Labeling Of Nucleic Acids Research Articles

Use of Random Primer Extension for Concurrent Amplification and Nonradioactive Labeling of Nucleic Acids

A method for efficient nonradioactive labeling of DNA with biotin using random primer extension has been developed. Under the conditions described, a significant amount of DNA synthesis occurs during incorporation of the nonradioactive label, resulting in amplification of the original template DNA. The effect of primer size, substrate concentration, enzyme concentration, and ratio of biotinylated nucleotide to normal nucleotide on the amount of DNA synthesis was determined. Amplifications of 10- to >300-fold were attained, depending on the starting template concentration. Template may be varied from 1 to 500 ng per reaction. The size of the resulting biotinylated probes is 100-1000 nucleotides with a significant proportion in the 100-300 nucleotide range. The biotinylated probes were used to detect single-copy genes on Southern blot hybridizations and to identify specific loci in metaphase chromosome spreads by in situ hybridization followed by fluorescent detection with streptavidin-fluorescein isothiocyanate. Random primer amplification and labeling provides a convenient method for preparation of biotinylated probes from small amounts of template DNA.

Non-radioactive detection methods for nucleic acids separated by electrophoresis

The different non-radioactive labelling and detection methods currently commercially available are compared and evaluated in this review. Minor factors such as electrophoresis and blotting techniques as well as choice of membrane and their impact on results are discussed. Two major labelling moieties, biotin and digoxigenin, and the various labelling methods are discussed in detail. A comparison of my own results and those from the literature favours application of the digoxigenin group as a routine label. Nevertheless, in several cases biotin will also lead to good results and may also serve as a second label. The most important factor within the non-radioactive systems is the detection of the targeted label. Colorimetric and chemiluminescent techniques are compared in terms of sensitivity, flexibility and applicability. Colorimetric detection can produce suitable results, but in most cases the major advantages of chemiluminescent techniques involving alkaline phosphatase and AMPPD or CSPD will make chemiluminescent detection the method of choice. A survey is given on applicability of the basic techniques to several important assay methods involving electrophoresis of nucleic acids. Finally, some examples of application of non-radioactive nucleic acid labelling and detection techniques in plant molecular biology and biomedicine are cited from the literature.

Chemical nucleic acid synthesis, modification and labelling.

The chemical synthesis of RNA on solid phase has now become routine using labile protecting groups and mild deprotection methods. The great interest in antisense technology has sparked the development of P-chiral phosphorothioates and a large number of DNA analogues with modified sugars and/or backbones to increase resistance to nucleases, and with modifier groups attached to the sugar, nucleobase or internucleotide function to aid cellular uptake.

A simple, rapid, inexpensive and widely applicable technique for purifying plant DNA

We describe and evaluate a quick and simple technique for purifying plant DNA from a wide range of taxa. The method utilises selective binding to diatomite in the presence of a chaotrope and allows simple, rapid and inexpensive preparation of DNA of length and purity adequate for restriction analysis of nuclear and chloroplast sites, cyclic DNA amplification and other studies. Coupled with recent developments in handling of field-collected plant samples and the development of non-radioactive nucleic acid labelling techniques, this purification protocol facilitates application of molecular systematic approaches in botanical institutions without access to specialised biochemical facilities.

Multiple nucleic acid labeling and rainbow detection

A method which allows discrete nucleic acid sequences to be detected with differently colored hybridization signals on the same blot involving only a single hybridization step is described. Nucleic acid probes labeled with digoxigenin, fluorescein, or biotin are hybridized simultaneously to immobilized target nucleic acids. Differential colorimetric detection is carried out in consecutive alkaline phosphatase-based immunoassays with one of three 3-hydroxy-2-naphthoic acid anilide phosphate/diazonium salt combinations as substrate. Each label is visualized by a different color precipitate (green, red, and blue) directly on the membrane. We demonstrate the use of this method in multicolor plasmid mapping, detection of different genomic sequences on a single Southern blot, discrimination of transcription levels in a Northern blot, and colony screening. Advantages and limitations of the method, as well as further applications, are discussed.

