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1.
AIMS: To develop a digoxigenin (DIG)-labeled peptide nucleic acid (PNA) probe for the detection of Lactobacillus-related genera amongst eubacterial amplicons obtained from vaginal samples using denaturing gradient gel electrophoresis (DGGE) blots. METHODS AND RESULTS: Part of the 16S rRNA gene sequence was used as a target for the PNA probe. After confirming probe specificity using chromosomal DNA from species and isolates that have been detected in the urogenital tract, it was successfully used to detect lactobacilli amplicons generated using eubacterial-specific 16S rRNA gene-targeted primers from vaginal tract samples immobilized on membranes from DGGE. CONCLUSIONS: The Lactobacillus-specific PNA probe could distinguish between DNA fragments from lactobacilli in a DGGE gel from other bacterial species, including those that migrated to a similar position. SIGNIFICANCE AND IMPACT OF THE STUDY: The use of the DIG-labelled PNA probe on blots of eubacterial PCR products from DGGE gels can be used to specifically detect lactobacilli in complex vaginal samples.  相似文献   

2.
Chiou CC  Luo JD  Chen TL 《Nature protocols》2006,1(6):2604-2612
The detection of rare mutant DNA from a background of wild-type alleles usually requires laborious manipulations, such as restriction enzyme digestion and gel electrophoresis. Here, we describe a protocol for homogeneous detection of rare mutant DNA in a single tube. The protocol uses a peptide nucleic acid (PNA) as both PCR clamp and sensor probe. The PNA probe binds tightly to perfectly matched wild-type DNA template but not to mismatched mutant DNA sequences, which specifically inhibits the PCR amplification of wild-type alleles without interfering with the amplification of mutant DNA. A fluorescein tag (which undergoes fluorescence resonance energy transfer with the adjacent fluorophore of an anchor probe when both are annealed to the template DNA) also allows the PNA probe to generate unambiguous melting curves to detect mutant DNA during real-time fluorescent monitoring. The whole assay takes about only 1 h. This protocol has been used for detecting mutant K-ras DNA and could be applied to the detection of other rare mutant DNAs.  相似文献   

3.
Efficient strand invasion by a linear probe to fluorescently label double-stranded DNA has been implemented by employing a probe and unmodified PNA. As a fluorophore, we utilized ethynylperylene. Multiple ethynylperylene residues were incorporated into the DNA probe via a d-threoninol scaffold. The ethynylperylene did not significantly disrupt hybridization with complementary DNA. The linear probe self-quenched in the absence of target DNA and did not hybridize with PNA. A gel-shift assay revealed that linear probe and PNA combination invaded the central region of double-stranded DNA upon heat-shock treatment to form a double duplex. To further suppress the background emission and increase the stability of the probe/DNA duplex, a probe containing anthraquinones as well as ethynylperylene was synthesized. This probe and PNA invader pair detected an internal sequence in a double-stranded DNA with high sensitivity when heat shock treatment was used. The probe and PNA pair was able to invade at the terminus of a long double-stranded DNA at 40 °C at 100 mM NaCl concentration.  相似文献   

4.
Peptide nucleic acid (PNA) is an artificially synthesized polymer. PNA oligomers show greater specificity in binding to complementary DNAs. Using this PNA, fluorescence melting curve analysis (FMCA) for dual detection was established. Genomic DNA of Mycoplasma fermentans and Mycoplasma hyorhinis was used as a template DNA model. By using one PNA probe, M. fermentans and M. hyorhinis could be detected and distinguished simultaneously in a single tube. The developed PNA probe is a dual‐labeled probe with fluorescence and quencher dye. The PNA probe perfectly matches the M. fermentans 16s rRNA gene, with a melting temperature of 72°C. On the other hand, the developed PNA probe resulted in a mismatch with the 16s rRNA gene of M. hyorhinis, with a melting temperature of 44–45°C. The melting temperature of M. hyorhinis was 27–28°C lower than that of M. fermentans. Due to PNA's high specificity, this larger melting temperature gap is easy to create. FMCA using PNA offers an alternative method for specific DNA detection. © 2015 American Institute of Chemical Engineers Biotechnol. Prog., 31:730–735, 2015  相似文献   

