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1.
《Critical reviews in biochemistry and molecular biology》2013,48(3-4):227-259
AbstractNucleic acid hybridization with a labeled probe is the only practical way to detect a complementary target sequence in a complex nucleic acid mixture. The first section of this article covers quantitative aspects of nucleic acid hybridization thermodynamics and kinetics. The probes considered are oligonucleotides or polynucleotides, DNA or RNA, single- or double-stranded, and natural or modified, either in the nucleotide bases or in the backbone. The hybridization products are duplexes or triplexes formed with targets in solution or on solid supports. Additional topics include hybridization acceleration and reactions involving branch migration. The second section deals with synthesis or biosynthesis and detection of labeled probes, with a discussion of their sensitivity and specificity limits. Direct labeling is illustrated with radioactive probes. The discussion of indirect labels begins with biotinylated probes as prototypes. Reporter groups considered include radioactive, fluorescent, and chemiluminescent nucleotides, as well as enzymes with colorimetric, fluorescent, and luminescent substrates. 相似文献
2.
Marras SA 《Molecular biotechnology》2008,38(3):247-255
The use of fluorescent nucleic acid hybridization probes that generate a fluorescence signal only when they bind to their
target enables real-time monitoring of nucleic acid amplification assays. Real-time nucleic acid amplification assays markedly
improves the ability to obtain qualitative and quantitative results. Furthermore, these assays can be carried out in sealed
tubes, eliminating carryover contamination. Fluorescent nucleic acid hybridization probes are available in a wide range of
different fluorophore and quencher pairs. Multiple hybridization probes, each designed for the detection of a different nucleic
acid sequence and each labeled with a differently colored fluorophore, can be added to the same nucleic acid amplification
reaction, enabling the development of high-throughput multiplex assays. In order to develop robust, highly sensitive and specific
real-time nucleic acid amplification assays it is important to carefully select the fluorophore and quencher labels of hybridization
probes. Selection criteria are based on the type of hybridization probe used in the assay, the number of targets to be detected,
and the type of apparatus available to perform the assay. This article provides an overview of different aspects of choosing
appropriate labels for the different types of fluorescent hybridization probes used with different types of spectrofluorometric
thermal cyclers currently available. 相似文献
3.
Sequence-specific detection of polynucleotides typically requires modified reporter probes that are labeled with radioactive, fluorescent, or luminescent moieties. Although these detection methods are capable of high sensitivity, they require instrumentation for signal detection. In certain settings, such as clinical point of care, instrumentation might be impractical or unavailable. Here we describe a detection approach in which formation of a nucleic acid hybrid is enzymatically transduced into a molecular thin film that can be visually detected in white light. The system exploits a flat, optically coated silicon-based surface to which capture oligonucleotides are covalently attached. The optimized system is capable of detection of nucleic acid targets present at sub-attomole levels. To supplement visual detection, signals can be quantitated by a charge-coupled device. The design and composition of the optical surface, optimization of immobilization chemistry for attachment of capture probes, and characterization of the efficiency of the hybridization process are presented. We describe the application of this system to detection of a clinically relevant target, the mecA gene present in methicillin-resistant Staphylococcus aureus. 相似文献
4.
Enzymatic labeling of nucleic acids is a fundamental tool in molecular biology with virtually every aspect of nucleic acid
hybridization technique involving the use of labeled probes. Different methods for enzymatic labeling of DNA, RNA and oligonucleotide
probes are available today. In this review, we will describe both radioactive and nonradioactive labeling methods, yet the
choice of system for labeling the probe depends on the application under study. 相似文献
5.
The antisense therapeutic strategy makes the assumption that sequence-specific hybridization of an oligonucleotide to its target can take place in living cells. The present work provides a new method for the detection of intracellular RNA molecules using in situ hybridization on living cells. The first step consisted in designing nonperturbant conditions for cell permeabilization using streptolysin O. In a second step, intracellular hybridization specificity was evaluated by incorporating various types of fluorescently labeled nucleic acid probes (plasmids, oligonucleotides). Due to its high expression level, the 28S ribosomal RNA was retained as a model. Results showed that: (1) no significant cell death was observed after permeabilization; (2) on living cells, 28S RNA specific probes provided bright nucleoli and low cytoplasmic signal; (3) control probes did not lead to significant fluorescent staining; and (4) comparison of signals obtained on living and fixed cells showed a colocalization of observed fluorescence. These results indicate the feasibility of specific hybridization of labeled nucleic acid probes under living conditions, after a simple and efficient permeabilization step. This new detection method is of interest for investigating the dynamics of distribution of various gene products in living cells, under normal or pathological conditions.Abbreviations PI
propidium iodide
- SLO
streptolysin O 相似文献
6.