Enzymatic labeling of nucleic acids.

Extensive knowledge of the enzymology involved in biosynthesis and degradation of nucleic acids has permitted the development of simple methods for labeling RNA and DNA with radioisotopes or biotin. These labeled probes are used primarily for hybridization to nucleic acid fragments of interest in a variety of applications. A complete description of the methods available for such labeling is beyond the scope of this manual, but contained within this unit are protocols for oligonucleotide-primed synthesis of radiolabeled and biotinylated DNA probes, in vitro synthesis of radiolabeled RNA, and end labeling of synthetic oligonucleotide probes.

Alkaline phosphatase inhibitors as labels of DNA probes

A new approach to nucleic acid labeling was developed by preparing bifunctional reagents containing, in addition to the DNA-linking group, a competitive inhibitor of the chromogenic enzyme alkaline phosphatase. The nucleic acids labeled in such a way were able to bind themselves to the enzyme, whose activity was restored in the presence of a chromogenic substrate. Five phosphonic-acid-containing reagents were synthesized and coupled to linearized pBR322 plasmid DNA by different condensation methods. Eight probes thus obtained were assayed in a modified dot-blot detection procedure obtaining the best nucleic acid detection sensitivity of 25 pg. Finally, five of the above probes were tested in hybridization experiments, reaching sensitivity of 50 pg.

5093232 Nucleic acid probes: Michael S Urdea, Thomas Horn assigned to Chiron Corporation

Enzymatic and Chemical Techniques for Labeling Nucleic Acids with Radioisotopes. Preparation and Detection of Nonradioactive Nucleic Acid and Oligonucleotide Probes. Nucleic Acid Probes in the Diagnosis of Human Microbial Pathogens. Nucleic Acid Probes in the Diagnosis of Plant Viruses and Viroids. Detection of Specific DNA and RNA Sequences in Tissues and Cells by in situ Hybridization. The Study and Diagnosis of Human Genetic Disorders Using Nucleic Acid Probes. Index

Novel functionalization of the sugar moiety of nucleic acids for multiple labeling in the minor groove

The sugar ring of adenosine was alkylated at the 2′-O- position using N-(5-bromopentyl)phthalimide and the modified nucleoside was chemically incorporated into oligonucleotide diesters, thioates and RNA analogs. The free amino group, available after oligonucleotide deprotection, is useful for site-specific introduction of reporter groups and therapeutic agents at the 2′-position. This novel methodology permits multiple labeling of nucleic acids in the minor groove.

Enhanced chemiluminescence for the detection of membrane-bound nucleic acid sequences: Advantages of the Amersham system

A range of nonradioactive nucleic acid labeling and detection systems have been developed that enable the user to label probes directly with enzyme molecules or indirectly with hapten-derivatized nucleotides. Horseradish peroxidase is used for the direct labeling procedures due to the ease of chemical modification and the relative thermal and chemical stability of this enzyme. Horseradish peroxidase has also been conjugated to a high-specificity antifluorescein antibody for detection of hapten (fluorescein)-labeled hybrids. Enhanced chemiluminescence is a light-emitting process optimized for the detection of low levels of horseradish peroxidase on membrane supports. Results are obtained as hard copy images on x-ray film.

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.

Nucleic Acid Labeling with [3H]Orotic Acid and Nucleotide Profile in Rats in Protein Deprivation, Enteral and Parenteral Essential Amino Acid Administration, and 5‐Fluorouracil Treatment