5.
Thymocytes from adrenalectomized BALB/c male mice were separated by peanut agglutination (PNA) into cortical, corticosensitive, PNA+ cells and larger, medullary, corticoresistant, PNA- cells; the extent of cross-contamination of PNA+ and PNA- cells, and vice versa, was checked by flow microfluorometry. Glucocorticoid receptor profiles were established with 3H-dexamethasone as probe; no differences in receptor affinity or cellular concentration, or in cytoplasmic and nuclear compartmentalization were seen between PNA+ and PNA- cells. On two-dimensional gel electrophoresis, PNA+ and PNA- thymocytes from oil-injected (control) adrenalectomized mice showed patterns of incorporation of 35S-methionine into protein that differed in at least 12 spots, as revealed by autoradiography. PNA+ and PNA- cells from mice treated with submaximal (6 micrograms/day) or near-maximal thymolytic doses of dexamethasone (20 micrograms/day) were also examined by two-dimensional gel electrophoresis. Both PNA+ and PNA- cells showed substantial, overlapping dexamethasone-induced changes in protein synthetic profiles.  相似文献   

6.
BACKGROUND: Various protocols for estimation of telomere length in individual cells by flow cytometry using fluorescence in situ hybridization of fluorescently labeled peptide nucleic acid (PNA) probes (Flow-FISH) have been described. Combined analysis of telomere length and cell phenotype, however, remains difficult because few fluorochromes with suitable emission spectra tolerate the harsh conditions needed for DNA denaturation during hybridization of the telomere-specific PNA probe. We overcame these problems and developed a method for measuring telomere length in cell subsets characterized by the expression of two surface antigens. METHODS: Alexa Fluor 488 and Alexa Fluor 546 were used for cell surface staining. Antigen-antibody complexes were covalently cross-linked onto the cell membrane before Flow-FISH. Cells were hybridized with a PNA probe conjugated to cyanine 5 (Cy5). Hoechst 33342 (HO342) was added for determination of cellular DNA content. For assay standardization, we added an aliquot of a single batch of 1,301 cells to each sample as an internal control before hybridization with the PNA probe. Samples were prepared in duplicate and analyzed on a standard three-laser BD LSR flow cytometer. For assay validation, the same samples were analyzed in parallel to correlate the percentage of telomere length of the sample versus 1,301 control cells to the mean size of terminal restriction fragments (TRFs) of DNA as determined by Southern gel analysis. RESULTS: The method permitted clear identification of lymphocyte subsets in samples hybridized for Flow-FISH, with subset frequencies comparable to those of untreated samples. At a concentration of 10 nM, the Cy5-labeled telomere-specific PNA probe produced a bright fluorescence signal well separated from background. Addition of HO342 in low concentration did not interfere with Cy5 telomere fluorescence, produced adequate DNA histograms, and permitted clear identification of cell phenotype. The probe concentration of 10 nM also proved optimal for inclusion of 1,301 control cells for assay standardization. Telomere length estimations by the current method correlated highly with TRF calculations by Southern gel hybridization (r(2)= 0.9, P = 0.0003). Application of our protocol to the analysis of human CD8CD28 lymphocyte subsets showed that CD8(+bright)CD28(-) lymphocytes generally exhibit shorter telomeres than CD8(+bright)CD28(+) cells. These data concurred with previous results of telomere shortening in CD8(+)CD28(-) T cells that were obtained by using different techniques. CONCLUSIONS: The multiparameter Flow-FISH protocol permitted rapid determination of differences in telomere length in subpopulations characterized by two surface markers without prior cell separation.  相似文献   