多彩色荧光原位杂交技术原理及其应用 总被引:9,自引:0,他引:9
多彩色荧光原位杂交是一门新兴的分子细胞遗传学技术,它用几种不同颜色的荧光素单独或混合标记的探针,进行原位杂交,同时检测间期细胞或中期细胞中的几个特异核酸序列,为分析癌症遗传不稳定性提供了一种简便、快速、可靠的方法,并广泛应用于物理图谱绘制、致突变研究、肿瘤病理学和产前诊断. 相似文献
7.
The variety of potentially useful dyes or haptenes available for fluorescent nucleic acid hybridization assays is far greater than what can be obtained from commercial sources. Since this diversity could be useful in many laboratory applications, we have developed a simple and inexpensive procedure for preparing nonpurified labeled nucleotides, for use in common nucleic acid labeling reactions, such as PCR and nick translation. The modified nucleotides were synthesized by coupling allylamine-dUTP to the succinimidyl-ester derivatives of the fluorescent dyes or haptenes such as biotin or digoxigenin, which require fluorescently labeled proteins for detection. This method allows custom preparation of most common fluorescent nucleotides and rapid testing of new ones, while reducing the cost of procedures such as multiplex fluorescent in situ hybridization (M-FISH) by 100-200 fold. 相似文献
8.
Kelly JJ Chernov BK Tovstanovsky I Mirzabekov AD Bavykin SG 《Analytical biochemistry》2002,311(2):103-118
DNA microchip technology is a rapid, high-throughput method for nucleic acid hybridization reactions. This technology requires random fragmentation and fluorescent labeling of target nucleic acids prior to hybridization. Radical-generating coordination complexes, such as 1,10-phenanthroline-Cu(II) (OP-Cu) and Fe(II)-EDTA (Fe-EDTA), have been commonly used as sequence nonspecific "chemical nucleases" to introduce single-strand breaks in nucleic acids. Here we describe a new method based on these radical-generating complexes for random fragmentation and labeling of both single- and double-stranded forms of RNA and DNA. Nucleic acids labeled with the OP-Cu and the Fe-EDTA protocols revealed high hybridization specificity in hybridization with DNA microchips containing oligonucleotide probes selected for identification of 16S rRNA sequences of the Bacillus group microorganisms.We also demonstrated cDNA- and cRNA-labeling and fragmentation with this method. Both the OP-Cu and Fe-EDTA fragmentation and labeling procedures are quick and inexpensive compared to other commonly used methods. A column-based version of the described method does not require centrifugation and therefore is promising for the automation of sample preparations in DNA microchip technology as well as in other nucleic acid hybridization studies. 相似文献
9.
The direct labeling of nucleic acid probes, with horseradish peroxidase (HRP) may be used in many membrane hybridization applications,
including Southern blots, Northern blots, colony and plaque screening, PCR products detection/identification. This article
describes the preparation method, which involves the labeling of a single-stranded nucleic acid probe with a positively charged
HRP-parabenzoquinonepolyethyleneimine complex (labeling reagent). The associated hybridization and posthybridization protocols
are relatively simple, which makes probes labeled directly with HRP particularly suitable for large scale screening, where
tens or hundreds of blots are processed weekly. 相似文献
10.
Guerasimova A Nyarsik L Girnus I Steinfath M Wruck W Griffiths H Herwig R Wierling C O'Brien J Eickhoff H Lehrach H Radelof U 《BioTechniques》2001,31(3):490-495
Oligonucleotide fingerprinting is an attractive, high-throughput complement to tag sequencing methods to determine the spectrum and abundance of genes in cDNA libraries. This method currently relies on the sequential hybridizations of short, radioactively labeled DNA oligonucleotides to clone arrays. Here, we describe a new environment that substantially improves this technology. Fluorescently labeled peptide nucleic acid (PNA) oligonucleotides are used as hybridization probes. Hybridization results are recorded with a large-field, high-resolution laser scanner developed for this purpose. Automated image analysis allows easy handling of large numbers of hybridization images. Signal interference effects, which limit the gridding density in the radioactive approach, are strongly reduced. The sensitivity of the fluorescence detection demonstrated permits the convenient use of nylon membranes. Hybridization data quality is improved, and its generation is substantially accelerated, simplified, and less expensive. 相似文献
11.
