Differentiation of Trichinella genotypes by polymerase chain reaction using sequence-specific primers.

A method was developed to identify species and genotypes within the genus Trichinella using polymerase chain reaction (PCR) and specific primers. Enzymatic amplification of 2 partially conserved and repetitive genomic DNA sequences that have been shown to be variable in length within the different Trichinella genotypes form the basis of this test. Within these regions of the genome, 4 sets of primers were evaluated from which 2 were chosen for their ability to differentiate among the genotypes under stringent primer annealing conditions while maintaining high yields of amplification product. Differences in the size of PCR products from multiple isolates of each genotype indicate sufficient variation to identify 7 of the 8 parasite groups within this genus. One primer set can differentiate among some genotypes working from a single larva. Identification of Trichinella genotypes will assist in distinguishing between sylvatic and synanthropic life cycles. Such information will be critical in tracing sources of trichinellosis by easily and unambiguously identifying likely host reservoirs and will provide valuable information for instituting methods of control.     

Detection of ras point mutations by polymerase chain reaction using mutation-specific, inosine-containing oligonucleotide primers

The use of DNA primers with 3'-ends complementary to specific genetic point mutations allowed for the rapid detection of such mutations in genomic DNA by polymerase chain reaction. The sensitivity of this approach was such that mutations could be detected in DNA samples mixed with a 10(7)-fold excess of normal non-mutated DNA. To increase the practicality of this approach for the detection of point mutations affecting all 3 of the known ras oncogenes we synthesized mutation-specific primers complementary to all 3 genes by substituting inosine residues at positions corresponding to ambiguous bases on the genes.     

Alumorphs--human DNA polymorphisms detected by polymerase chain reaction using Alu-specific primers

The simultaneous analysis of multiple loci could substantially increase the efficiency of mapping studies. Toward this goal, we used the polymerase chain reaction to amplify multiple DNA fragments originating from dispersed genomic segments that are flanked by Alu repeats. Analysis of different human DNA samples revealed numerous amplification products distinguishable by size, some of which vary between individuals. A family study demonstrated that these polymorphic fragments are inherited in a Mendelian fashion. Because of the ubiquitous distribution of Alu repeats, these markers, called "alumorphs," could be useful for linkage mapping of the human genome. A major advantage of alumorphs is that no prior knowledge of DNA sequence of marker loci is required. This approach may find general application for any genome where interspersed repetitive sequences are found.     

Clinical and genealogical characteristics in families with Nijmegen breakage syndrome

Nijmegen breakage syndrome (NBS) is a rare autosomal recessive disorder characterized by microcephaly, immunodeficiency and high predisposition for malignancies, particularly B-lymphoma. Clinical and genealogical analysis has been conducted in 7 families with NBS. Eight children with NBS (5 boys and 3 girls) were observed at the age from 7 months to 11 years. All the children were homozygous carriers for mutation 657del5. Oncohematological complications developed in 5 cases (4 cases of lymphoma and one case of lymphohystiocytosis) at the age of 6-12 years. NBS in probands is often accompanied with birth defects, especially with kidney pathologies. Considerable reproductive losts in the families with NBS were noted mainly among males who died at the age less than one year (4-6 events in the families). The cases of digestive system cancers (stomach, rectum, duodenum) were revieled in the family-trees. Consanguineous couple was observed in 1 case (marriage between third cousins) and 2 children had developed NBS in this family. Genealogical analysis seems to be very informative to predict somatic and reproductive disturbances in NBS families.     

Deletion mutagenesis in M13 by polymerase chain reaction using universal sequencing primers

A simple procedure is described for the efficient deletion of large DNA sequences. The method involves a combination of oligonucleotide-directed mutagenesis in bacteriophage M13 and amplification of the mutagenized product by polymerase chain reaction. In contrast to other protocols employing polymerase chain reaction, synthesis of only one specific primer is required. The efficiency of heteroduplex formation between mutagenic primers directing large deletions and single-stranded template is discussed.     

