Spectral measurements of intercalated PCR-amplified short tandem repeat alleles

Short tandem repeat (STR) alleles are popular for use as forensic markers due to their highly polymorphic nature. Commonly they are separated by gel electrophoresis and visualized using intercalation dyes. The purpose of this study was to determine the changes in absorbance and fluorescence of DNA-intercalation dye complexes as a function of base pair (bp)-to-dye ratio. The DNA samples consisted of STR alleles from loci THO1, F13A01, and vWFA31. The alleles were PCR amplified and HPLC purified to ensure that only the desired DNA fragment was present in each sample. Alleles ranged in size from 151 bp for locus vWFA (allele 17) to 199 bp for the locus F13A01 (allele 8). The adenine and thymine (AT) content varied from 48% for the THO1 locus to 69% for F13A01 and vWFA31 loci. The homozygous alleles of each locus were mixed individually with the bis-intercalators TOTO-1 and YOYO-1 and their corresponding monomeric dyes TOPRO-1 and YOPRO-1. The absorbance of the DNA-dye complex at 260 nm increased with addition of each intercalation dye. Subtraction of the dye absorbance rendered the DNA absorbance constant at 260 nm. Fluorescence emission increased dramatically upon intercalation of both the monomeric and dimeric dyes into the DNA helix. A plateau of fluorescence intensity was observed at base pair-to-dye ratios of 10/1 for the bis-intercalator TOTO-1 and 5/1 for YOYO-1 for all three loci. The greatest fluorescence intensity response was obtained with the intercalator YOYO-1 using allele 8 of the F13A01 locus, which had the greatest AT concentration.     

Introduction to molecular genetics

We have developed a rapid and highly sensitive method for the detection of mutant K-ras codon 12 allele in the presence of 10(5) copies of the wild-type alleles. This sensitivity is achieved by selective amplification of mutant K-ras sequences, using a two-stage procedure with modified primers. In the first stage, primers consist of K-ras sequences in the 3' portion and polyomavirus sequence (to minimize homology with human genome) on the 5' portion. The 3' portion also consists of mismatch sequence that generates an MvaI site in normal, but not mutant, K-ras codon 12 alleles. Thus, following the first round of 20 cycles, restriction enzyme cleavage is carried out to selectively digest normal K-ras codon 12 alleles. To enrich mutant alleles, a second amplification is performed using tail primers that recognize the polyoma, but not human sequences. This design ensures that in the second amplification only mutant alleles that were pre-amplified in the first round would serve as template for this reaction. Ethidium bromide-stained polyacrylamide gel electrophoresis (PAGE) of second-stage PCR product that has been digested with MvaI is used to monitor the presence of mutant alleles, detected at sensitivity of 1/10(5). This technique offers high sensitive detection of mutant K-ras alleles using a new concept of tail-primer design and is likely to assist in identifying patients at risk to develop pancreatic, colon, or lung cancer, which harbor high incidence of mutant ras alleles.     

Bactericidal activity, post antibiotic effect and modified controlled effective regrowth time of meropenem at high concentrations

A PCR method for quantitating the copy number of mutant vs. wild-type alleles in DNA from cell lines is described. The assay can be used to detect a point mutation in any gene that creates or destroys a restriction site. The alleles of interest are amplified by nested PCR and labeled in a second round of PCR. The product is digested with a restriction enzyme specific for that site, resolved on a non-denaturing gel and quantified by phosphor imaging techniques. Cell types with known numbers of wild-type and mutant alleles of c-Harvey-ras are used to validate the assay. The method is then applied to a cell line, homogygous for the mutation, to determine the gene copy number. The applicability of the method to other genes is shown using the matrix metalloproteinase gene, matrilysin. A cell line transfected with a plasmid carrying a mutant, auto-activated form of the gene is compared to its parent cell line. Advantages of this technique compared with Southern analysis are ease of screening a large number of clones or foci and accuracy of quantitation.     