12.
T I Vener M F Turchinsky V D Knorre S N Lukin YuVShcherbo V P Zubov E D Sverdlov 《Analytical biochemistry》1991,198(2):308-311
The paper describes a sensitive latex hybridization assay (LHA) method applied for indirect detection of biotinylated nucleic acid hybrids immobilized on a synthetic membrane. The biotinylated hybrids were visualized by means of latex particles containing the fluorescent dye pyronine G and coated with streptavidin; 1.6 and 0.3 pg of lambda-phage DNA was detected by dot blot hybridizations on nylon membrane and polyethyleneimine-cellophane, respectively. The assay sensitivity was increased by three orders of magnitude over that with fluorescently labeled probes due to encapsulation of the fluorescent dye in polymer particles. LHA is simple (single-stage detection procedure), fast, and more sensitive than any of the other nonradioactive hybridization methods. 相似文献
13.
Hybridization histochemistry or in situ hybridization in the study of neuronal gene expression 总被引:2,自引:0,他引:2
1. Currently popular techniques of in situ hybridization histochemistry for the detection of cellular nucleic acids (DNA or RNA) are reviewed. 2. The advantages of single stranded DNA or RNA probes are discussed, together with the advantages of radioactive versus non-radioactive detection of nucleic acid signal. 3. Improving techniques of non-radioactive labelling and the use of image analysis for quantitation of radioactive signals will greatly expand the use of in situ techniques which will become commonplace in the laboratory. 相似文献
14.
Hybridization of nucleic acids directly in agarose gels 总被引:45,自引:0,他引:45
Nucleic acids, both DNA and RNA, separated on agarose gels can be visualized by direct hybridization of the dried gel with appropriate radioactive probes. This method does not involve the transfer of the nucleic acid from the gel. The method requires less manipulation than other procedures; it is extremely rapid, sensitive, and inexpensive. These attributes make this procedure a valuable alternative or supplement to the commonly used methods for visualization by hybridization of nucleic acids separated on agarose gels. 相似文献
15.
Molecular beacons (MBs) are a novel class of nucleic acid probes that become fluorescent when bound to a complementary sequence. Because of this characteristic, coupled with the sequence specificity of nucleic acid hybridization and the sensitivity of fluorescence techniques, MBs are very useful probes for a variety of applications requiring the detection of DNA or RNA. We survey various applications of MBs, including the monitoring of DNA triplex formation, and describe recent developments in MB design that enhance their sensitivity. 相似文献
16.
Portable System for Microbial Sample Preparation and Oligonucleotide Microarray Analysis 总被引:8,自引:2,他引:8
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Sergei G. Bavykin James P. Akowski Vladimir M. Zakhariev Viktor E. Barsky Alexander N. Perov Andrei D. Mirzabekov 《Applied microbiology》2001,67(2):922-928
We have developed a three-component system for microbial identification that consists of (i) a universal syringe-operated silica minicolumn for successive DNA and RNA isolation, fractionation, fragmentation, fluorescent labeling, and removal of excess free label and short oligonucleotides; (ii) microarrays of immobilized oligonucleotide probes for 16S rRNA identification; and (iii) a portable battery-powered device for imaging the hybridization of fluorescently labeled RNA fragments with the arrays. The minicolumn combines a guanidine thiocyanate method of nucleic acid isolation with a newly developed hydroxyl radical-based technique for DNA and RNA labeling and fragmentation. DNA and RNA can also be fractionated through differential binding of double- and single-stranded forms of nucleic acids to the silica. The procedure involves sequential washing of the column with different solutions. No vacuum filtration steps, phenol extraction, or centrifugation is required. After hybridization, the overall fluorescence pattern is captured as a digital image or as a Polaroid photo. This three-component system was used to discriminate Escherichia coli, Bacillus subtilis, Bacillus thuringiensis, and human HL60 cells. The procedure is rapid: beginning with whole cells, it takes approximately 25 min to obtain labeled DNA and RNA samples and an additional 25 min to hybridize and acquire the microarray image using a stationary image analysis system or the portable imager. 相似文献
17.
