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1.
G Sarkar  H S Yoon  S S Sommer 《Genomics》1992,13(2):441-443
We describe dideoxy fingerprinting (ddF), a hybrid between dideoxy sequencing and SSCP that can detect the presence of single base and other sequence changes in PCR-amplified segments. As implemented herein, ddF involves a Sanger sequencing reaction with one dideoxynucleotide followed by nondenaturing gel electrophoresis. When ddF was used to examine segments of the human factor IX gene, 84 of 84 different mutations were detected with a very low rate of false positive signals. The approximate locations of the sequence changes could be determined from the ddF pattern and samples with different sequence changes had different fingerprints. In addition, large segments could be amplified and rapidly screened by ddF in multiple smaller subsegments. The patterns observed with ddF are instructive in that they suggest an inherent limitation in the detection of certain mutations by SSCP.  相似文献   

2.
Q Liu  J Feng  C Buzin  C Wen  G Nozari  A Mengos  V Nguyen  J Liu  L Crawford  F K Fujimura  S S Sommer 《BioTechniques》1999,26(5):932, 936-8, 940-2
Dideoxy fingerprinting (ddF) was used as a tool to search for a generic set of conditions with sufficient power to detect virtually all mutations. For each condition tested, a very large sample of mutation-containing, single-stranded segments (about 1500) were analyzed with ddF. Correlation coefficients identified pairs of conditions in which single-strand conformation polymorphism (SSCP) mobilities were poorly correlated. The data strongly suggest that tertiary structure (e.g., base-sugar and sugar-sugar interactions) rather than secondary structure is the predominant determinant of mobility shifts by SSCP. Five conditions were selected with sufficient redundancy to detect all the mutations. The sensitivity of detection of virtually all mutations-SSCP (DOVAM-S) was determined by blinded analyses on samples containing additional mutations scattered throughout the eight exons and splice junctions in the factor IX gene. The factor IX gene sequence (2.5 kb) was scanned in one lane by 15 PCR-amplified segments (125 kb of sequence scanned per gel). All of the 84 single-base substitutions were detected in the blinded analyses, the first consisting of 50 hemizygous mutant and wild-type (WT) samples and the second consisting of 50 heterozygous mutant and WT samples. DOVAM-S is estimated to be five times faster than fluorescent DNA sequencing for the detection of virtually all mutations when the five conditions are applied.  相似文献   

3.
The need to identify disease-causing mutations and DNA polymorphisms has increased with the continuing identification of new candidate genes. PCR single-strand conformation polymorphism (PCR-SSCP) is one of the techniques most widely used to identify a mutant sequence or a polymorphism in a known gene. However, the original SSCP protocols using the incorporation of radioactive label and polyacrylamide gel electrophoresis on sequencing gels for detection were labour intensive and time-consuming. Here we describe a simple SSCP protocol using MDE gel solution and a midi gel format to detect SSCP variations in the glucose transporter gene GLUT1, that we have previously analysed with the standard radioactive SSCP protocol, and we have also tested this method on the previously described point mutation (A/G transition in exon 1) of the CTLA-4 (cytotoxic T lymphocyte associated-4) gene. All known variants were detected. Based on the results, this technique appears to be simple, with no use of radioactive labels and with easy handling of the gel. Furthermore, it needs little optimisation, is relatively rapid and highly sensitive. We propose this method for the first screening for candidate gene variants.  相似文献   

4.
We describe here an improved procedure for polymerase chain reaction (PCR)-based single strand conformation polymorphism (SSCP) for rapid mutational detection. To circumvent the restriction of having to analyze relatively short PCR fragments, restriction endonucleases were used to cleave a longer PCR product and the mixture of fragments was analyzed directly in SSCP gel electrophoresis. This multiple restriction fragment (MRF)-SSCP protocol was demonstrated by the detection of a 4-bp deletion in codons 41-42 and a point mutation in the IVS-2 sequence of the human beta-globin gene. The MRF-SSCP or the standard SSCP protocol was then combined with the linear amplification DNA sequencing (LADS) procedure for direct analysis of the PCR products without further purification for an exact characterization of the mutations detected. In the LADS analysis, homo- or heterozygosity of a mutation was easily distinguished by the appearance of a single- or double-lane band in the sequencing gel. The choice of isotope used and different labeling methods were compared and were found, in some cases, to produce SSCP patterns of different complexities. The combined MRF-SSCP/LADS protocol permits rapid mutational analysis of a large number of clinical samples using only very small amounts of materials and can easily be adopted for nonisotopic clinical applications.  相似文献   

