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1.
The melting behavior of a DNA fragment carrying the mouse beta maj-globin promoter was investigated as a means of establishing procedures for separating DNA fragments differing by any single base substitution using the denaturing gradient gel electrophoresis procedure of Fischer and Lerman (1,2). We find that attachment of a 300 base pair GC-rich DNA sequence, termed a GC-clamp, to a 135 bp DNA fragment carrying the mouse beta-globin promoter significantly alters the pattern of DNA melting within the promoter. When the promoter is attached to the clamp, the promoter sequences melt without undergoing strand dissociation. The calculated distribution of melting domains within the promoter differs markedly according to the relative orientation of the clamp and promoter sequences. We find that the behavior of DNA fragments containing the promoter and clamp sequences on denaturing gradient polyacrylamide gels is in close agreement with the theoretical melting calculations. These studies provide the basis for critical evaluation of the parameters for DNA melting calculations, and they establish conditions for determining whether all single base substitutions within the promoter can be separated on denaturing gradient gels.  相似文献   

2.
We present a simple, efficient extension of denaturing gradient gel electrophoresis that allows the detection of nearly any sequence change in a defined fragment of DNA. The fragment can be obtained either by means of the polymerase chain reaction or by restriction digestion of genomic DNA. With restriction fragments of genomic DNA, sequence information is not required, and covalent modifications in genomic DNA that are lost in a PCR, such as methylation, are detectable. We describe how a GC clamp (an arbitrary, G+C-rich sequence of 30 to 60 bp) can be attached to a selected restriction fragment present in a digest of genomic DNA. The GC clamp alters the melting properties of the fragment; this change greatly increases the fraction of possible mutations that is detectable. In a 272-bp HaeIII fragment from the human beta-globin gene, we were able to detect 13 of 13 mutations tested in human genomic DNA. Four additional mutations in cloned plasmids were analyzed. The data agree with a simple theoretical model for DGGE, which predicts how two fragments, differing at a single (specified) base pair, are resolved in a gradient gel as a function of running time for the gel. The calculation assists in the design of probes and gel conditions that aid in the detection of sequence changes.  相似文献   

3.
DNA molecules that differ by a single base-pair can be separated by denaturing gradient gel electrophoresis due to the sequence-specific melting properties of DNA. Base modifications such as methylation are also known to affect the melting temperature of DNA. We examined the final position of DNA fragments containing either 5-methyl-cytosine or 6-methyl-adenine in denaturing gradient gels. The presence of a single methylated base within an early melting domain resulted in a well-resolved shift in fragment position relative to the unmethylated sequence. In addition, fragments containing hemimethylated and fully methylated sites could be distinguished, and a proportionally larger shift was observed with an increasing number of methylated bases. Denaturing gradient gel electrophoresis thus provides a sensitive method for analyzing the methylation state of DNA, which is not dependent on the presence of restriction enzyme cleavage sites. We also demonstrate that denaturing gradient gel electrophoresis can be used to obtain a quantitative estimate of the change in helix stability caused by modification of one or two bases in a complex DNA sequence. Such estimates should allow more accurate modeling of melting of natural DNA sequences.  相似文献   

4.
DNA typing based on gel electrophoretic separation of DNA fragments, followed by hybridization analysis, has become an important analytical tool in areas ranging from forensic science to population biology. This approach can be extended by combining size separation with sequence-specific separation in denaturing gradient gels; this creates a high resolution two-dimensional pattern. The high information content of this system means that very closely related individuals (even monozygotic twins) can be distinguished and that the genetic events associated with development or cancer, for instance, can be followed. Ultimately, 2-D DNA typing could lead to computerized matching of a single individual's genome to a database of genetic markers.  相似文献   

