Showing papers by "Applied Biosystems published in 1999"

Evaluation of Protein A Gene Polymorphic Region DNA Sequencing for Typing of Staphylococcus aureus Strains

Abstract: Three hundred and twenty isolates of Staphylococcus aureus were typed by DNA sequence analysis of the X region of the protein A gene (spa). spa typing was compared to both phenotypic and molecular techniques for the ability to differentiate and categorize S. aureus strains into groups that correlate with epidemiological information. Two previously characterized study populations were examined. A collection of 59 isolates (F. C. Tenover, R. Arbeit, G. Archer, J. Biddle, S. Byrne, R. Goering, G. Hancock, G. A. Hebert, B. Hill, R. Hollis, W. R. Jarvis, B. Kreiswirth, W. Eisner, J. Maslow, L. K. McDougal, J. M. Miller, M. Mulligan, and M. A. Pfaller, J. Clin. Microbiol. 32:407-415, 1994) from the Centers for Disease Control and Prevention (CDC) was used to test for the ability to discriminate outbreak from epidemiologically unrelated strains. A separate collection of 261 isolates form a multicenter study (R. B. Roberts, A. de Lencastre, W. Eisner, E. P. Severina, B. Shopsin, B. N. Kreiswirth, and A. Tomasz, J. Infect. Dis. 178:164-171, 1998) of methicillin-resistant S. aureus in New York City (NYC) was used to compare the ability of spa typing to group strains along clonal lines to that of the combination of pulsed-field gel electrophoresis and Southern hybridization. In the 320 isolates studied, spa typing identified 24 distinct repeat types and 33 different strain types. spa typing distinguished 27 of 29 related strains and did not provide a unique fingerprint for 4 unrelated strains from the four outbreaks of the CDC collection. In the NYC collection, spa typing provided a clonal assignment for 185 of 195 strains within the five major groups previously described. spa sequencing appears to be a highly effective rapid typing tool for S. aureus that, despite some expense of specificity, has significant advantages in terms of speed, ease of use, ease of interpretation, and standardization among laboratories.

Differential Cytokine and Chemokine Gene Expression by Human NK Cells Following Activation with IL-18 or IL-15 in Combination with IL-12: Implications for the Innate Immune Response

Abstract: NK cells constitutively express monocyte-derived cytokine (monokine) receptors and secrete cytokines and chemokines following monokine stimulation, and are therefore a critical component of the innate immune response to infection. Here we compared the effects of three monokines (IL-18, IL-15, and IL-12) on human NK cell cytokine and chemokine production. IL-18, IL-15, or IL-12 alone did not stimulate significant cytokine or chemokine production in resting NK cells. The combination of IL-18 and IL-12 induced extremely high amounts of IFN-gamma protein (225 +/- 52 ng/ml) and a 1393 +/- 643-fold increase in IFN-gamma gene expression over those in resting NK cells. IL-15 and IL-12 induced less IFN-gamma protein (24 +/- 10 ng/ml; p < 0.007) and only a 45 +/- 19-fold increase in IFN-gamma gene expression over those in resting NK cells. The CD56bright NK cell subset produced significantly more IFN-gamma following IL-18 and IL-12 compared with CD56dim NK cells (p < 0.008). However, the combination of IL-15 and IL-12 was significantly more potent than that of IL-18 and IL-12 for NK cell production of IL-10, macrophage inflammatory protein-1alpha, macrophage inflammatory protein-1beta, and TNF-alpha at the protein and transcript levels. Granulocyte-macrophage CSF was optimally induced by IL-15 and IL-18. Resting CD56+ NK cells expressed IL-18R transcript that was up-regulated by IL-12 or IL-15. Our results show that distinct cytokine and chemokine patterns are induced in NK cells in response to different costimulatory signals from these three monokines. This suggests that NK cell cytokine production may be governed in part by the monokine milieu induced during the early proinflammatory response to infection and by the subset of NK cells present at the site of inflammation.