A typing system for the major histocompatibility complex class I chain related genes A and B using polymerase chain reaction with sequence-specific primers

The Major Histocompatibility Complex (MHC) class I chain related (MIC) A and B genes are important additional loci within the MHC. We have developed a MICA and MICB typing system using the polymerase chain reaction with sequence-specific primers (PCR-SSP), which operates under the same conditions as our routine HLA-A, -B, and -C typing method. We designed 95 primers in 84 SSP mixtures for MICA and 39 primers in 29 mixtures for MICB. This detected and differentiated all 55 MICA and 19 MICB alleles (except MICA*00701 from MICA*026, MICA*00201 from MICA*020, and three MICB alleles, which are intronic variations). A computer program confirmed the MICA amplification reactivity of each SSP mixture and evaluated the typing set for MICA allele combination ambiguities. Seventy-six "reference" DNA samples were used for validation: 50 from International Histocompatibility Workshop B lymphoblastoid cell lines (IHW BCLs) and 26 MICA-typed samples from two laboratories. The reference material identified 28 out of the 55 MICA alleles and 13 of the 19 MICB alleles, and directly validated 62 of the 84 MICA and 20 of the 29 MICB SSP mixtures. Our genotyping agreed with 283 out of the 286 (98.95%) MICA and MICB reference laboratories' allele assignments or the consensus assignments. Two of the discrepancies remain unresolved, whereas one was probably due to a reference laboratory's failure to differentiate alleles differing in exon 5 of the MICA gene. A comparison of the MICA and MICB allele assignments between laboratories identified a "disagreement rate" of 19.4% for MICA alleles and 13.1% for MICB alleles. Accordingly, we have compiled "consensus" MICA and MICB genotypes for the 50 IHW BCLs tested, which have been confirmed by our typing. We also typed 166 random blood donors. Their MICA and MICB carriage and allele frequencies and HLA-B, MICA, MICB linkage disequilibrium parameters and haplotype frequencies largely concurred with other published data on United Kingdom subjects, further supporting the validity of our typing system. This PCR-SSP system is a simple, reliable and rapid technique for typing MICA and MICB alleles. It is easily updated as new alleles are identified but clearly requires a continuing validation review until all known MICA and MICB alleles have been identified.     

Detection of somatic mosaicism in humans using polymerase chain reaction with random primers

Using the method PCR amplification with random primers, DNA samples from human embryonic organs and tissues were examined. Among 27 oligonucleotide primers tested, 10 primers, producing stable, well-reproducible profiles of amplification products, were chosen for further analysis. With the help of two primers (447 and R45), the differences in RAPD PCR profiles obtained from the tissues of one embryo, were revealed. These differences were associated with the change of mobility, or with the fragment gain/loss in the RAPD profile, and could be caused either by genomic rearrangements, or mutations involving the regions of the DNA-primer pairing. Different epigenetic factors, like methylation, can also play the role in this process.     

Detection of somatic mosaicism in humans using polymerase chain reaction with random primers

Using the method PCR amplification with random primers, DNA samples from human embryonic organs and tissues were examined. Among 27 oligonucleotide primers tested, 10 primers, producing stable, well-reproducible profiles of amplification products, were chosen for further analysis. With the help of two primers (447 and R45), the differences in RAPD PCR profiles obtained from the tissues of one embryo, were revealed. These differences were associated with the change of mobility, or with the fragment gain/loss in the RAPD profile, and could be caused either by genomic rearrangements, or mutations involving the regions of the DNA-primer pairing. Different epigenetic factors, like methylation, can also play the role in this process.     

Detection of Erwinia amylovora by novel chromosomal polymerase chain reaction primers

A new sensitive and specific method for the detection of Erwinia amylovora was developed. The method is based on the detection of a chromosomal DNA sequence specific for this bacterial species and enables the detection of E. amylovora pathogenic strains, including the recent isolates that lack plasmid pEA29 and thus cannot be detected by the previously popular PCR methods based on the detection of this plasmid. Species-specific random amplified polymorphic DNA (RAPD) marker was identified, cloned, and sequenced, and sequence characterized amplified region (SCAR) primers for specific PCR were developed. The E. amylovora specific sequence, 1269 bp long, was amplified in polymerase chain reaction and detected with electrophoresis in agarose gel stained with ethidium bromide. Amplification with other bacterial species did not produce any PCR product detectable by electrophoresis. Belonging of the E. amylovora specific sequence to chromosomal DNA was confirmed by computer analysis of the E. amylovora genome. A consistent sensitivity limit of the method was 3 CFU/reaction, and in some cases it was possible to detect 0.6 CFU/reaction. Due to its high sensitivity and specificity, our method of E. amylovora detection is currently the most reliable, taking into account that the reliability of PCR methods based on plasmid pEA29 has been compromised by the isolation of pathogenic E. amylovora strains that lack this plasmid.     