5.
A vertical gel electrophoresis apparatus is described which can distinguish DNA fragments differing by single base pair substitutions. The system employs a homogenous polyacrylamide gel containing urea-formamide and a temperature gradient which runs either perpendicular or parallel to the direction of electrophoresis. The temperature-gradient system simplifies several features of the denaturant-gradient system (1) and is relatively inexpensive to construct. Eight homologous 373 bp DNAs differing by one, two, or nine base pair substitutions were examined. DNA electrophoretic mobility changed abruptly with the temperature induced unwinding of DNA domains. GC to AT substitutions at different locations within the first melting domain, as well as an AT to TA transversion were separated with temperature gradients parallel to the electrophoretic direction. The relative stabilities of the DNAs observed in the gels were compared to predictions of DNA melting theory. General agreement was observed however complete correspondence was not obtained.  相似文献   

6.
In the present study, a comprehensive, rapid and sensitive method for screening sequence variation of the human mitochondrial tRNA genes has been developed. For this purpose, the denaturing gradient gel electrophoresis (DGGE) technique has been appropriately modified for simultaneous mutation analysis of a large number of samples and adapted so as to circumvent the problems caused by the anomalous electrophoretic behavior of DNA fragments encoding tRNA genes. Eighteen segments of mitochondrial DNA (mtDNA), each containing a single uniform melting domain, were selected to cover all tRNA-encoding regions using the computer program MELT94. All 18 segments were simultaneously analyzed by electrophoresis through a single broad range denaturing gradient gel under rigorously defined conditions, which prevent band broadening and other migration abnormalities from interfering with detection of sequence variants. All base substitutions tested, which include six natural mutations and 14 artificially introduced ones, have been detected successfully in the present study. Several types of evidence strongly suggest that the anomalous behavior in DGGE of tRNA gene-containing mtDNA fragments reflects their tendency to form temporary or stable alternative secondary structures under semi-denaturing conditions. The high sensitivity of the method, which can detect as low as 10% of mutant mtDNA visually, makes it valuable for the analysis of heteroplasmic mutations.  相似文献   

7.
It has been shown that minor differences, such as single-base-pair substitutions between otherwise identical DNA fragments can result in altered melting behavior detectable by denaturing gradient gel electrophoresis (DGGE). Sequence variations in only a small DNA region within one locus can be detected using the previously described procedures. We have developed a method for the efficient Southern transfer of genomic DNA fragments from the denaturing gradient gels in order to be able to analyze larger regions in several loci for variation. The gels were made using polyacrylamide containing 2% low-geling-temperature agarose (LGT). The polyacrylamide gel (PAG) was crosslinked with a reversible crosslinker, and after electrophoresis the crosslinks were cleaved, the structure of the gel being maintained by the agarose. After this treatment of the denaturing gels, more than 90% of the DNA fragments could be transferred to nylon membranes by alkaline transfer, while electroblotting transferred only 10% of the DNA. Hybridization with gene-specific probes was then performed. We have used this technique to identify an RFLP in the COL1A2 gene in a human genomic DNA sample. The transfer technique described should make the use of DGGE more widely applicable since the genomic DNA fragments separated on one gel can be screened with several different probes, both cDNA and genomic probes.  相似文献   

8.
9.
Summary Denaturing gradient gel electrophoresis (DGGE) was used in combination with the polymerase chain reaction (PCR) to detect sequence variations in the promoter region of the low density lipoprotein receptor (LDLR) gene. On the basis of calculated predictive melting properties we designed primers to amplify a 447-bp fragment of the promoter region from position-512 to -66, containing previously identified regulatory sequences. Using a primer with a GC-clamp in combination with restriction enzyme digestion, two melting domains could be analysed simultaneously. By oligonucleotide-directed mutagenesis artificial mutants were generated to optimize the conditions and to test the sensitivity of the method. All mutants were readily detected by electrophoresis in a 9% polyacrylamide gel containing a 10%–60% linear denaturing gradient. Using this method, we analysed DNA samples of 350 heterozygous familial hypercholesterolaemia (FH) patients. No mutations were detected, suggesting that mutations in the regulatory elements of the promoter sequence do not play a significant role in the etiology of FH.  相似文献   

