the Factor V Leiden and Prothrombin Mutations by Real-Time PCR Using Dual-Color Detection

Patients carrying the G1691A mutation in the factor V gene (factor V Leiden) have been demonstrated to be at risk for venous thromboembolism. A second polymorphism also associated with hereditary thrombophilia was identified in the prothrombin gene (G20210A). Because of the high prevalence of these two mutations (5–10% for G1691A and 2–4% for G20210A) in the Caucasian population, there is growing demand for rapid, reliable, and simple methods for combined detection of both point mutations. Numerous PCR-based assays have been described for the detection of each of the mutations separately (1)(2)(3)(4) as well as in combination by multiplex PCR analysis (5)(6)(7)(8)(9)(10) and other single-tube alternatives [see, for example, Ref. (11)]. All of these methods, however, are time-consuming and require multiple manual steps such as restriction length polymorphism analysis, electrophoresis, and hybridization with specific oligonucleotide probes. Recently, a new detection methodology was introduced on high-speed thermal cyclers based on real-time PCR analysis followed by hybridization of amplicon-specific oligonucleotides with adjacent fluorophores capable of fluorescence resonance energy transfer (LightCyclerTM; Roche Molecular Biochemicals). Probes, labeled with two different fluorescent molecules, hybridize next to each other on the target DNA molecule. The first fluorescent dye, the donor dye fluorescein, is excited at 470 nm by the light source of the LightCycler. Instead of emitting light at 530 nm, the fluorescein can transfer its energy in a nonfluorescent manner to a reporter dye. The reporter dye emits light of a longer wavelength, e.g., 640 nm. This process, called fluorescence resonance energy transfer (FRET), enables real-time detection of the specific PCR product followed by melting curve analysis, which monitors the temperature-dependent hybridization with fluorescent oligonucleotide probes to single-stranded DNA. The success of this new technology in detecting single …

Factor V Leiden genotyping using real-time fluorescent polymerase chain reaction

A fluorogenic probe-based PCR assay (Taqman; Perkin Elmer corp/Applied Biosystems, Foster City, CA, USA) was used for the detection of Factor V Leiden, a point mutation in the factor V gene (G1691A) that is the most common inherited risk factor for Deep Vein Thrombosis. This assay allows for the direct detection of specific PCR products within minutes of completion of the PCR by monitoring the increase in fluorescence of a dye-labelled oligonucleotide probe. Two dye-labelled probes are used in this allelic discrimination assay, one probe for each allele in the two-allele system. Each probe consists of an oligonucleotide with a 5′-reporter dye and a 3′-quencher dye. Tet (6-carboxy-4,7,2′,7′-tetrachloro-fluorescein) is covalently linked to the 5′-end of the probe for the detection of allele 2 (wild-type). Fam (6-carboxy-fluorescein) is covalently linked to the 5′-end of the probe for detection of allele 1 (mutant). Each of the reporters is quenched by Tamra (6-carboxy-N,N,N′,N′-tetramethylrhodamine) attached via a linker arm located at the 3′-end of each probe. The two probes were complementary to a 24-base sequence at the factor V Leiden mutation site, but differing in the 5′-labelled reporter dye and the nucleotide opposite the mutation site (C vs T). Wild-type and factor V Leiden alleles were differentiated in highly purified DNA and crudely purified DNA specimens. The assay was successfully applied to genomic DNA from leukocytes isolated from whole blood. The factor V status of 120 patients as determined by this method was in complete concordance with a standard PCR-based assay and clearly discriminated between healthy wild-type (+/+), factor V Leiden homozygote (−/−) and heterozygote (+/−) carriers.

5′ → 3′ Exonuclease-Based Real-Time PCR Assays for Detecting the t(14;18)(q32;21): A Survey of 162 Malignant Lymphomas and Reactive Specimens