Taste disks are induced in the lingual epithelium of salamanders during metamorphosis

We have established a practical method of complete high-resolution typing for all HLA-A alleles using the polymerase chain reaction (PCR)-restriction fragment-length polymorphism (RFLP) technique combined with allele group- and sequence-specific amplification. The second and third exons of the HLA-A gene, in which most allelic variations are observed, were separately amplified by PCRs with 3 and 4 group-specific primer pairs, respectively. Each PCR-amplified product was digested by allele-specific restriction endonucleases and then subjected to electrophoresis on a 10% polyacrylamide gel. In this way, 62 out of 79 HLA-A alleles could be discriminated by the RFLP patterns derived from the genetic polymorphism in the exon 2 and 3 domains. The remaining 17 alleles could be defined unequivocally by either PCR-RFLP analysis after exon 4 amplification or PCR analysis with sequence-specific primers (SSP). By this method, complete HELA-A genotyping for all homozygous and heterozygous combinations can be accomplished, establishing technically simple, economical and practical routine typing of the HLA-A gene, especially for small samples.     

One-tube method for complete HPA-1 genotyping by PCR using sequence-specific primers

Human platelet antigens (HPA) can be targets for antibody responses that cause life-threatening thrombocytopenia following platelet transfusions or pregnancy. As an aid to diagnosis and prevention, serologic and DNA-based methods have been developed to type HPA. Of the DNA-based strategies, those using the polymerase chain reaction (PCR) are very sensitive, but often require processing of amplification products. Sequence-specific primers (SSP) in the PCR eliminate the need for extensive handling of reaction products beyond gel electrophoresis. However, current methods require a separate reaction for each allele being typed. In this report we describe a method to simultaneously and completely genotype both alleles of HPA-1 in a single PCR. In addition, because the absence of an amplification product might also show the failure of a SSP, we introduced a recombinant template that can only be amplified by the SSP, thus ensuring primer performance and the identified genotype.     

Inhibition of PCR amplification by a point mutation downstream of a primer

A T-->C point mutation is shown to specifically inhibit PCR amplification when compared to wild-type controls in exon H of the factor IX gene. Multiple primers of different lengths and locations were designed to examine this phenomenon. The experiments suggest that poor annealing and/or extension from the downstream primer are responsible for the observed inhibition and that the mutation can exert an inhibitory effect upon PCR amplification at a distance of at least 84 bp. The inhibition was not alleviated when amplification conditions such as annealing temperature, time of extension, type of DNA polymerase or concentration of DNA template, primer or DNA polymerase were varied. The inhibitory factor(s) are likely to be contained within the amplified segment itself because neither the use of a previously amplified PCR product as template for nested PCRs nor the restriction enzyme digestion of that previously amplified product relieved the inhibition of PCR amplification in the mutant sample. Computer analyses with the FOLDRNA and FOLDDNA programs did not reveal the mechanism of inhibition. Although dramatic inhibition, as shown here, may be uncommon, more subtle inhibition may be frequent. Documentation of differential amplification caused by a single-base substitution in template sequence has implications for certain commonly used PCR-based methods such as quantitative PCR, differential display and DNA fingerprinting. In addition, heterozygous single-base pair mutations down-stream of a primer may be missed if the PCR is inhibited; alternatively; the mutation may appear to be homozygous if amplification of the mutated allele is selectively enhanced.     

Identification of mycobacteria infecting fish to the species level using polymerase chain reaction and restriction enzyme analysis

An assay is described utilizing PCR technology for a rapid diagnostic test to identify fish infection with Mycobacterium marinum, M. fortuitum and M. chelonae. A 924 bp DNA fragment from a highly conserved area of the mycobacterial 16S rRNA gene was amplified using mycobacteria genus-specific primers and digested with restriction enzymes (BanI and ApaI). This examination yielded unique restriction patterns for each mycobacterial specie enabling identification of mycobacteria infecting fish to the species level. The protocol can be applied to purified DNA, a simple colony preparation or infected fish tissue. This protocol can be completed in 1-2 days.     

Cardiac status and cardiovascular risk factors among Finnish sea pilots

The present study investigated the expressed number of CR1 on erythrocytes (E) in relationship of the CR1 density genotype from 46 patients with systemic lupus erythematosus (SLE) and 47 healthy volunteers. The CR1 genotype was determined by a method based on polymerase chain reaction (PCR) amplification of the genomic DNA fragment of 1.8 kb separated by HindIII endonuclease digestion and agarose gel electrophoresis. Our data supported the earlier results that the number of binding sites/E for monoclonal anti-CR1 decreased among SLE patients compared with normal individuals having the same alleles for the CR1/E density. At the same time the novelty of our recent results was that the decreased expression of CR1 on E correlated significantly with kidney involvement in patients homozygous for the CR1/E high density allele (HH). These data suggest that the deficiency of the detectable number of CR1 on erythrocytes is acquired in this SLE population.     