Apolipoprotein E genotyping using the polymerase chain reaction and allele-specific oligonucleotide primers

A method for apolipoprotein (apo) E genotyping was developed using the polymerase chain reaction (PCR) with allele-specific oligonucleotide primers (ASP). Synthetic oligonucleotides with base-pair mismatches at the 3' terminus were used as primers to amplify the apoE gene in subjects previously phenotyped using isoelectric focusing (IEF). Complementary primer-allele combinations were specifically amplified by PCR, together with a control pair of primers specific to the human prothrombin gene. Identification of genotype by PCR using ASP was consistent with the phenotypes that were determined by IEF for 14 healthy normolipidemic subjects. These results were achieved using DNA isolated from buccal epithelial cells obtained from a mouthwash or DNA extracted from leukocytes. Genotype identification required analysis of the PCR products on an ethidium-stained agarose gel, yielding results 3 h after DNA extraction. In comparison with other current methods, PCR using ASP is suggested as a rapid and simple noninvasive technique for determining population apoE allelic distribution.     

Characterization of Superoxide dismutase genes from Gram-positive bacteria by polymerase chain reaction using degenerate primers

Abstract An internal fragment representing approximately 85% of sod genes from seven Gram-positive bacteria was amplified by using degenerate primers in a polymerase chain reaction assay. The DNA sequences of sod polymerase chain reaction products from Clostridium perfringens, Enterococcus faecalis, Enterococcus faecium, Lactococcus lactis, Staphylococcus aureus, Streptococcus agalactiae, Streptococcus pneumoniae , and Streptococcus pyogenes were determined. Comparisons of their deduced amino acid sequences with those of the corresponding regions of the SOD proteins from Bacillus stearothermophilus, Listeria monocytogenes , and Streptococcus mutans revealed strong relatedness. Phylogenetic analysis of SOD peptides showed that members of the genera Streptococcus and those of the genera Enterococcus constitute two well-supported monophyletic groups. The method described in this study provides a means for easy recovery of sod genes and the construction of sod mutants of various Gram-positive pathogens.     

Conserved polymerase chain reaction primers fail in diagnosis of parasitic infections

We demonstrate that a set of previously described polymerase chain reaction primers used for detection of hemogregarines in reptiles will also amplify the same region of the 18S rRNA gene of reptiles, amphibians, mammals, and insects and thus should not be used for molecular diagnosis. These same primers have also been used to differentiate 2 species of Plasmodium that infect lizards. We provide evidence that the observed variance may have been dependent on parasitemia and not representative of actual molecular differences between the 2 parasite species.     

Detection of beta-globin gene mutations by polymerase chain reaction.

The polymerase chain reaction and oligonucleotide probe hybridization technique were applied to the detection of two common mutations of the beta-globin gene found in Chinese, namely the 4-base pair deletion at the 41-42 codons and the C to T substitution at nucleotide 654 of IVS-2. The accuracy of the method was established using beta-thalassemia cases with known mutations or haplotypes of the restriction fragment length polymorphism (RFLP). A further 11 cases of thalassemia intermediate and thalassemia minor were then analysed with the same approach. Our results showed that 5 of the 11 cases carried the TCTT-deletion at codons 41-42. Our method is economical both in terms of materials and time needed and in an alternative to the use of the molecular RFLP approach in the prenatal diagnosis of beta-thalassemia.     

HLA-DR typing using DNA amplification by the polymerase chain reaction and sequential hybridization to sequence-specific oligonucleotide probes

A series of sequence-specific oligonucleotides (SSOs) have been used to type alleles at the HLA-DRB1 locus. Genomic DNA was amplified to high copy number by the polymerase chain reaction (PCR) and hybridizations of the dot-blotted, amplified DNA to a series of 14 SSOs enabled the identification of the major specificities DR1-DRw14. Certain alleles (DR3 and DR4) could be rapidly and accurately identified by running the products of allele-specific amplification of genomic DNA on agarose gels. This approach facilitated the typing of serological specificities such as subtypes of DR3 (DRw17 and DRw18) as well as alleles previously detected by the mixed lymphocyte reaction including subtypes of DR4 (Dw4, Dw10, Dw13, Dw14, and Dw15). The HLA-DR types obtained by SSO probing conformed to rules of Mendelian inheritance when they were applied to a series of 75 families. A full DR type could be obtained from many individuals simultaneously without needing to separate or store viable lymphocytes. Thus, this technique may have considerable implications for the analysis of disease associations with HLA class II alleles, particularly in circumstances where facilities for the initial preparation and storage of the samples may be limited.     