We describe our experience using two real-time polymerase chain reaction (PCR) assays for detecting the t(14;18)(q32;q21) in a large series of non-Hodgkin's lymphomas (NHLs). These assays utilize the 5′ → 3′ exonuclease activity of Taq polymerase, which cleaves a probe labeled with a fluorescent reporter dye at its 5′ end and a quencher dye at its 3′ end during the extension phase of PCR. In a previous study, Luthra and colleagues developed these real-time PCR assays for detecting the t(14;18) involving the major and minor breakpoint cluster regions of the bcl-2 gene and assessed a small number of NHLs. In this larger study, we analyzed 135 NHLs, 6 Hodgkin's disease, 10 reactive biopsy specimens, and 11 peripheral blood specimens. The NHL group included 46 of 70 (65.7%) follicular NHLs, 1 of 2 (50%) diffuse small cleaved cell NHLs, and 13 of 24 (54.2%) diffuse large B-cell NHLs with the t(14;18) detected by conventional PCR methods. There was excellent agreement between the real-time and conventional PCR assays with overall concordance in 160 of 162 (98.8%) specimens. For the NHLs, concordance was found in 134 of 135 (99.3%) specimens. Disagreement was observed in one case of follicular NHL in which the real-time PCR assay detected bcl-2 minor breakpoint cluster region/JH DNA fusion sequences and the conventional method was negative. The overall concordance for 10 benign biopsy specimens and 11 normal peripheral blood samples was 20 of 21 (95.2%). One lymph node biopsy specimen that showed reactive follicular hyperplasia was positive for the bcl-2 minor breakpoint cluster region/JH DNA fusion sequences detected by the real-time PCR assay but was negative by conventional PCR methods. This patient had no clinical evidence of NHL. We conclude that real-time PCR assays for detecting the t(14;18) are sensitive, specific, and more convenient than conventional PCR methods.

Simultaneous quantitation of two orchid viruses by the TaqMan ® real-time RT-PCR

Simultaneous quantitation of two orchid viruses, cymbidium mosaic potexvirus (CymMV) and odontoglossum ringspot tobamovirus (ORSV), were carried out using the TaqMan ® real-time RT-PCR, a novel detection technique that combines RT-PCR with the power of fluorescent detection. Four TaqMan ® probes were synthesized, targeting at the RNA-dependent RNA polymerase (RdRp) and coat protein (CP) genes of both viruses. The reporter dye FAM (6-carboxyfluorescein) was used to label the 5′ terminus of probes specific to CymMV, while TET (tetrachloro-6-carboxyfluorescein) was used for the ORSV probes. TAMRA (6-carboxy-tetramethyl-rhodamine), which was attached at the 3′ terminus of each probe, was used as the universal quencher. With increasing amounts of standard RNA templates, the respective threshold cycle ( C T) values were determined and a linear relationship was established between these C T values and the logarithm of initial template amounts. The amounts of starting templates in mixed-infected Oncidium flowers and leaves were estimated from the standard curves. As little as 10 4 copies or 5 fg each of CymMV and ORSV could be detected simultaneously with either the RdRp or CP gene as the target. This system offers a sensitive, high throughput and rapid method for plant virus detection.

Use of Two Reporter Dyes without Interference in a Single-Tube Rapid-Cycle PCR: α1-Antitrypsin Genotyping by Multiplex Real-Time Fluorescence PCR with the LightCycler

alpha(1)-Antitrypsin is the major plasma serine protease inhibitor. Its deficiency is mainly associated with the alleles PI*S and PI*Z and can lead to obstructive lung disease in adults and to liver cirrhosis during childhood. A multiplex PCR method has been established that uses two sets of primers to amplify the gene regions covering the PI*S or PI*Z mutations sites. Mutation detection was performed on the LightCycler by melting curve analysis of detection probes labeled with two different fluorescent dyes, LC-Red640 and LC-Red705. Unequivocal genotyping results were obtained for all investigated samples in an assay time of approximately 30 min. The color compensation procedure greatly improved the readability of the resulting diagnostic melting curves. To our knowledge, this is the first report of simultaneous detection of two mutations in a single tube by PCR of genomic DNA and the use of two different reporter dyes with the LightCycler color compensation feature. This approach is a rapid, convenient, and economic alternative to other methods described to date for the detection of alpha(1)-antitrypsin deficiency alleles.

High throughput detection of drug-metabolizing enzyme polymorphisms by allele-specific fluorogenic 5' nuclease chain reaction assay.

We have developed an allele-specific fluorogenic 5' nuclease chain reaction assay for detecting polymorphisms in the following human drug-metabolizing enzyme genes: CYP2C9 (CYP2C9*2 and *3), CYP2C19 (CYP2C19*2 and *3), CYP2D6 (CYP2D6*4, *10, *14, *18, and *21(C8)), N-acetyltransferase 2 (NAT2*5B, *6A, and *7B), thiopurine methyltransferase (TPMT*3C), and aldehyde dehydrogenase2 (ALDH2*2). This method is a marriage of two emerging technologies, the use of allele-specific amplification primers for target DNA and hybridization of the TaqMan probe. The TaqMan probe is labeled with both a fluorescent reporter dye and a quencher dye. Genotypes are separated according to the different threshold cycles of the wild-type and mutant primers. All assays are performed using a single thermocycling protocol. This genotyping method is rapid and highly sensitive and yields a high throughput. It could be applied toward automated large-scale genotyping.