Sequence and analysis of chromosome 4 of the plant Arabidopsis thaliana

Abstract: The higher plant Arabidopsis thaliana (Arabidopsis) is an important model for identifying plant genes and determining their function. To assist biological investigations and to define chromosome structure, a coordinated effort to sequence the Arabidopsis genome was initiated in late 1996. Here we report one of the first milestones of this project, the sequence of chromosome 4. Analysis of 17.38 megabases of unique sequence, representing about 17% of the genome, reveals 3,744 protein coding genes, 81 transfer RNAs and numerous repeat elements. Heterochromatic regions surrounding the putative centromere, which has not yet been completely sequenced, are characterized by an increased frequency of a variety of repeats, new repeats, reduced recombination, lowered gene density and lowered gene expression. Roughly 60% of the predicted protein-coding genes have been functionally characterized on the basis of their homology to known genes. Many genes encode predicted proteins that are homologous to human and Caenorhabditis elegans proteins.

A second-generation genetic linkage map of the domestic dog, Canis familiaris.

Abstract: Purebred strains, pronounced phenotypic variation, and a high incidence of heritable disease make the domestic dog uniquely suited to complement genetic analyses in humans and mice. A comprehensive genetic linkage map would afford many opportunities in dogs, ranging from the positional cloning of disease genes to the dissection of quantitative differences in size, shape, and behavior. Here we report a canine linkage map with the number of mapped loci expanded to 276 and 10-cM coverage extended to 75-90% of the genome. Most of the 38 canine autosomes are likely represented in the collection of 39 autosomal linkage groups. Eight markers were sufficiently informative to detect linkage at distances of 10-13 cM, yet remained unlinked to any other marker. Taken together, the results suggested a genome size of about 27 M. As in other species, the genetic length varied between sexes, with the female autosomal distance being approximately 1.4-fold greater than that of male meioses. Fifteen markers anchored well-described genes on the map, thereby serving as landmarks for comparative mapping in dogs. We discuss the utility of the current map and outline steps necessary for future map improvement.

Identification of glucoside and carboxyl-linked glucuronide conjugates of mycophenolic acid in plasma of transplant recipients treated with mycophenolate mofetil

Abstract: 1. Mycophenolic acid (MPA), is primarily metabolized in the liver to 7-O-MPA-beta-glucuronide (MPAG). Using RP-h.p.l.c. we observed three further MPA metabolites, M-1, M-2, M-3, in plasma of transplant recipients on MMF therapy. To obtain information on the structure and source of these metabolites: (A) h.p.l.c. fractions containing either metabolite or MPA were collected and analysed by tandem mass spectrometry; (B) the metabolism of MPA was studied in human liver microsomes in the presence of UDP-glucuronic acid, UDP-glucose or NADPH; (C) hydrolysis of metabolites was investigated using beta-glucosidase, beta-glucuronidase or NaOH; (D) cross-reactivity of each metabolite was tested in an immunoassay for MPA (EMIT). 2. Mass spectrometry of M-1, M-2, MPA and MPAG in the negative ion mode revealed molecular ions of m/z 481, m/z 495, m/z 319 and m/z 495 respectively. 3. Incubation of microsomes with MPA and UDP-glucose produced M-1, with MPA and UDP-glucuronic acid MPAG and M-2 were formed, while with MPA and NADPH, M-3 was observed. 4. Beta-Glucosidase hydrolysed M-1 completely. Beta-Glucuronidase treatment led to a complete disappearance of MPAG whereas the amount of M-2 was reduced by approximately 30%. Only M-2 was labile to alkaline treatment. 5. M-2 and MPA but not M-1 and MPAG cross-reacted in the EMIT assay. 6. These results suggest that: (i) M-1 is the 7-OH glucose conjugate of MPA; (ii) M-2 is the acyl glucuronide conjugate of MPA; (iii) M-3 is derived from the hepatic CYP450 system.