5.
A number of techniques have been developed as primary screens to scan for DNA sequence variants, including denaturing gradient gel electrophoresis, denaturing high-performance liquid chromatography, single-strand conformation polymorphism and heteroduplex analysis. Variant alleles detected by these assays are subsequently characterised by DNA sequencing. Sequencing itself is rarely used as a primary screen because of labour intensity, cost, and, upon automation, occasional inaccuracy in identifying heterozygous sites. We have previously developed an approach based on coupling long-distance PCR (LD-PCR) to long-read direct sequencing to allow the detection of mutations in the approximately 1.1 kb exon 3 of MECP2. Our use of dye-labelled primers generated high-quality bi-directional sequence runs > 650 bp and allowed easy discrimination of heterozygous bases. We now describe the application of this approach to the detection of mutations in a considerably larger 6.35 kb LD-PCR fragment spanning 10 exons (exons 32-41) of the structurally complex, but genomically compact, TSC2 gene. In a blind analysis, 15/15 previously characterised mutations were successfully identified using seven overlapping bi-directional sequencing reactions. Our approach of long-read sequencing of long-distance PCR products may allow rapid sequencing of multiple exons of compact genes and may be appropriate as a highly sensitive primary screen for mutations.  相似文献   

6.
Deficiency in coagulation factor IX, a plasma glycoprotein constituent of the clotting cascade, results in hemophilia B, an inherited recessive X-linked bleeding disorder. Some affected individuals, referred to as antigen positive or CRM+, express an inactive factor IX gene product at normal levels and are expected to have natural mutations altering domains of the molecule that are critical for its correct function. The serine protease catalytic domain of activated factor IX, encoded by exons VII and VIII of the gene, is a possible target for such mutations. We designed a strategy allowing rapid analysis of this region through enzymatic amplification of genomic DNA, analysis of the amplification products by denaturing gradient gel electrophoresis, and direct sequencing of the fragments displaying an altered melting behavior. This procedure permitted us to characterize two previously undescribed mutations. Factor IX Angers is a G-to-A substitution generating an Arg in place of a Gly at amino acid 396 of the mature factor IX protein. Factor IX Bordeaux is an A-to-T substitution introducing a nonsense codon in place of the normal codon for Lys at position 411. Moreover, the already described factor IX Vancouver defect was found in three apparently independent families. These results provide further insight into the molecular heterogeneity of hemophilia B. In addition, we demonstrate the usefulness of this rapid screening procedure, which has broad applications in human genetics and can be used as an alternative to RFLP analysis in carrier detection or prenatal diagnosis studies.  相似文献   

7.
Single-stranded conformation polymorphism (SSCP) analysis was used to examine the mutations of the chloroplast 16S rRNA locus of streptomycin-resistant mutants in Nicotiana plumbaginifolia. DNA fragments of 121, 517, 968 and 1578 bp, each possessing a known point mutation, were generated by polymerase chain reaction (PCR). The resulting fragments were denatured and separated by nondenaturing polyacrylamide gel electrophoresis. Compared to the patterns of the wild-type DNA fragments, the bands of the single-stranded DNA fragments of 121 and 517 bp with base changes were shifted. However, no pattern variations were detected from the DNA fragments of 968 and 1578 bp generated from both wild-type and mutants.  相似文献   