10.
A denaturing gradient gel electrophoresis (DGGE) method is described that detects even single base pair changes in mitochondrial DNA (mtDNA). In this method, restriction fragments of mtDNA are electrophoresed in a urea/formamide gradient gel at 60 degrees C. Migration distance of each mtDNA fragment in the gel depends on melting behavior which reflects base composition. Fragments are located by Southern blotting with specific mtDNA probes. With just four carefully chosen restriction enzymes and as little as 50-100 ng of mtDNA, the method covers almost the entire human mitochondrial genome. To demonstrate the method, human mtDNA was analyzed. In six normal individuals, DGGE revealed melting behavior polymorphisms (MBPs) in mtDNA fragments that were not detected by restriction fragment length polymorphism (RFLP) analysis in agarose gels. Another individual, shown to have a melting behavior polymorphism in the cytochrome b coding region, was studied in detail. By mapping, the mutation was deduced to lie between nt 14905 and 15370. The affected fragment was amplified by PCR and sequenced. Specific base changes were identified in the region predicted by the gel result. This method will be especially useful as a diagnostic tool in mitochondrial disease for rapid localization of mtDNA mutations to specific regions of the genome, but DGGE also could complement RFLP analysis as a more sensitive method to follow maternal lineage in human and animal populations in a variety of research fields.  相似文献   

11.
We describe a novel PCR-based method that allows the generation of nested termination fragments by integrating both selective DNA amplification and directed chain termination into a single PCR reaction. These termination fragments can be examined for sequence variation in either denaturing or non-denaturing polyacrylamide gels. This method provides a one-step and highly effective approach for the detection of both insertions/deletions and single base pair substitutions in sequences up to 1 kb in length.  相似文献   

12.
In two-dimensional denaturing gradient gel electrophoresis, DNA is digested with a restriction endonuclease and the resulting DNA fragments are separated as a function of size by conventional agarose gel electrophoresis. Following this first dimension electrophoresis, the fragment distribution is placed at the top of a denaturing gradient slab gel and electrophoresis is carried out parallel to the gradient direction. This second dimension separation is a complex function of the base sequence of each fragment. Analysis of the DNA fragment distribution as a function of fragment size allows the DNA size to be calculated. This method has been applied to calculate three microbial genome sizes: Mycoplasma capricolum, 724 kb; Acholeplasma laidlawii, 1646 kb; and Hemophilus influenzae, 1833 kb.  相似文献   

13.
The effect of nucleotide substitution on DNA denaturation profiles.   总被引:1,自引:1,他引:0       下载免费PDF全文
The melting profiles were obtained for DNA restriction fragments of approx. 1150 bp with deletion of one, five or six base pairs making them different from each other. In all cases the deletions caused a shift of one melting peak without affecting the positions of the other three peaks. The effect amounted to 0.28 +/- 0.03C upon the deletion of one GC pair. The melting of DNA fragments was also studied by electrophoresis in denaturing gradient gels. The deletion of one GC pair was shown to cause an appreciable shift of the electrophoretic denaturation profile.  相似文献   

14.
With the current rapid pace at which human disease genes are identified there is a need for practical, cost-efficient genetic screening tests. Two-dimensional electrophoretic separation of PCR-amplified gene fragments on the basis of size and base pair sequence, in non-denaturing and denaturing gradient polyacrylamide gels respectively, provides a rapid parallel approach to gene mutational scanning. Accuracy of the denaturing gradient gel electrophoresis (DGGE) component of this system strongly depends on the design of the PCR primers and the melting characteristics of the fragments they encompass. We have developed a fully automated generally applicable procedure to generate optimal two-dimensional test designs at a minimum amount of time and effort. Designs were generated for the RB1 , TP53 , MLH1 and BRCA1 genes that can be readily implemented in research and clinical laboratories as low cost genetic screening tests.  相似文献   

15.
The electrophoretic separation of nucleic acids, including small DNA fragments in the range 50-1000 bp, is presently carried out in polyacrylamide gels or in gels containing high concentrations of agarose. We have developed an alternative gel matrix composition which is inexpensive, nontoxic, easy to prepare, and highly transparent to visible and uv light. The composition combines a soluble nonionic polysaccharide such as hydroxyethylcellulose, methylcellulose, or galactomannan with a minimum but sufficient concentration of agarose to form a gel which immobilizes the "liquid phase sieve." These mixtures do not replace polyacrylamide for resolving fragments smaller than approximately 75 nucleotides. However, the new gels show DNA fragment resolution (band separation versus distance traveled) and optical clarity superior to those of conventional agarose.  相似文献   