Commercial production of aprotinin in transgenic maize seeds

Abstract: The development of genetic transformation technology for plants has stimulated an interest in using transgenic plants as a novel manufacturing system for producing different classes of proteins of industrial and pharmaceutical value. In this regard, we report the generation and characterization of transgenic maize lines producing recombinant aprotinin. The transgenic aprotinin lines recovered were transformed with the aprotinin gene using the bar gene as a selectable marker. The bar and aprotinin genes were introduced into immature maize embryos via particle bombardment. Aprotinin gene expression was driven by the maize ubiquitin promoter and protein accumulation was targeted to the extracellular matrix. One line that showed a high level of aprotinin expression was characterized in detail. The protein accumulates primarily in the embryo of the seed. Southern blot analysis showed that the line had at least 20 copies of the bar and aprotinin genes. Further genetic analysis revealed that numerous plants derived from this transgenic line had a large range of levels of expression of the aprotinin gene (0–0.069%) of water-soluble protein in T2 seeds. One plant lineage that showed stable expression after 4 selfing generations was recovered from the parental transgenic line. This line showed an accumulation of the protein in seeds that was comparable to the best T2 lines, and the recombinant aprotinin could be effectively recovered and purified from seeds. Biochemical analysis of the purified aprotinin from seeds revealed that the recombinant aprotinin had the same molecular weight, N-terminal amino acid sequence, isoelectric point, and trypsin inhibition activity as native aprotinin. The demonstration that the recombinant aprotinin protein purified from transgenic maize seeds has biochemical and functional properties identical to its native counterpart provides a proof-of-concept example for producing new generation products for the pharmaceutical industry.

Coalescent estimates of HIV-1 generation time in vivo

Abstract: The generation time of HIV Type 1 (HIV-1) in vivo has previously been estimated using a mathematical model of viral dynamics and was found to be on the order of one to two days per generation. Here, we describe a new method based on coalescence theory that allows the estimate of generation times to be derived by using nucleotide sequence data and a reconstructed genealogy of sequences obtained over time. The method is applied to sequences obtained from a long-term nonprogressing individual at five sampling occasions. The estimate of viral generation time using the coalescent method is 1.2 days per generation and is close to that obtained by mathematical modeling (1.8 days per generation), thus strengthening confidence in estimates of a short viral generation time. Apart from the estimation of relevant parameters relating to viral dynamics, coalescent modeling also allows us to simulate the evolutionary behavior of samples of sequences obtained over time.

Detection and Quantitation of Human Papillomavirus by Using the Fluorescent 5′ Exonuclease Assay

Abstract: A method for the detection and quantitation of oncogenic human papillomavirus (HPV) was developed by using the fluorescent 5′ exonuclease assay. The method is based on the amplification of a 180-bp fragment from the 3′ part of the E1 open reading frame in a single PCR with type-specific probes for HPV types 16, 18, 31, 33, and 35. The probes can be used separately or in combinations of up to three probes per assay. Quantitation over a range of 101 to 106 initial HPV copies was possible by using real-time detection of the accumulation of fluorescence with cycle number. Reconstitution experiments, performed to mimic mixed infections, showed that individual HPV types can be detected down to a ratio of about 1% in a mixture. The performance of the assay depends on DNA quality, the presence of PCR inhibitors, and the number of different probes used simultaneously. This homogeneous assay provides a fast and sensitive way of screening for oncogenic HPV types in biopsy specimens as well as cervical smear samples. The closed-tube nature of the assay and the inclusion of uracil N′-glycosylase reduces cross contamination of PCR products to a minimum. A similar assay for β-actin was used in parallel for quantitation of genomic DNA. After normalizing the samples for genomic DNA content, the mean number of HPV copies per cell could be calculated.

SR protein-specific kinase 1 is highly expressed in testis and phosphorylates protamine 1.