8.
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   

9.
The [detection of virtually all mutations]-SSCP (DOVAM-S) is a highly sensitive variant of single strand conformation polymorphism (SSCP). Mutations in the factor IX gene were used to find a set of five SSCP conditions that detects virtually all mutations. A blinded analysis of the factor IX gene in patients with hemophilia B detected 82 of 82 unique mutations. Since the method was developed and tested on the factor IX gene, it is possible that the conditions selected work more efficiently in the factor IX gene than in other genes. To test the general applicability of the conditions under which DOVAM-S detected all mutations in this gene, blinded analyses were performed in the human factor VIII and ataxia-telangiectasia (ATM) genes. Segments were amplified individually, combined into groups of 16 to 18 amplified segments and electrophoresed in five different nondenaturing conditions of varying matrices, buffers, temperatures and additives. Blinded analyses were performed in 92 samples from patients with hemophilia A (factor VIII gene) and 19 samples from A-T patients (ATM gene). Combined with an earlier blinded analysis in the factor IX gene, all of the 250 mutations and polymorphisms (180 of which are unique) were detected in both analyses. For two, three and four joint conditions, the average detection frequency ranged from 77%-97%, 91%-100% and 95%-100%, respectively. For each of the genes, one mutation may have been missed if only four conditions were used. With DOVAM-S, approximately 500 kb of autosomal sequence can be scanned in five gels with virtually 100% detection of mutations within the scanned region. The detection of 180 out of 180 unique sequence changes implies that DOVAM-S detects at least 96.5% (P = 0.03) of mutations. Blinded analyses that detect 400 unique sequence changes are required to determine that a scanning method detects at least 98.5% of mutations.  相似文献   

10.
Follicle stimulating hormone (FSH) is important for controlling spermatogenesis through binding with its receptor. However, little information is available on mutations of the FSH and its receptor gene in infertile men. To study the genetic defects, which caused problems in spermatogenesis, we screened the point mutations of the FSH receptor gene in infertile men with high serum FSH concentrations. Seventy male infertile patients with high FHS levels (> 12 mIU/ml) were screened for mutations in each of the 10 exons of the FSH receptor gene, using genomic DNA PCR and a single-strand conformation polymorphism (SSCP) analysis. From this study, three shifted bands were detected by SSCP. The first shifted band was found in the PCR product of exon 4, including the exon-intron boundary sequence in only one patient. The sequence analysis revealed a nucleotide A to T substitution in intron 3 (IVS3-4A-->T). The second shifted band was detected in exon 10 with high frequency (33%). A nucleotide A to G substitution was found at the position of the 994th nucleotide, predicting a Thr to Ala substitution at the position of the 307th amino acid (Thr307Ala). The third shifted band in the 3' region of exon 10 was detected frequently in infertile patient and normal groups. It was tightly linked to the Thr307Ala variant. Thus, all of the abnormalities represent neutral polymorphisms, and not pathological mutations of the FSH receptor gene. In conclusion, we did not confirm that the genomic mutation of the FSH receptor is a major genetic cause in Korean infertile patients with high FSH levels.  相似文献   

11.
The accurate analysis of genetic variation has major implications in many areas of biomedical research, including the identification of infectious agents (such as parasites), the diagnosis of infections, and the detection of unknown or known disease-causing mutations. Mutation scanning methods, including PCR-coupled single-strand conformation polymorphism (SSCP), have significant advantages over many other nucleic acid techniques for the accurate analysis of allelic and mutational sequence variation. The present protocol describes the SSCP method of analysis, including all steps from the small-scale isolation of genomic DNA and PCR amplification of target sequences, through to the gel-based separation of amplicons and scanning for mutations by SSCP (either by the analysis of radiolabeled amplicons in mutation detection enhancement (MDE) gels or by non-isotopic SSCP using precast GMA gels). The subsequent sequence analysis of polymorphic bands isolated from gels is also detailed. The SSCP protocol can readily detect point mutations for amplicon sizes of up to 450-500 bp, and usually takes 1-2 days to carry out. This user-friendly, low-cost, potentially high-throughput platform has demonstrated the utility to study a wide range of pathogens and diseases, and has the potential to be applied to any gene of any organism.  相似文献   