A new approach to utilize PCR-single-strand-conformation polymorphism for 16S rRNA gene-based microbial community analysis

Single-strand-conformation polymorphism (SSCP) of DNA, a method widely used in mutation analysis, was adapted to the analysis and differentiation of cultivated pure-culture soil microorganisms and noncultivated rhizosphere microbial communities. A fragment (approximately 400 bp) of the bacterial 16S rRNA gene (V-4 and V-5 regions) was amplified by PCR with universal primers, with one primer phosphorylated at the 5' end. The phosphorylated strands of the PCR products were selectively digested with lambda exonuclease, and the remaining strands were separated by electrophoresis with an MDE polyacrylamide gel, a matrix specifically optimized for SSCP purposes. By this means, reannealing and heteroduplex formation of DNA strands during electrophoresis could be excluded, and the number of bands per organism was reduced. PCR products from 10 of 11 different bacterial type strains tested could be differentiated from each other. With template mixtures consisting of pure-culture DNAs from 5 and 10 bacterial strains, most of the single strains could be detected from such model communities after PCR and SSCP analyses. Purified bands amplified from pure cultures and model communities extracted from gels could be reamplified by PCR, but by this process, additional products were also generated, as detected by further SSCP analysis. Profiles generated with DNAs of rhizosphere bacterial communities, directly extracted from two different plant species grown in the same field site, could be clearly distinguished. This study demonstrates the potential of the selected PCR-single-stranded DNA approach for microbial community analysis.     

Targeted replacement of normal and mutant CFTR sequences in human airway epithelial cells using DNA fragments

Recent studies have reported that mutant genomic cystic fibrosis (CF) transmembrane conductance regulator ( CFTR ) sequences can be corrected in transformed CF airway epithelial cell lines by targeted replacement with small fragments of DNA with wild-type sequence. To determine if the observed genotype modification following small fragment homologous replacement (SFHR) was limited to transformed CF cell lines, further studies were carried out in both transformed and non-transformed primary normal airway epithelial cells. The endogenous genotype of these normal cell lines was modified following liposome or dendrimer transfection using DNA fragments with DeltaF508 CFTR sequence (488 nt, complementary single strands) designed to also contain a unique restriction enzyme cleavage site (Xho I). Replacement at the appropriate genomic locus by exogenous DeltaF508 CFTR DNA and its expression as mRNA was demonstrated by PCR amplification of genomic DNA and mRNA-derived cDNA as well as Xho I digestion of the PCR products. These studies show that SFHR occurs in both transformed and non-transformed primary human airway epithelial cells and indicate that single base substitution (the silent mutation giving rise to the Xho I site) and deletion or insertion of at least three consecutive bases can be achieved in both normal and CF epithelial cells. Furthermore, these studies reiterate the potential of SFHR as a strategy for a number of gene targeting applications, such as site-specific mutagenesis, development of transgenic animals, development of isogenic cell lines and for gene therapy.     

Improvement of sensitivity in HLA-DRB1 typing by semi-nested PCR-RFLP

A sensitive method of HLA-DRB1 typing was devised using a semi-nested polymerase chain reaction (PCR) followed by a restriction fragment length polymorphism (RFLP) analysis (semi-nested PCR-RFLP method). The first-round amplification (30 cycles) of the semi-nested PCR was performed using DRB generic primer pairs and the second round of PCRs (20 cycles) were performed using DRB1 group-specific primers. The products of the second round PCRs were digested with restriction endonucleases for the typing of HLA-DRB1 alleles. By this method, HLA-DRB1 typing was possible from 10 pg of genomic DNA extracted from lymphocytes and from 0.5 microliter of 1,000 times diluted blood without DNA extraction. HLA-DRB1 alleles could be typed from a 2-mm long bloodstained cotton thread prepared from 10 times diluted blood and from a 2-mm thread of whole blood bloodstains stored at room temperature for 2 years. From the mixture of blood of two individuals with different genotypes, DRB1 alleles of the minor component were detected down to 1/1,000 of the major component. This semi-nested PCR-RFLP method is useful for HLA-DRB1 typing from extremely small amounts of DNA and from mixed samples.     