Abstract: Arginine/serine protein kinases constitute a novel class of enzymes that can modify arginine/serine (RS) dipeptide motifs. SR splicing factors that are essential for pre-mRNA splicing are among the best characterized proteins that contain RS domains. TwoSRprotein-specifickinases, SRPK1 and SRPK2, have been considered as highly specific for the phosphorylation of these proteins, thereby contributing to splicing regulation. However, despite the fact that SR proteins are more or less conserved among metazoa and have a rather ubiquitous tissue distribution we now demonstrate that SRPK1 is predominantly expressed in testis. In situ expression analysis on transverse sections of adult mouse testis shows that SRPK1 mRNA is abundant in all germinal cells but not in mature spermatozoa. RS kinase activity was found primarily in the cytosol and only minimal activity was detected in the nucleus. In a search for testis-specific substrates of SRPK1 we found that the enzyme phosphorylates human protamine 1 as well as a cytoplasmic pool of SR proteins present in the testis. Protamine 1 belongs to a family of small basic arginine-rich proteins that replace histones during the development of mature spermatozoa. The result of this progressive replacement is the formation of a highly compact chromatin structure devoid of any transcriptional activity. These findings indicate that SRPK1 may have a role not only in pre-mRNA splicing, but also in the condensation of sperm chromatin.

Molecular detection of Diaporthe phaseolorum and Phomopsis longicolla from soybean seeds.

Abstract: Zhang, A. W., Hartman, G. L., Curio-Penny, B., Pedersen, W. L., and Becker, K. B. 1999. Molecular detection of Diaporthe phaseolorum and Phomopsis longicolla from soybean seeds. Phytopathology 89:796-804. Species-specific detection of Diaporthe phaseolorum and Phomopsis longicolla from soybean seeds was accomplished using polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) and TaqMan chemistry. To use these detection systems, fungal DNA was released from soybean seed coats using an ultrasonic processor to break the cells. DNA fragment lengths ranged from 200 to 1,200 base pairs (bp), with the majority of fragments <500 bp. Based on DNA sequences of the internal transcribed spacer (ITS) regions of ribosomal DNA, three TaqMan primer/probe sets were designed. Primer/probe set PL-5 amplified a 96-bp fragment within the ITS1 region of P. longicolla, D. phaseolorum var. caulivora, D. phaseolorum var. meridionalis, and D. phaseolorum var. sojae. Set PL-3 amplified a 86-bp DNA fragment within the ITS2 region of P. longicolla. Set DPC-3 amplified a 151-bp DNA fragment within the ITS2 region of D. phaseolorum var. caulivora. TaqMan primer/probe sets were able to detect as little as 0.15 fg (four copies) of plasmid DNA. When using PCR-RFLP for Diaporthe and Phomopsis detection, the sensitivity was as low as 100 pg of pure DNA. Among 13 soybean seed lots from Italy and the United States, the total Diaporthe and Phomopsis detected using a traditional seed-plating technique ranged from 0 to 32%. P. longicolla was most prevalent, followed by D. phaseolorum var. sojae. D. phaseolorum var. caulivora, which only occurred in 0.5% of the Italian seed lots, was not detected in the U.S. seed lots. D. phaseolorum var. meridionalis was not detected in either the U.S. or Italian seed lots. Using TaqMan primer/probe set PL-3, the frequency of P. longicolla was 18% in seed lot I3, similar to the frequency obtained from PCR-RFLP and potato dextrose agar plating detection. The frequencies of D. phaseolorum and P. longicolla in each seed lot obtained by the different detection methods were comparable with respect to total infection and individual species detection. However, TaqMan detection provided the fastest results of all the methods tested.

Rapid screening of T‐cell receptor (TCR) variable gene usage by multiplex PCR: Application for assessment of clonal composition

Abstract: The selection of various T-cell receptor (TCR) gene families and complex rearrangements during intra-thymic differentiation provide the basis for the expression of antigen specificity by mature T cells. TCR beta variable (TCRBV) transcripts can be identified by RT-PCR, but multiple reactions are required to detect all genes of the TCRBV subfamilies. We describe here a multiplex PCR method that amplifies 46 functional genes comparing 23 TCRBV families in 5 reactions where each reaction contains 4 to 7 specific primers together with a single fluorescence-tagged TCR beta constant region primer. Between 8 and 10 distinct subtypes within each of the 23 TCRBV families can be identified by analysis of the CDR3 length. Multiplex PCR products isolated from agarose gels can be subjected to direct sequencing for confirmation and definitive clonotyping if necessary. The data illustrated here show that the multiplex PCR technique is useful for screening TCRBV usage and can be easily adapted for analysis of clonal composition in T-cell populations.