Rats were fed a 0% casein diet for 1 week, with or without enteral or parenteral administration of essential amino acids, or a 25% casein diet, in one group supplemented with 5-fluorouracil treatment. Ninety minutes before sacrifice the rats were given a tracer of [3H]orotic acid. Incorporation into the acid soluble fraction, RNA, and DNA was determined in liver, small intestine, bone marrow, and kidney. Nucleotide profile was examined in liver and intestine. Protein deficiency caused inter alia a decrease in body weight; a decrease in RNA/DNA ratio and an increase in the specific RNA labeling in liver and kidney; an altered nucleotide profile in the liver; an increase in the nucleotide/DNA and RNA/DNA ratios and a decrease in the specific labeling of the acid soluble fraction, RNA, and DNA in the bone marrow. These changes were prevented to the same extent by giving essential amino acids, either orally or intravenously. The minor changes in intestinal nucleotide profile in protein deprivation were prevented to a slightly larger extent by amino acids orally than parenterally. 5-Fluorouracil treatment gave a decrease in the RNA/DNA ratio in the liver and kidney but an increase in the nucleotide/DNA and RNA/DNA ratios in the bone marrow. Nucleotide profiles were unaltered. The amount of DNA per gram of tissue decreased in bone marrow and increased in kidney. Parenteral administration per se resulted in almost no changes.

Non-radioactive Labeling and Detection of Nucleic Acids. II. Optimization of the Digoxigenin System

The random-primed DNA labeling technique was modified for the incorporation of digoxigenin into DNA as basic component of the digoxigenin-based non-radioactive DNA labeling and detection system. Digoxigenin molecules act as reporter groups for highly sensitive DNA detection by a digoxigenin-specific antibody:alkaline phosphatase-conjugate-catalysed color reaction. The parameters affecting the individual reaction steps of the digoxigenin labeling, hybridization and detection reactions were optimized to maximal sensitivity and specificity.

Non-radioactive Labeling and Detection of Nucleic Acids. III Applications of the Digoxigenin System

The digoxigenin-based non-radioactive DNA labeling and detection system was applied in various hybridization protocols using digoxigenin-labeled probes obtained by enzymatic incorporation of Dig-[11]-dUTP. In genomic blots single-copy genes (human tissue-type plasminogen activator, constant part of immunoglobulin kappa light chain) can be detected with only 0.5 to 5 micrograms human DNA depending on the type of probe and the length of the hybridizing region. Due to its high sensitivity and specificity, the digoxigenin system is also appropriate for colony-, plaque-, and in situ hybridizations with metaphase chromosome spreads and fixed cells. Especially in the latter applications it is of great advantage, that with the digoxigenin system any significant background or unspecific side reactions with biological materials are avoided.

Non-radioactive Labeling and Detection of Nucleic Acids. I. A Novel DNA Labeling and Detection System Based on Digoxigenin: Anti-Digoxigenin ELISA Principle (Digoxigenin System)

A novel highly sensitive non-radioactive DNA labeling and detection system based on the ELISA principle has been developed. DNA is modified with the cardenolide-hapten digoxigenin by enzymatic incorporation of digoxigenin-labeled deoxyuridine-triphosphate with Klenow enzyme. Digoxigenin is linked to dUTP via an 11-atom linear spacer (Dig-[11]-dUTP). Following hybridization of membrane-bound target-DNA with a digoxigenin-labeled probe, the hybrids are detected by an ELISA reaction using digoxigenin-specific antibodies covalently coupled to the marker enzyme alkaline phosphatase [(Dig):CIAP]. This binding of antibody: marker enzyme-conjugate is followed by an enzyme-catalysed coupled redox reaction with the colour substrates 5-bromo-4-chloro-3-indolyl phosphate (BCIP) and nitroblue tetrazolium salt (NBT) giving rise to a deep-blue coloured, water-insoluble precipitate directly adhering to the membrane. The digoxigenin system allows the detection of 0.1 pg homologous DNA within 16 h in dot- and Southern-blots on nitrocellulose or nylon membranes avoiding any significant background even after a prolonged period of color development. Due to its high sensitivity and specificity, the new system is appropriate for detection of single-copy genes in genomic blots as well as for Northern, slot, colony, plaque and in situ hybridizations.