M235T polymorphism of the angiotensinogen gene and hypertension in Chinese

OBJECTIVES: To compare the distributions of the genotypes and alleles of the M235T polymorphism of the angiotensinogen gene for hypertensive patients and normotensive controls. DESIGN: A study of association of genetic polymorphisms. SETTING: An outpatient clinic run by a university department handling referrals from primary care. PATIENTS: Two hundred and four subjects, 103 normal controls and 101 patients with newly diagnosed or documented hypertension. METHOD: Genomic DNA was extracted from peripheral blood leucocytes, amplified by polymerase chain reaction and digested with the restriction enzyme Tth 111 I. Methionine (M) and threonine (T) alleles were identified after electrophoresis. MAIN OUTCOME MEASURES: Prevalences of angiotensinogen genotypes and alleles for hypertensive patients and controls. Results: MM, TM and TT genotypes occurred in 3, 24 and 73% of controls and 1, 22 and 77% of hypertensive patients, respectively. The prevalences of the M and T alleles were 0.15 and 0.85 among controls and 0.12 and 0.88 among hypertensive patients. The prevalences of the angiotensinogen genotypes and alleles for controls and hypertensive patients did not differ significantly. CONCLUSIONS: Our findings differed from previous reports and suggested that this polymorphism is not associated with hypertension in this population.     

Extensive genomic conservation of cattle microsatellite heterozygosity in sheep

We report the evaluation of 1036 bovine microsatellite primer pairs for their suitability as linkage markers in sheep. Approximately 58% (605/1036) of bovine primer pairs amplified a locus in sheep. Sixty-seven per cent (409/605) of amplified loci were detected as polymorphic. Marker heterozygosity, allele number and range of allele sizes were significantly lower in sheep than cattle sampled in this study. However, median fragment size was similar. These data suggest that high-resolution comparative linkage maps between closely related species can be constructed relatively efficiently.     

Amplification of Bcl I region of the factor VIII gene by PCR

A study was initiated to amplify by polymerase chain reaction (PCR), a short factor VIII gene fragment containing the Bcl I restriction site from hemophilia patients using published primer sequences. Preliminary findings indicated that the resulting fragment is 142 bp long. This fragment, when digested with Bcl I restriction enzyme produced two fragments, 99 bp and 43 bp in length. Polymorphism in the Bcl I region can be used to detect carrier state in the family members of the hemophiliacs.     

Differential display of genome subsets containing specific interspersed repeats

A genomic differential display method was developed that analyzes many restriction fragment length polymorphisms simultaneously. Interspersed repeat sequences were used to reduce DNA sample complexity and to target genomic subsets of interest. This work focused on trinucleotide repeats because of their importance in human inherited diseases. Immobilized repeat-containing oligonucleotides were used to capture genomic DNA fragments containing sequences complementary to the oligonucleotide. Captured fragments were amplified by PCR and fluorescently labeled using primers complementary to the repeat sequence and/or to the known sequences ligated to the ends of the restriction fragments. The labeled PCR fragments were displayed by size on a high-resolution automated fluorescent DNA sequencing instrument. Although there was a conservation in the overall pattern of displayed genome subsets, many clear and reproducible differences were detected when genomes from different individuals were compared. Fewer differences were detected within, than between, monozygotic twin pair genomes. In control experiments, the method distinguished between Huntington disease alleles with normal and expanded CAG repeat lengths.     

An efficient strategy for detection of known and new mutations of the CYP2D6 gene using single strand conformation polymorphism analysis

To detect mutations in the cytochrome P450 CYP2D6 gene (CYP2D6), we developed a strategy based on single-strand conformation polymorphism (SSCP) analysis of the gene amplified by polymerase chain reaction (PCR). The efficiency of the method was evaluated by analysing DNA samples from extensive metabolizers (EM) and poor metabolizers (PM) of debrisoquine. Haplotypes, alleles and mutations of CYP2D6 had previously been characterized in each individual using PCR assays, Xba I restriction fragment length polymorphism (RFLP) and sequencing. PCR-SSCP results were in complete agreement with those obtained using established methods. All previously characterized mutations were associated with particular shifts in the electrophoretic mobility of DNA fragments allowing their identification. We further tested the efficiency of PCR-SSCP for detecting new CYP2D6 mutations. DNA from a PM subject presumed to carry an unknown non-functional mutant allele of CYP2D6 was amplified and bands with aberrant migration patterns were observed on SSCP gels. Sequence analysis of the corresponding DNA fragments revealed the causative mutations. In this way, a novel non-functional allele of the gene, carrying three previously reported mutations and a new mutation in the third exon which results in a premature termination codon, was characterized. Finally, CYP2D6 SSCP analysis was performed on DNA amplified with fluorescent primers and an automated DNA sequencer was used for SSCP analysis of products. We conclude that the PCR-SSCP approach is a powerful method of identifying simultaneously known and new mutations of the CYP2D6 gene.     