A high-density genetic linkage map of Aegilops tauschii, the D- genome progenitor of bread wheat

Abstract: Aegilops tauschii is the diploid D-genome progenitor of bread wheat (Triticum aestivum L. em Thell, 2n=6x=42, AABBDD). A genetic linkage map of the Ae. tauschii genome was constructed, composed of 546 loci. One hundred and thirty two loci (24%) gave distorted segregation ratios. Sixty nine probes (13%) detected multiple copies in the genome. One hundred and twenty three of the 157 markers shared between the Ae. tauschii genetic and T. aestivum physical maps were colinear. The discrepancy in the order of five markers on the Ae. tauschii 3DS genetic map versus the T. aestivum 3D physical map indicated a possible inversion. Further work is needed to verify the discrepancies in the order of markers on the 4D, 5D and 7D Ae. tauschii genetic maps versus the physical and genetic maps of T. aestivum. Using common markers, 164 agronomically important genes were assigned to specific regions on Ae. tauschii linkage, and T. aestivum physical, maps. This information may be useful for map-based cloning and marker-assisted plant breeding.

Development of an automated mass spectrometry system for the quantitative analysis of liver microsomal incubation samples: a tool for rapid screening of new compounds for metabolic stability

Abstract: There is a continuing need for increased throughput in the evaluation of new drug entities in terms of their pharmacokinetic parameters. One useful parameter that can be measured in vitro using liver microsomal preparations is metabolic stability. In this report, we describe an automated system that can be used for unattended quantitative analysis of liver microsomal samples for a series of compounds. This system is based on the Sciex API 150 (single quadrupole) liquid chromatography/mass spectrometry system and utilizes 96-well plate autosampler technology as well as a custom-designed AppleScript® which executes the on-line data processing and report generation. It has the capability of analyzing at least 75 compounds per week or 300 compounds per month in an automated fashion. Copyright © 1999 John Wiley & Sons, Ltd.

Removal of a PCR inhibitor and resolution of DNA STR types in mixed human-canine stains from a five year old case.

Abstract: The analysis of biological trace evidence from a reopened investigation into a 1991 murder from Vernon, B.C. revealed mixed human and dog bloodstains on blue jean pants that contained a PCR inhibitory substance. The presence of the inhibitory substance was detected by the inhibition caused from adding a small aliquot of the test DNA extract into a PCR reaction designed to produce a known standard product. The removal of the PCR inhibitory substance was accomplished by treating the extracted DNA with Thiopropyl Sepharose 6B beads. DNA profiles from two human contributors and a canine were obtained using species specific polymorphic STR markers. The two human DNA profiles obtained from blue jean pants were resolved, one matched the suspect and the other matched the victim. The DNA profile from the canine component matched that obtained from the known sample of the victim's dog who was also slain during the assault. This evidence along with other DNA typing evidence was critical in obtaining a resolution of the case.

Separating DNA sequencing fragments without a sieving matrix.

Abstract: The possibility of separating appropriately labeled DNA fragments using free-flow capillary electrophoresis was predicted a few years ago based on simple theoretical arguments. Free-flow separation of double-stranded DNA (dsDNA) fragments in the 100-1000 base range was later demonstrated using a streptavidin label. In this article, we now report that end-labeled free-flow electrophoresis (ELFSE) can also be used to sequence single-stranded DNA (ssDNA). The first 100 bases of a DNA sequencing reaction were read without any sieving matrix when fractionated streptavidin was added to the 5'-end of the ssDNA fragments. These separations required only 18 min and did not require coated capillaries. An analysis of the results indicates that sample injection, analyte-wall interactions and thermal diffusion are the limiting factors at this time. Extrapolating from our data, we predict that several hundred bases could be sequenced in less than 30 min with the proper conditions. ELFSE thus offers an attractive potential alternative to polymer solutions for DNA sequencing in capillaries and microchips.