Non-radioactive Labeling and Detection of Nucleic Acids. IV. Synthesis and Properties of Digoxigenin-modified 2´ -Deoxyuridine-5’ -triphosphates and a Photoactivatable Analog of Digoxigenin (Photodigoxigenin)

The chemical syntheses of novel digoxigenin-derivatized compounds are described which are modified substrates for enzymatically or photochemically non-radioactive digoxigenin labeling of nucleic acids. Various activated digoxigenin-haptens are coupled to 5-aminoallyl-substituted 2'-deoxyuridine-5'-triphosphate. This results in digoxigenin-modified nucleoside triphosphates of variable spacer lengths (Dig-[4]-dUTP/Dig-[11]-dUTP/Dig-[16]-dUTP) which can be used as substrates for enzymatic labeling of DNA with digoxigenin-haptens by Klenow enzyme-catalysed random-primed synthesis. In addition the synthesis of N-[4-azidobenzoyl]-N'-[(3-O-digoxigeninyl)methylcarbonyl)]-1 ,8-diamino- 3,6-dioxaoctane (photodigoxigenin), a photoactivatable analog of digoxigenin, is described which can be applied for photolabeling of DNA and RNA with digoxigenin-haptens leaving the nucleic acid molecules intact.

Age-dependent changes of nucleic acid labeling in different rat brain regions

The effects of aging on in vivo DNA and RNA labeling and on RNA content in various brain regions of 4-, 12-, and 24-month-old rats were investigated. No difference in [methyl-14C]thymidine incorporation into DNA of cerebral cortex and cerebellum during aging was observed. The ratio of RNA/DNA content significantly decreased from 4 to 24 months of age in cerebral cortex, cerebellum and striatum. RNA labeling decreased by 15% in cerebral cortex of 24-month-old animals while in the other brain areas examined (cerebellum, hippocampus, hypothalamus, brainstem, striatum) did not change during aging. In the cerebral cortex, the ratio of the specific radioactivity of microsomal RNA to that of nuclear RNA, determined by in vivo experiments, was not affected by the aging process. A significant decrease of total, poly(A) RNA and poly(A) RNA content was observed in the same brain area of 24-month-old rats compared to 4-month-old ones. Moreover, densitometric and radioactivity patterns obtained by gel electrophoresis of labeled RNA after in vitro experiments (tissue slices of cerebral cortex) showed a different ribosomal RNA processing during aging. In vivo chronic treatment with CDP-choline was able to increase RNA labeling in corpus striatum of 24-month-old animals.

"Post-assay" covalent labeling of phosphorothioate-containing nucleic acids with multiple fluorescent markers.

A simple protocol has been developed which allows the covalent introduction of multiple fluorescent markers into DNA fragments after gel electrophoresis techniques, that is, while the nucleic acid is imbedded in the polyacrylamide gel matrix. "Post-assay" fluorescent labeling in this manner employs DNA fragments containing phosphorothioate diesters, which can be easily incorporated during chemical and enzymatic synthesis procedures, and can be alkylated with the fluorescent marker monobromobimane. Labeling the internucleotidic phosphorus residue in this manner allows the introduction of a fluorescent marker for each nucleotide residue present. Roughly a linear increase in emitted fluorescence, thus detection sensitivity, is observed with an increasing number of bimane markers. With this technique, oligodeoxynucleotides and DNA fragments can be observed in the gel matrix, without sophisticated electronic detection devices in the low femtomolar (10(-15) mol) range.

Monoadduct forming photochemical reagents for labeling nucleic acids for hybridization

We describe the synthesis of three angelicin derivatives which can be used for labeling nucleic acids with biotin. These compounds were used to label nucleic acids in the presence of lysed cell constituents. The resulting labelled nucleic acids show hybridization to a genus specific probe for E. coli. The relative comparison of sensitivity indicates that a polyamine linker is better than a polyethylene oxide linker between the biotin and angelicin moieties.

Synthesis and Use of New Digoxicenin- Meled Hucleotides in Non-Radioactive Labeling and Detection of Nucleic Acids

Abstract The chemical syntheses and use of novel digoxigenin-derivatized 5-aminoallyl-2′ -deoxyuridine-5′-triphosphates are reported. The digoxigenin-modified deoxynucleotides were incorporated into DNA. Hybridization and following detection by ELISA technique allows the detection of homologous DNA down to 0,1 pg.