Synthesis of nucleic acid probes on membrane supports: a procedure for the removal of unincorporated precursors 总被引:1,自引:0,他引:1
S P Bhat 《Analytical biochemistry》1990,184(1):59-62
We have used DNA bound to small pieces of nylon membrane for the synthesis of radioactive probes. The DNA to be used for generating the probe(s) is first bound to nylon membranes and then introduced into the reaction mix. The labeling reaction takes place on the membrane and therefore allows easy removal of unincorporated precursors by simple washing for 1-2 min. The clean labeled probe is eluted from the membrane in formamide or in water and is ready for use. This DNA-membrane can be stored for reuse. Synthesis of probes on a solid support such as nylon membrane thus circumvents problems associated with chromatographic manipulations needed for the separation of labeled DNA from unicorporated precursors. Probes synthesized in this manner are as efficient in detecting nucleic acid sequences as those synthesized in solution. 相似文献
18.
Rapid detection, identification, and enumeration of Escherichia coli by fluorescence in situ hybridization using an array scanner 总被引:2,自引:0,他引:2
A new fluorescence in situ hybridization (FISH) method using peptide nucleic acid (PNA) probes and an array scanner for rapid detection, identification, and enumeration of Escherichia coli is described. The test utilizes Cy3-labeled peptide nucleic acid (PNA) probes complementary to a specific 16S rRNA sequence of E. coli. Samples were filtered and incubated for 5 h, the membrane filters were then analyzed by fluorescence in situ hybridization and results were visualized with an array scanner. Results were provided as fluorescent spots representing E. coli microcolonies on the membrane filter surface. The number of fluorescent spots correlated to standard colony counts up to 100 colony-forming units per membrane filter. Above this level, better accuracy was obtained with PNA FISH due to the ability of the scanner to resolve neighboring microcolonies, which were not distinguishable as individual colonies once they were visible by eye. 相似文献
19.
Guerasimova A Nyarsik L Liu JP Schwartz R Lange M Lehrach H Janitz M 《Biomolecular engineering》2006,23(1):35-40
An assay for the fluorescent detection of short oligonucleotide probe hybridization in miniaturized high-density array platforms is presented. It combines hybridization in solution with real-time fluorescent detection, which involves measurement of fluorescence increase by means of an induced fluorescence resonance energy transfer. The feasibility of this approach using DNA or RNA as a target, and short DNA- as well as LNA (locked nucleic acid)-modified oligonucleotides as probes is shown. The presented approach could potentially contribute to a significant increase in the throughput of large-scale genomic applications, such as oligofingerprinting and genotyping, and also reduce material consumption. 相似文献
20.
Portable system for microbial sample preparation and oligonucleotide microarray analysis 总被引:8,自引:0,他引:8
Bavykin SG Akowski JP Zakhariev VM Barsky VE Perov AN Mirzabekov AD 《Applied and environmental microbiology》2001,67(2):922-928
We have developed a three-component system for microbial identification that consists of (i) a universal syringe-operated silica minicolumn for successive DNA and RNA isolation, fractionation, fragmentation, fluorescent labeling, and removal of excess free label and short oligonucleotides; (ii) microarrays of immobilized oligonucleotide probes for 16S rRNA identification; and (iii) a portable battery-powered device for imaging the hybridization of fluorescently labeled RNA fragments with the arrays. The minicolumn combines a guanidine thiocyanate method of nucleic acid isolation with a newly developed hydroxyl radical-based technique for DNA and RNA labeling and fragmentation. DNA and RNA can also be fractionated through differential binding of double- and single-stranded forms of nucleic acids to the silica. The procedure involves sequential washing of the column with different solutions. No vacuum filtration steps, phenol extraction, or centrifugation is required. After hybridization, the overall fluorescence pattern is captured as a digital image or as a Polaroid photo. This three-component system was used to discriminate Escherichia coli, Bacillus subtilis, Bacillus thuringiensis, and human HL60 cells. The procedure is rapid: beginning with whole cells, it takes approximately 25 min to obtain labeled DNA and RNA samples and an additional 25 min to hybridize and acquire the microarray image using a stationary image analysis system or the portable imager. 相似文献