Methods, kits and compositions for the identification of nucleic acids electrostatically bound to matrices

Abstract: This invention pertains to methods, kits and compositions suitable for the detection, identification and/or quantitation of nucleic acids which are electrostatically immobilized to matrices using non-nucleotide probes which sequence specifically hybridize to one or more target sequences of the nucleic acid but do not otherwise substantially interact with the matrix. Once the nucleic acid is immobilized, the detectable non-nucleotide probe/target sequence complex, formed before or after the immobilization of the nucleic acid, can be detected, identified or quantitated under a wide range of assay conditions as a means to detect, identify or quantitate the target sequence in the sample. Because it is reversibly bound, the non-nucleotide probe/target sequence can optionally be removed from the matrix for detecting, identifying or quantitating the target sequence in the sample. Because the non-nucleotide probe/target sequence is protected against degradation, it is another advantage of this invention that the sample can be treated with enzymes which degrade sample components, either before or after the nucleic acid is bound to the matrix, in order to “clean up” the sample (e.g. a complex biological sample such as a cell lysate) and thereby improve the detection, identification or quantitation of the target sequence in the sample. The methods, kits and compositions of this invention are therefore particularly well suited for the analysis, and particularly single point mutation analysis, in a particle assay, in an array assay, in a nuclease digestion/protection assay and/or in a line assay format. When utilized in combination with non-nucleotide “Beacon” probes, the invention is particularly well suited for use in a self-indicating assay format.

Method for detecting oligonucleotides using energy transfer dyes with long stoke shift

Abstract: Novel linkers for linking a donor dye to an acceptor dye in an energy transfer fluorescent dye are provided. These linkers faciliate the efficient transfer of energy between a donor and acceptor dye in an energy transfer dye. One of these linkers for linking a donor dye to an acceptor dye in an energy transfer fluorescent dye has the general structure R 21 Z 1 C(O)R 22 R 26 where R 21 is a C 1-5 alkyl attached to the donor dye, C(O) is a carbonyl group, Z 1 is either NH, sulfur or oxygen, R 22 is a substituent which includes an alkene, diene, alkyne, a five and six membered ring having at least one unsaturated bond or a fused ring structure which is attached to the carbonyl carbon, and R 28 includes a functional group which attaches the linker to the acceptor dye.

Computer logic for fluorescence genotyping at multiple allelic sites

Abstract: A method is provided for genotyping a target sequence at at least two allelic sites by a 5' nuclease amplification reaction. In one embodiment, the method includes performing a nucleic acid amplification on a target sequence having at least two different allelic sites using a nucleic acid polymerase having 5'→3' nuclease activity and a primer capable of hybridizing to the target sequence in the presence of two or more sets of allelic oligonucleotide probes wherein: each set of allelic oligonucleotide probes is for detecting a different allelic site of the target sequence, each set of allelic oligonucleotide probes includes two or more probes which are complementary to different allelic variants at the allelic site being detected by the set of probes, the allelic site being 5' relative to a sequence to which the primer hybridizes to the target sequence, and at least all but one of the allelic oligonucleotide probes include a different fluorescer than the other probes and a quencher positioned on the probe to quench the fluorescence of the fluorescer; detecting a fluorescence spectrum of the amplification; calculating a fluorescence contribution of each fluorescer to the fluorescence spectrum; and determining a presence or absence of the different allelic variants at the two or more different allelic sites based on the fluorescence contribution of each fluorescer to the combined fluorescence spectrum.

A rapid automated SSCP multiplex capillary electrophoresis protocol that detects the two common mutations implicated in hereditary hemochromatosis (HH).