16.
Fingerprinting techniques provide access to understanding the ecology of uncultured microbial consortia. However, the application of current techniques such as terminal restriction fragment length polymorphism (T-RFLP) and denaturing gradient gel electrophoresis (DGGE) has been hindered due to their limitations in characterizing complex microbial communities. This is due to that different populations possibly share the same terminal restriction fragments (T-RFs) and DNA fragments may co-migrate on DGGE gels. To overcome these limitations, a new approach was developed to separate terminal restriction fragments (T-RFs) of 16S rRNA genes on a two-dimensional gel (T-RFs-2D). T-RFs-2D involves restriction digestion of terminal fluorescence-labelled PCR amplified 16S rRNA gene products and their high-resolution separation via a two-dimensional (2D) gel electrophoresis based on the T-RF fragment size (1(st) D) and its sequence composition on the denaturing gradient gel (2(nd) D). The sequence information of interested T-RFs on 2D gels can be obtained through serial poly(A) tailing reaction, PCR amplification and subsequent DNA sequencing. By employing the T-RFs-2D method, bacteria with MspI digested T-RF size of 436 (±1) bp and 514 (±1) bp were identified to be a Lysobacter sp. and a Dehalococcoides sp. in a polychlorinated biphenyl (PCB) dechlorinating culture. With the high resolution of 2D separation, T-RFs-2D separated 63 DNA fragments in a complex river-sediment microbial community, while traditional DGGE detected only 41 DNA fragments in the same sample. In all, T-RFs-2D has its advantage in obtaining sequence information of interested T-RFs and also in characterization of complex microbial communities.  相似文献   

17.
18.
The study of the orientation of single-stranded DNA in polyacrylamide gels in denaturing conditions has been undertaken by electric birefringence in order to determine the mechanism involved in the electrophoretic transport. The presence of an overshoot in the birefringence signal, when applying the electric field, and the study of the influences of the electric field and of the gel concentration on the dynamics show that a mechanism of reptation with elongation of the molecule occurs in polyacrylamide gels with low T values. Therefore it is suggested that the use of pulsed fields in sequencing electrophoresis is possible and can lead to a large increase of the length of the fragments that can be sequenced in one single run.  相似文献   

19.
Denaturing gradient gel electrophoresis (DGGE) is based upon the different melting behaviors of DNA molecules in a chemical denaturant gradient according to their sequences. This technique has recently become a widespread tool to detect mutations. The introduction of a GC-clamp enables the detection of most single base differences between two DNA molecules. As a test system we have applied the polymerase chain reaction (PCR) in combination with DGGE to detect a number of mutations in the mouse H2Kb DNA sequence. A wide variety of spontaneous in vivo mutations of this haplotype have been reported in the C57BL/6J mouse strain and are clustered in the alpha 1 and alpha 2 domains. The combination of PCR and DGGE revealed almost all base changes present in the H2Kb mutants used. However, most of the PCR products of these mutants showed melting behavior which is not easily predicted. We suggest that in addition to current simple theory, which considers that the migration of a DNA molecule in a denaturing gradient depends primarily on its initial melting behavior, additional factors such as secondary structure in partially melted molecules may play a role and can be used to detect mutations.  相似文献   

20.
The anomalous electrophoretic behavior of a 686 base pair restriction fragment containing an in vitro-generated inversion mutation within the enhancer region of a chicken U1 RNA gene was investigated. This DNA fragment migrated with an abnormally slow mobility in polyacrylamide gels but migrated normally in agarose gels relative to the wild type fragment of identical size and base composition. In polyacrylamide gels, the degree of retardation was enhanced at low temperature, a phenomenon associated with bent DNA. A putative site of bending was localized at or near one end of the inverted region. These data suggest that the altered DNA conformation results from the juxtaposition of two normally remote DNA sequences.  相似文献   

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