Leishmania (Viannia) braziliensis: New primers for identification using polymerase chain reaction

The objective of this study was to develop specific primers for Leishmania (Viannia) braziliensis species identification using PCR. The designed primers (LBF1 and LBR1) were evaluated for sensitivity and specificity using various L. (V.) braziliensis serodemes and various Leishmania species and also using Trypanosoma cruzi. A specific fragment of 536 bp was detected from 50 ng of DNA in a crude extract derived from L. (V.) braziliensis. The DNA fragment was not detected when DNA from other Leishmania species or from T. cruzi was used as template in the PCR. Furthermore, when tested with DNA from cutaneous leishmaniasis the designed primers and reaction gave positive results. Taking into consideration that the primers LBF1 and LBR1 could specifically identify L. (V.) braziliensis, they could be considered for use in L. (V.) braziliensis diagnosis and epidemiological studies.     

SIRT1 regulates the function of the Nijmegen breakage syndrome protein

MRE11-RAD50-NBS1 (MRN) is a conserved nuclease complex that exhibits properties of a DNA damage sensor and is critical in regulating cellular responses to DNA double-strand breaks. NBS1, which is mutated in the human genetic disease Nijmegen breakage syndrome, serves as the regulatory subunit of MRN. Phosphorylation of NBS1 by the ATM kinase is necessary for both activation of the S phase checkpoint and for efficient DNA damage repair response. Here, we report that NBS1 is an acetylated protein and that the acetylation level is tightly regulated by the SIRT1 deacetylase. SIRT1 associates with the MRN complex and, importantly, maintains NBS1 in a hypoacetylated state, which is required for ionizing radiation-induced NBS1 Ser343 phosphorylation. Our results demonstrate the presence of crosstalk between two different posttranslational modifications in NBS1 and strongly suggest that deacetylation of NBS1 by SIRT1 plays a key role in the dynamic regulation of the DNA damage response and in the maintenance of genomic stability.     

Comparison of different primers for rapid detection of Vibrio parahaemolyticus using the polymerase chain reaction

AIMS: The aim of this study was to compare different primers for rapid and effective detection of Vibrio parahaemolyticus by polymerase chain reaction (PCR). METHODS AND RESULTS: A total of four pairs of primers, three previously published and one based on a newly developed V. parahaemolyticus metalloprotease (vpm) gene, have been assayed for PCR detection of V. parahaemolyticus. They have been tested for specificity and sensitivity on a total of 101 strains including reference and environment isolates belonging to V. parahaemolyticus and other species in Vibrio. Of the four sets of primers tested, the one designed on the basis of the metalloprotease gene (675 bp) gave optimal results with bacterial strains examined as they only amplified the specific fragment in strains that had been genetically and biochemically assessed as V. parahaemolyticus and the limit of detection was 4 pg of purified target DNA. CONCLUSIONS: The primers designed on the metalloprotease gene gave optimal results for specific, sensitive and rapid detection of V. parahaemolyticus by PCR. SIGNIFICANCE AND IMPACT OF THE STUDY: PCR amplification with the optimal primer set VPM1/VPM2 could facilitate the rapid diagnosis and surveillance of potentially pathogenic strains of V. parahaemolyticus and reduce food-borne illness.     

Monomorphic species specific DNA, detected by polymerase chain reaction with random primers

Intra- and interspecific variability of total DNA isolated from haploid megagametophytes of coniferous species was examined using polymerase chain reaction with random primers. Based on this technique, one can with certainty detect heterozygosity at gene loci carrying null alleles and thus reveal cryptic intraspecific genetic variation. Large population samples were used. Along with random amplified polymorphic DNA, i.e., widely known fragments (amplicons) polymorphic within a species, we found invariant loci lacking individual or geographic variability but differentiating species within genera and other taxa. This DNA was termed RAMD (random amplified monomorphic DNA) to distinguish it from polymorphic DNA. Our findings suggest that genetic monomorphism of species and the dual structure of the eukaryotic genome can be detected at the DNA level as was previously shown for protein gene markers.