High‐resolution typing for HLA‐DRB1*15 and ‐DRB1*16 by fluorescence‐marked sequence‐specific priming (TaqMan assay)

Sequence-specific primed polymerase chain reaction (PCR-SSP) is widely used in HLA laboratories. The TaqMan method, which is described here for high-resolution typing of HLA-DRB1*15 and -DRB1*16, does not require elaborate and time-consuming post-PCR detection steps. In this one-tube assay, conventional PCR-SSP and fluorescence detection of the amplicon with a doubly labeled fluorescent probe are combined: a fluorogenic hybridization probe (FHP) labeled with a spectral resolvable fluorescent reporter dye (FAM or TET) at its 5' terminus and a common quencher dye (TAMRA) at its 3' terminus is cleaved by the 5' nuclease activity of Taq DNA polymerase only if the target sequence is amplified. An increase of fluorescence intensity indicates a successful amplification. For high-resolution typing of HLA-DRB1*15 and -DRB1*16 alleles we designed two FHPs and 14 specific primer mixes (7 for DR15 and 7 for DR16). Amplification of the specific sequence was detected by a FAM-labeled FHP, whereas amplification of the internal control was detected by a TET-labeled FHP. We were able to type all heterozygous DRB1*15/DRB1*16 subtype combinations. For evaluation, 60 HLA-DRB1*15-positive and 40 HLA-DRB1*16-positive individuals were typed and the results were compared with conventional PCR-SSP DR15/16 subtyping. There were no discrepancies between the two methods. The TaqMan method is an alternative to conventional PCR-SSP typing which is suitable for routine use in HLA laboratories.

Real-time 5'-->3' exonuclease-based PCR assay for detection of the t(11;14)(q13;q32).

We describe the usefulness of a real-time polymerase chain reaction (PCR) assay for detection of the t(11;14)(q13;q32), most commonly present in mantle cell lymphoma (MCL). This assay is based on the 5'-->3' exonuclease activity of Taq polymerase, which cleaves an internal probe labeled with a reporter dye at its 5' end and a quencher dye at its 3' end during PCR. The real-time t(11;14) PCR assay was established using DNA from a case of MCL with the t(11;14), amplifiable using conventional PCR and primers specific for the major translocation cluster (MTC) region of the bcl-1 locus and the immunoglobulin heavy chain joining region gene (JH). The specificity was determined by analyzing DNA from 82 cases: 50 MCL, 27 other types of non-Hodgkin lymphoma (NHL), and 5 reactive lymphoid proliferations. The real-time t(11;14) PCR results were correlated with data obtained by a conventional PCR assay. By using the real-time assay, bcl-1 MTC/JH DNA fusion sequences were detected in 25 of 50 MCLs but not in other NHLs or reactive lymphoid proliferations. Concordance between real-time and conventional PCR methods for MCL was 96% and for all samples was 98%. The results demonstrate that this real-time PCR method to detect bcl-1 MTC/JH DNA fusion sequences is specific and reliable. In addition, the results are available immediately following amplification, without standard post-PCR manipulations.

Seven-color, homogeneous detection of six PCR products.

We describe an extension of the fluorogenic PCR 5'-nuclease assay, or "Taq-Man" assay. Sequence-specific probes consisted of a novel nonfluorescent quencher, nitrothiazole blue (NTB), at the 3' terminus and six different reporter dyes at the 5' terminus. The six reporters were 6-FAM, dR110, dR6G, dTMR, dROX and JAZ dyes. The seventh color was from aluminum phthalocyanine tetrasulfonate and was utilized as a "passive reference" to calibrate concentration variations. Our test system was a set of three single-nucleotide polymorphisms (SNPs). Each SNP system consisted of two primers and two sequence-specific probes, each labeled with a different reporter dye and NTB. Following PCR, the reactions were diluted with water and measured in a microcuvette on a luminescence spectrometer in synchronous scanning mode. In this method, both the excitation and emission wavelengths were scanned, with a fixed wavelength difference (delta gamma) between excitation and emission wavelengths. The spectral overlap in the set was evaluated by calculation of the condition number of the 7 x 7 matrix (dye fluorescence vs. wavelength). The small value of the condition number (1.5) proved that the cross-talk between the dyes was minimal. SNP analyses of known, synthetic target sequences and genomic DNA were plotted both as normalized, subtracted spectra and as data points in three separate dot plots.