Receptor-specific adhesion and clinical disease in Plasmodium falciparum

Rapid detection of single-base changes is fundamental to molecular medicine. PASA (PCR Amplification of Specific Alleles) is a rapid method of genotyping single-base changes, but one reaction is required for each allele. Bidirectional PASA (Bi-PASA) was developed to distinguish between homozygotes and heterozygotes in one PCR reaction by utilizing novel primer design with appropriate cycling conditions. In Bi-PASA, one of the alleles is amplified by a PASA reaction in one direction while the second allele is amplified by a PASA reaction in the opposite direction. Two outer (P and Q) and two inner allele-specific (A and B) primers are required. In heterozygotes, three segments are amplified: a segment of size AQ resulting from one allele, another segment of size PB resulting from the second allele, and a combined segment of size PQ. In homozygotes, segment PQ and either segments AQ or PB amplify. The two inner primers (A and B) contain a relatively short complementary region and a 10-nucleotide G + C-rich 5' tail. The inner primers "switch" from low-efficiency to high-efficiency amplification when genomic DNA is replaced by previously amplified template DNA. In addition, the 5' tails prevent "megapriming". The parameters for optimizing Bi-PASA were investigated in detail for common mutations in the human factor V and catechol-O-methyltransferase genes. Guidelines for optimization of Bi-PASA also were developed and tested in a prospective study. Three additional Bi-PASA assays were optimized rapidly by utilizing these guidelines. In conclusion, Bi-PASA is a simple and rapid method for detecting the zygosity of known mutations in a single PCR reaction.     

Improving critical thinking in nursing practice

In a Japanese population study of the D1S80 locus 24 alleles ranging from allele 16 to allele43 were analysed using PCR-RFLP. As two repeat units were found to contain the restriction cleavage site (CCAGG) for EcoRII, we digested the alleles with EcoRII, separated the digested fragments on polyacrylamide gels and stained with ethidium bromide. Of the 24 alleles 11 band patterns were identified and tentatively labeled E1 to E11. A total of 42 subtypes were detected in a population group of 111 unrelated individuals. All samples of allele 18 were of the E3 type, while about 60% of the allele24 samples were of the E4 type and about 40% were of the E8 type. The third most frequent allele (allele30) contained four types, E4, E8, E5 and E6. No deviations from Hardy-Weinberg equilibrium were observed. Since this method could differentiate those samples which had the same length but different sequences, it is quite useful for paternity testing and individual identification.     

A rapid in vitro method for obtaining RNA accessibility patterns for complementary DNA probes: correlation with an intracellular pattern and known RNA structures

A technique is described to identify the rare sequences within an RNA molecule that are available for efficient interaction with complementary DNA probes: the target RNA is digested by RNase H in the presence of a random pool of complementary DNA fragments generated from the same DNA preparation that was used for target RNA synthesis. The DNA region was amplified by PCR, partially digested with DNase and denatured prior to RNA binding. In the presence of single-stranded DNA fragments the RNA was digested with RNase H such that, on average, each molecule was cut once. Cleavage sites were detected by gel electrophoresis either directly with end-labeled RNA or by primer extension. The pattern of accessible sites on c- raf mRNA was determined and compared with the known profile of activity of oligonucleotides found in cells, showing the merit of the method for predicting oligonucleotides which are efficient for in vivo antisense targeting. New susceptible sites in the 3'-untranslated region of c- raf mRNA were identified. Also, four RNAs were probed to ascertain to what extent structure predicts accessibility: the P4-P6 domain of the Tetrahymena group I intron, yeast tRNAAsp, Escherichia coli tmRNA and a part of rat 18S rRNA.