7.
8.
Bispeptide nucleic acids (bis-PNAs; PNA clamps), PNA oligomers, and DNA oligonucleotides were evaluated as affinity purification reagents for subfemtomolar 16S ribosomal DNA (rDNA) and rRNA targets in soil, sediment, and industrial air filter nucleic acid extracts. Under low-salt hybridization conditions (10 mM NaPO(4), 5 mM disodium EDTA, and 0.025% sodium dodecyl sulfate [SDS]) a PNA clamp recovered significantly more target DNA than either PNA or DNA oligomers. The efficacy of PNA clamps and oligomers was generally enhanced in the presence of excess nontarget DNA and in a low-salt extraction-hybridization buffer. Under high-salt conditions (200 mM NaPO(4), 100 mM disodium EDTA, and 0.5% SDS), however, capture efficiencies with the DNA oligomer were significantly greater than with the PNA clamp and PNA oligomer. Recovery and detection efficiencies for target DNA concentrations of > or =100 pg were generally >20% but depended upon the specific probe, solution background, and salt condition. The DNA probe had a lower absolute detection limit of 100 fg of target (830 zM [1 zM = 10(-21) M]) in high-salt buffer. In the absence of exogenous DNA (e.g., soil background), neither the bis-PNA nor the PNA oligomer achieved the same absolute detection limit even under a more favorable low-salt hybridization condition. In the presence of a soil background, however, both PNA probes provided more sensitive absolute purification and detection (830 zM) than the DNA oligomer. In varied environmental samples, the rank order for capture probe performance in high-salt buffer was DNA > PNA > clamp. Recovery of 16S rRNA from environmental samples mirrored quantitative results for DNA target recovery, with the DNA oligomer generating more positive results than either the bis-PNA or PNA oligomer, but PNA probes provided a greater incidence of detection from environmental samples that also contained a higher concentration of nontarget DNA and RNA. Significant interactions between probe type and environmental sample indicate that the most efficacious capture system depends upon the particular sample type (and background nucleic acid concentration), target (DNA or RNA), and detection objective.  相似文献   

9.
《Biochemical education》1998,26(4):277-280
This tutorial briefly describes a new class of synthetic biopolymer, which is referred to as peptide nucleic acid (PNA). In PNA, individual nucleobases are linked to an achiral neutral peptide backbone. PNA exhibits the hybridization characteristic (e.g., Watson—Crick duplex formation) of DNA. The achiral peptide backbone provides similar interbase distances as natural DNA, and adequate flexibility to permit base pair interactions with complementary RNA or DNA strands. Several potential applications of PNA oligomers in biotechnology are suggested. These include the use of PNAs as a probe for specific recognition of a DNA or RNA sequence selective, purification of nucleic acids via designed high affinity binding to PNA, screening for DNA mutations, and as possible therapeutic agents.  相似文献   

10.
Bispeptide nucleic acids (bis-PNAs; PNA clamps), PNA oligomers, and DNA oligonucleotides were evaluated as affinity purification reagents for subfemtomolar 16S ribosomal DNA (rDNA) and rRNA targets in soil, sediment, and industrial air filter nucleic acid extracts. Under low-salt hybridization conditions (10 mM NaPO4, 5 mM disodium EDTA, and 0.025% sodium dodecyl sulfate [SDS]) a PNA clamp recovered significantly more target DNA than either PNA or DNA oligomers. The efficacy of PNA clamps and oligomers was generally enhanced in the presence of excess nontarget DNA and in a low-salt extraction-hybridization buffer. Under high-salt conditions (200 mM NaPO4, 100 mM disodium EDTA, and 0.5% SDS), however, capture efficiencies with the DNA oligomer were significantly greater than with the PNA clamp and PNA oligomer. Recovery and detection efficiencies for target DNA concentrations of ≥100 pg were generally >20% but depended upon the specific probe, solution background, and salt condition. The DNA probe had a lower absolute detection limit of 100 fg of target (830 zM [1 zM = 10−21 M]) in high-salt buffer. In the absence of exogenous DNA (e.g., soil background), neither the bis-PNA nor the PNA oligomer achieved the same absolute detection limit even under a more favorable low-salt hybridization condition. In the presence of a soil background, however, both PNA probes provided more sensitive absolute purification and detection (830 zM) than the DNA oligomer. In varied environmental samples, the rank order for capture probe performance in high-salt buffer was DNA > PNA > clamp. Recovery of 16S rRNA from environmental samples mirrored quantitative results for DNA target recovery, with the DNA oligomer generating more positive results than either the bis-PNA or PNA oligomer, but PNA probes provided a greater incidence of detection from environmental samples that also contained a higher concentration of nontarget DNA and RNA. Significant interactions between probe type and environmental sample indicate that the most efficacious capture system depends upon the particular sample type (and background nucleic acid concentration), target (DNA or RNA), and detection objective.  相似文献   