12.
We report the development of a simple and inexpensive assay for the detection of DNA polymorphisms and mutations that is based on the modification of mismatched bases by potassium permanganate. Unlike the chemical cleavage of mismatch assay, which also exploits the reactivity of potassium permanganate to detect genomic variants, the assay we describe here does not require a cleavage manipulation and therefore does not require expensive or toxic chemicals or a separation step, as mismatches are detected using direct optical methods in a microplate format. Studies with individual deoxynucleotides demonstrated that the reactivity with potassium permanganate resulted in a specific colour change. Furthermore, studies with synthetic oligonucleotide heteroduplexes demonstrated that this colour change phenomenon could be applied to detect mismatched bases spectrophotometrically. A collection of plasmids carrying single point mutations in the mouse β-globin promoter region was used as a model system to develop a functional mutation detection assay. Finally, the assay was validated as 100% effective in detecting mismatches in a blinded manner using DNA from patients previously screened for mutations using established techniques, such as sequencing, SSCP and denaturing high-performance liquid chromatography (DHPLC) analysis in DNA fragments up to 300 bp in length.  相似文献   

13.
Rapid detection of point mutations in genomic DNA has been achieved by chemical mismatch analysis of heteroduplexes formed between amplified wild-type and target sequences in the human factor IX gene. Amplification and mismatch detection (AMD) analysis of DNA from relatives of haemophilia B patients permitted carrier diagnosis by direct identification of the presence or absence of the mutation in all cases, thus eliminating the need for the informative segregation of polymorphic markers. This extends diagnostic capability to virtually all haemophilia B families. AMD analysis permits detection of all sequence variations in genomic DNA and is therefore applicable to direct diagnosis of X-linked and autosomal diseases and for identification of new polymorphisms for genetic mapping.  相似文献   

14.
Moore L  Godfrey T  Eng C  Smith A  Ho R  Waldman FM 《BioTechniques》2000,28(5):986-992
We have developed a fluorescence-based single strand conformation polymorphism (SSCP) method that offers fast and sensitive screening for mutations in exons 5-8 of the human p53 gene. The method uses an ABI 377 DNA sequencer for unique color detection of each strand, plus accurate alignment of lanes for better detection of mobility shifts. To validate the method, 21 cell lines with reported mutations in p53 exons 5-8 were analyzed by SSCP using various gel conditions. The sensitivity for mutation detection was 95% for all cell lines studied, and no false positives were seen in 10 normal DNA samples for all four exons. Experiments mixing known amounts of tumor and normal DNA showed that mutations were detected even when tumor DNA was mixed with 80% normal DNA. Fluorescent SSCP analysis using the ABI sequencer is a useful tool in cancer research, where screening large numbers of samples for p53 mutations is desired.  相似文献   

15.
16.
Catalase decreases the high, toxic concentrations of hydrogen peroxide but it lets the physiological, low concentrations in the cells mainly for signaling purposes. Its decreased activity may contribute to development of several pathological conditions. Catalase mutations occur frequently in exon 9, these were examined with different, complicated and costly methods. The aim of the current study was to evaluate a method for screening of polymorphisms in catalase exon 9. We used the slab gel electrophoresis of PCR amplicons without denaturation and silver staining for visualization of the DNA bands. We detected extra DNA bands in the 400-800 bp region of the catalase exon 9. Their single stranded nature was proved with nucleotide sequence analyses, comparison with the standard SSCP, staining with Sybr Green II and Sybr Green I, ethidium bromide, no digestion with RFLP (BstX I), and digestion with plant nuclease. We used this method for examination of polymorphisms of catalase exon 9 in microcytic anemia and beta-thalassemia patients. The lowest blood catalase activities were detected in microcytic anemia and beta-thalassemia patients with the TT genotypes of the C111T polymorphism. This method was sensitive for detection of G113A acatalasemia mutation, but poorly detected C37T and G5A acatalasemia mutations.  相似文献   