Detection of BCR-ABL transcripts in chronic myeloid leukemia (CML) using a 'real time' quantitative RT-PCR assay.

Quantitative competitive RT-PCR techniques have been developed to detect BCR-ABL fusion transcripts in CML but they are hardly reproducible. In this work, we have developed BCR-ABL quantification by real time RT-PCR using the ABI PRISM 7700 (Perkin Elmer), a new technique which allows simple and rapid quantification of a target sequence during the extension phase of PCR amplifications. A fluorogenic probe labeled with both a reporter dye at the 5' end and a quencher-dye at the 3' end hybridizes to the target sequence on the third exon of the ABL gene. The exonuclease activity of the Taq DNA polymerase cleaves the probe and releases the reporter dye, resulting in an increase in the fluorescence signal. The absolute copy number of the target sequence (BCR-ABL) or a control gene (ABL) in an unknown sample can then be calculated using a calibration curve prepared from a set of BCR-ABL RNA standards, and results are expressed as a BCR-ABL/ABL ratio. In our hands, the sensitivity of a serial dilution of total RNA from a positive cell line (K562) in a negative cell line (HL60) was 10(-4). Fifteen CML patients in cytogenetic CR, including 11 allografted patients, two autografted patients and two patients treated by IFN were studied sequentially by this new real time quantitative RT-PCR technique in parallel with conventional qualitative two round nested RT-PCR. The two autografted patients showed high BCR-ABL/ABL ratio in all samples. The two patients treated by IFN showed a progressive decrease in the ratio. In the 11 allografted patients, four were sequentially studied 2 years or more after allo-BMT, and all ratios were below 10(-4). The four patients remained in clinical and cytogenetic CR. The seven other allografted patients were studied immediately after the procedure. Three of them showed a progressive decrease in the BCR-ABL/ABL ratio which reached 10(-4) 7 months after allo-BMT. The three patients remained in hematologic and cytogenetic CR. The remaining four allografted patients had progressive increase of BCR-ABL ratio; three developed cytogenetic relapse 9, 11, 28 months after allo-BMT, and the last patient remained in cytogenetic CR in the bone marrow but developed granulocytic sarcoma. Results of real-time quantitative RT-PCR were in agreement with those of qualitative two round nested PCR. However, evolution changes in the results of real-time quantitative RT-PCR often preceded those of the conventional technique: a decrease of the BCR-ABL/ABL ratio preceded progression from first round to second round positivity and then negativity with the classical technique; conversely, an increase in the ratio preceded evolution with the classical technique. Thus, real-time quantitative RT-PCR may show better correlation with clinical and cytogenetic evolution than conventional qualitative techniques and may help in making early therapeutic decisions in CML, especially after molecular relapse.

Cellular applications of a sensitive and selective fiber-optic nitric oxide biosensor based on a dye-labeled heme domain of soluble guanylate cyclase.

Nitric oxide-selective sensors have been prepared with the heme domain of soluble guanylate cyclase (sGC), the only known receptor for signal transduction involving nitric oxide. Expressed in and purified from E. coli, the heme domain contains a stoichiometric amount of heme that has electronic and resonance Raman spectra almost identical to those of heterodimeric (native) sGC purified from bovine lung. The small size of the heme domain, its inability to bind oxygen, and its high affinity for nitric oxide make it well-suited for sensor applications. The heme domain has been labeled with a fluorescent reporter dye and changes in this dye's intensity are observed based on the sGC heme domain's characteristic binding of nitric oxide. The current sensors are prepared with 100-microns optical fiber but could also be prepared using submicrometer fiber tips. These sensors have fast, linear, and reversible responses to nitric oxide and are unaffected by numerous common interferents, such as oxygen, nitrite and nitrate. The sensor limit of detection is 1 microM nitric oxide. Glutathione has been shown to decrease the sensitivity of the sensor; however, the sensor response remains linear and can be calibrated on the basis of the glutathione concentration present in the biological environment of interest. The sensors have been used to measure extracellular nitric oxide production by BALB/c mouse macrophages. Minimal nitric oxide was produced by untreated cells, while high levels of nitric oxide were released from activated cells, e.g., 111 +/- 2 microM in a given cell culture.