11.
A peptide nucleic acid (PNA) probe was developed to detect the toxic dinoflagellate, Takayama pulchella TPXM, using fluorescent in situ hybridization (FISH) combined with epifluorescent microscopy and flow cytometry. The PNA probe was then used to analyze HAB samples from Xiamen Bay. The results indicated that the fluorescein phosphoramidite (FAM)-labeled probe (PNATP28S01) [Flu]-OO ATG CCA TCT CAA GA, entered the algal cells easily and bound to the target species specifically. High hybridization efficiency (nearly 100%) was observed. Detection by epifluorescence microscopy and flow cytometry gave comparable results. The fluorescence intensity of the PNA probe hybridized to T. pulchella cells was remarkably higher than that of two DNA probes used in this study and than the autofluorescence of the blank and negative control cells. In addition, the hybridization condition of the PNA probe was easier to control than DNA probes, and when applied to field-collected samples, the PNA probe showed higher binding efficiency to the target species than DNA probes. With the observed high specificity, binding efficiency, and detection signal intensity, the PNA probe will be useful for monitoring harmful algal blooms of T. pulchella.  相似文献   

12.
Chen G  Zhang C  Zhang B  Wang G  Lu D  Xu Z  Yan P 《PloS one》2011,6(10):e25527
Prorocentrum donghaiense is a common but dominant harmful algal bloom (HAB) species, which is widely distributed along the China Sea coast. Development of methods for rapid and precise identification and quantification is prerequisite for early-stage warning and monitoring of blooms due to P. donghaiense. In this study, sequences representing the partial large subunit rDNA (D1-D2), small subunit rDNA and internal transcribed spacer region (ITS-1, 5.8S rDNA and ITS-2) of P. donghaiense were firstly obtained, and then seven candidate DNA probes were designed for performing fluorescence in situ hybridization (FISH) tests on P. donghaiense. Based on the fluorescent intensity of P. donghaiense cells labeled by the DNA probes, the probe DP0443A displayed the best hybridization performance. Therefore, a PNA probe (PP0443A) analogous to DP0443A was used in the further study. The cells labeled with the PNA probe displayed more intensive green fluorescence than that labeled with its DNA analog. The PNA probe was used to hybridize with thirteen microalgae belonging to five families, i.e., Dinophyceae, Prymnesiophyceae, Raphidophyceae, Chlorophyceae and Bacillariophyceae, and showed no visible cross-reaction. Finally, FISH with the probes PP0443A and DP0443A and light microscopy (LM) analysis aiming at enumerating P. donghaiense cells were performed on the field samples. Statistical comparisons of the cell densities (cells/L) of P. donghaiense in the natural samples determined by FISH and LM were performed using one-way ANOVA and Duncan's multiple comparisons of the means. The P. donghaiense cell densities determined by LM and the PNA probe are remarkably higher than (p<0.05) that determined by the DNA probe, while no significant difference is observed between LM and the PNA probe. All results suggest that the PNA probe is more sensitive that its DNA analog, and therefore is promising for the monitoring of harmful algal blooms of P. donghaiense in the future.  相似文献   