17.
Denaturing high-performance liquid chromatography (DHPLC) is a recently developed method of comparative sequencing based upon heteroduplex detection. To assess the reliability of this method, 180 different mutations (54 deletions, 12 insertions, and 117 single base substitutions) in BRCA1 and BRCA2 were tested. Second, 25 index individuals with complete DHPLC analysis of BRCA1 were reanalyzed by dye-terminator sequencing. Third, 41 index individuals were analyzed concomitantly by both DGGE and DHPLC. Of the 180 different BRCA1 and BRCA2 mutations, 179 showed heterozygous DHPLC elution profiles. Dye-terminator sequencing of the entire BRCA1 gene, including 5592 bp of coding sequence and 5206 bp of flanking noncoding sequence, in 25 index individuals did not reveal additional variants missed by DHPLC. The concomitant analysis of 41 index cases showed that 4 probably disease-associated mutations were identified by DHPLC while only 3 of those 4 sites were detected by denaturing gradient gel electrophoresis. We conclude that DHPLC is a sensitive and cost-effective method for the screening of BRCA1 and BRCA2.  相似文献   

18.
内脂素(Visfatin)是脂肪细胞因子家族的新成员,主要由内脏脂肪组织产生.研究表明内脂素具有类胰岛素样作用.在检测固始鸡-安卡鸡资源群体3代(亲本,F1,F2)964只鸡Visfatin基因9bp插入/缺失(9 bp 'TAACCTGTG' insertion-deletion)多态的过程中,发现其杂合子的变性和非变性聚丙烯酰胺胶上除2条同源双链DNA(282bp和273bp)外有2条未知条带(命名为A和B).A,B条带经回收、二次PCR、再次聚丙烯酰胺凝胶电泳及DNA测序表明:Visfatin基因第10内含子中9bp insertion-deletion突变杂合子的PCR产物中,本身包含2种同源双链DNA片段和2种异源双链DNA片段,不需要经过额外的变性、退火处理,其PCR产物可以直接进行突变检测,在229个杂合突变中异源双链DNA的检出率为100%.因此,通过异源双链DNA这一标示物作为基因分型时的依照或者参考,建立适当的异源双链DNA分析法可进行基因中几个核苷酸插入/缺失多态的检测.  相似文献   

19.
To seek for novel rare and/or sporadic mutations within genomic neighborhood of common −344 C>T (rs2427827) FCER1A proximal promoter polymorphism, which by its prevalence could have masked the presence of less frequent genetic variants in our previous single-stranded conformational polymorphism (SSCP) mutational search study, SSCP screening was repeated using primers fixing −344 C>T variant. The genomic region surrounding −344 C>T polymorphism was confirmed to be fairly conservative and only a single sporadic mutation (present in 1 out of 196 chromosomes), a 6-bp deletion −262 to 257 del CTAGAC, was found. From the methodological point of view, we demonstrated a successful detection of a short-length polymorphism using SSCP screening in a population, in which the same genomic region contained frequent single-nucleotide polymorphic variant. In conjunction with subsequent cloning of aberrantly migrating PCR products and SSCP-driven indirect sequencing of the clones, this method offers a superior (to direct sequencing of PCR products) detection of rare mutations. The cost-effective method applied by us enables a reliable characterization of infrequent (thus present only in heterozygotic form) short-length variance of the sequence which are difficult to interpret by direct sequencing.  相似文献   

20.
结核分枝杆菌rpoB基因突变的检测(简报)   总被引:1,自引:0,他引:1  
结核病主要是由结核分枝杆菌(Mycobacterium tuberculosis)引起的一种慢性传染性疾病。利福平是结核病化疗方案中一个关键性的药物,它在结核病的短程化疗中起着重要的作用。但是,在我国结核菌对利福平的耐药发生率呈上升局势,而通过传统的依赖生物生长的药敏试验方法进行结核菌对利福平耐药性检测所需时间较长(4-8周),不能满足临床早期开展有效化疗的需要,所以迫切需要建  相似文献   

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