13.
Although the analyses of HBV genomic DNA have traditionally been performed with commercial techniques, the high cost and long time consumed have hindered their applications in routinely diagnosis and prognosis of infection. We construct peptide nucleic acid (PNA) piezoelectric biosensor for real-time monitoring of hybridization of hepatitis B virus (HBV) genomic DNA. The PNA probe can combine to target DNA sequences more effectively and specifically than a DNA probe. The PNA probe was designed and immobilized on the surface of the biosensor to substitute the conventional DNA probe for direct detection of HBV genomic DNA without previous amplification by PCR. The hybridization assay was completed in 50 min. The detection limit was 8.6 pg/L and the clinical specificity was 94.44% compared with real time-PCR (RT-PCR). The PNA probe was able to distinguish sequences that differ only in one base. Detection sensitivity can be improved and detection time can be decreased by adding RecA protein-coated complementary ssDNA which complement to HBV gene regions. The QCM system we designed has the advantages of being rapid, label-free and highly sensitive and can be a useful supplement to commercial assay methods in clinical chemistry.  相似文献   

14.
A new method for the detection of PNA/DNA hybrids is presented. In this method, short PNA probes (9-13 mer) are labeled with a fluorescent dye and allowed to hybridize to target DNA molecules. A cationic polyamino acid, such as polylysine, is then added to the reaction mixture, whereupon the DNA molecules bind electrostatically to this polycation. The PNA probes, which are uncharged or may carry only a small charge due to the fluorescent dye, do not bind to polylysine unless hybridized to the negatively charged DNA target. The binding of the labeled PNA/DNA hybrid to the high-molecular-weight polymer leads to a significant change in the rotational correlation time of the fluorophore attached to the PNA. This can be conveniently detected by measuring the fluorescence polarization of the latter. The method is completely homogeneous because no separation of free from bound PNA probe is required. The hybridization and dehybridization reactions can be followed in real time. The method has been applied to the typing of single-nucleotide polymorphisms in PCR products.  相似文献   

15.
Peptide nucleic acid (PNA) is a chimeric oligonucleotide with nucleotide-derived bases and a peptide backbone. Compared with natural nucleotides, PNA has several advantages, including improved stability and high sequence discrimination during duplex formation. Despite its potential for therapeutic application, analysis technologies have not been generalized, mainly due to ambiguous physiochemical properties resembling those of nucleic acids as well as protein. Here we present a PNA detection method: sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) followed by electrotransfer to a Western blotting membrane and then hybridization with a radiolabeled oligonucleotide probe. This method is useful for evaluating the quality of synthetic PNA and determining its intracellular localization.  相似文献   

16.
费一楠  张飞雄 《遗传》2006,28(5):623-630
肽核酸(PNA)是具有类多肽骨架的DNA类似物,PNA的主链骨架是由N(2-氨基乙基)-甘氨酸与核酸碱基通过亚甲基羰基连接而成的。PNA可以特异性地与DNA或RNA杂交,形成稳定的复合体。PNA由于其自身的特点可以对DNA复制、基因转录、翻译等进行有针对的调控,同时作为杂交探针大大提高了遗传学检测和医疗诊断的效率和灵敏度。肽核酸(PNA)特异性地识别和结合互补核酸序列被引进用于医学和生物学的研究,展示了其独特的生化属性,成为了基因奥秘的探索者。  相似文献   

17.
We have constructed light-up probes for nucleic acid detection. The light-up probe is a peptide nucleic acid (PNA) oligonucleotide to which the asymmetric cyanine dye thiazole orange (TO) is tethered. It combines the excellent hybridization properties of PNA and the large fluorescence enhancement of TO upon binding to DNA. When the PNA hybridizes to target DNA, the dye binds and becomes fluorescent. Free probes have low fluorescence, which may increase almost 50-fold upon hybridization to complementary nucleic acid. This makes the light-up probes particularly suitable for homogeneous hybridization assays, where separation of the bound and free probe is not necessary. We find that the fluorescence enhancement upon hybridization varies among different probes, which is mainly due to variations in free probe fluorescence. For eight probes studied the fluorescence quantum yield at 25 degrees C in the unbound state ranged from 0.0015 to 0.08 and seemed to depend mainly on the PNA sequence. The binding of the light-up probes to target DNA is highly sequence specific and a single mismatch in a 10-mer target sequence was readily identified.  相似文献   

18.
Peptide nucleic acids (PNAs) are DNA analogs that hybridize to complementary nucleic sequences with high affinity and stability. In our previous work, we showed that a PNA complementary to a 12-base pair (bp) sequence of the coding region of the rat neurotensin receptor (rNTR1) mRNA is effective in significantly blocking a rat's central responses to neurotensin (NT), even when the PNA is injected intraperitoneally (i.p.). Using a novel gel shift detection assay to detect PNA, we have now used this same PNA sequence to derive its pharmacokinetic variables and its tissue distribution in the rat. The PNA has a distribution half-life of 3 +/- 3 minutes and an elimination half-life of 17 +/- 3 minutes. The total plasma clearance and volume of distribution of this PNA were 3.4 +/- 0.9 ml/min x kg and 60 +/- 30 ml/kg. Two hours after dosing, the PNA was found at detectable but low levels in all organs examined-in order of decreasing concentration: kidney, liver, heart, brain, and spleen. Approximately 90% of the PNA dose was recovered as unchanged parent compound in the urine 24 hours after administration.  相似文献   

19.
Traditionally fluorescence in situ hybridization (FISH) has been performed with labeled DNA oligonucleotide probes. Here we present for the first time a high affinity peptide nucleic acid (PNA) oligonucleotide sequence for detecting thermotolerant Campylobacter spp. using FISH. Thermotolerant Campylobacter spp, including the species Campylobacter coli, Campylobacter jejuni and Campylobacter lari, are important food and water borne pathogens. The designed PNA probe (CJE195) bound with higher affinity to a previously reported low affinity site on the 16S rRNA than the corresponding DNA probe. PNA also overcame the problem of the lack of affinity due to the location of the binding site and the variation of the target sequence within species. The PNA probe specificity was tested with several bacterial species, including other Campylobacter spp. and their close relatives. All tested C. coli, C. jejuni and C. lari strains were hybridized successfully. Aging of the Campylobacter cultures caused the formation of coccoid forms, which did not hybridize as well as bacteria in the active growth phase, indicating that the probe could be used to assess the physiological status of targeted cells. The PNA FISH methodology detected C. coli by membrane filtration method from C. coli spiked drinking water samples.  相似文献   

20.
Objectives: Peptide nucleic acid (PNA) probes hybridize to denatured telomeric sequences in cells permeabilized in hot formamide. In reported protocols, the hybridization was conducted in solutions with high formamide concentrations to avoid the DNA renaturation that can hamper binding of the oligo‐PNA probe to specific sequences. We postulated that telomeric DNA, confined in the nuclear microvolume, is not able to properly renature after hot formamide denaturation. Therefore, to improve hybridization conditions between the probe and the target sequences, it might be possible to add probe to sample after the complete removal of formamide. Materials and methods: After telomeric DNA denaturation in hot formamide solution and several washes to remove the ionic solvent, cells were hybridized overnight at room temperature with human telomere‐specific PNA probe conjugated with Cy5 fluorochrome, Cy5‐OO‐(CCCTAA)3. After stringency washes and staining with ethidium bromide, the cells were analysed by flow cytometry and by using a confocal microscope. Results: Using three continuous cell lines, different in DNA content and telomere length, and resting human peripheral blood T and B lymphocytes, we demonstrated that the oligo‐PNA probe hybridized to telomeric sequences after complete removal of formamide and that in the preserved nucleus, telomeric sequence denaturation is irreversible. Conclusion: According to our experience, oligo‐PNA binding results is efficient, specific and proportional to telomere length. These, our original findings, can form the technological basis of actual in situ hybridization on preserved whole cells.  相似文献   

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