Abstract: Currently two mutations in the HFE gene are known to be associated with the manifestation of the autosomal recessive disorder hereditary hemochromatosis (HH). A single-base mutation resulting in Cys282Tyr appears to have a causative role in the development of the disease, and a point mutation resulting in His63Asp may also be involved. Recent observations with a fully automated capillary electrophoresis (CE) system (ABI Prism 310) suggested that this instrument could be used for the precise identification of known mutations based on single-strand conformation polymorphism (SSCP). Two DNA fragments, each specific for one of the HFE mutation sites and labeled with a different fluorophor, were coamplified and without further manipulation simultaneously analyzed by CE-SSCP. Wild-type samples showed a mobility pattern that was clearly distinguishable from homozygous Cys282Tyr, homozygous His63Asp, or a compound heterozygous sample. To evaluate the reliability of this system for the detection of both mutations, 20 samples were analyzed blind. All genotypes, which were called automatically, were in concordance with those obtained by a previously validated restriction fragment length polymorphism method. Thus, SSCP in combination with CE provides a fast and precise research tool for the simultaneous identification of the two common mutations implicated in HH.

Methods and reagents for inactivating ribonucleases

Abstract: The present invention is a general method for inactivating or inhibiting ribonucleases. Ribonucleases are treated with a reducing agent and heat. RNA samples contaminated with ribonuclease may be treated with this method to protect them from degradation. The RNA may then be used directly in a variety of enzymatic reactions and molecular biology techniques. This method may also be applied to a variety of molecular biology reagents which may be contaminated with ribonuclease to protect an RNA from being degraded when incubated with the reagent.

Evaluation of AFLP, a high-resolution DNA fingerprinting method, as a tool for molecular subtyping of enterohemorrhagic Escherichia coli O157:H7 isolates.

Abstract: The amplified fragment-length polymorphism (AFLPTM) technique is based on the selective PCR amplification of restriction fragments. We investigated the utility of AFLP in the molecular subtyping of enterohemorrhagic Escherichia coli serotype O157:H7 isolates. We analyzed a total of 46 isolates of E. coli O157:H7 along with other serotypes, O26:H11, O114:H19 and O119:NT. Isolates of E. coli O157:H7 derived from the same outbreak showed an identical AFLP-banding pattern and were subtyped into the same group, giving results almost consistent with those of a pulsed-field gel electrophoresis (PFGE) study, while other serotypes showed clearly different patterns from those of E. coli O157:H7. These results suggest that the AFLP technique has potential as an alternative tool for the molecular epidemiology of E. coli O157:H7.

Frequencies of hprt(-) mutations and bcl-2 translocations in circulating human lymphocytes are correlated with United Kingdom sunlight records.

Abstract: Between 1983 and 1995 we have monitored human populations for evidence of exposure to environmental mutagens, taking blood samples to measure hprt - mutant frequency in T cells and more recently bcl-2 t(14:18) translocation frequency in B cells. We have now analysed data from 785 assays on 448 blood samples from 308 normal subjects and find that there is a highly significant statistical correlation between hprt - mutant frequency and the sunlight record for the 3 weeks prior to taking the blood sample. We discuss the weaknesses in retrospective studies of this nature and the possibility of spurious epidemiological correlations that may result. More controlled experiments can be envisaged that would give a firmer basis to the statistical associations observed, hprt - mutations in T cells show little evidence of a UV fingerprint, so that the correlation may be due to immunomodulation rather than mutation. We also find a correlation between the sunlight record and bcl-2 translocation. This translocation is found at a low frequency in the B cells of many normal subjects and is the commonest translocation observed in non-Hodgkin's lymphoma. Our results strengthen the case for a link between sunlight and this increasingly common cancer.

Methods and apparatus for flow-through hybridization

Abstract: The present invention provides substrates and apparatuses for efficient, rapid and specific capture, and optimal recovery, of nucleic acids, as well as methods of their use. The substrate is porous in nature and has a capture polynucleotide capable of hybridizing to a target nucleic acid immobilized thereon. Upon flowing a sample containing or suspected of containing the target nucleic acid through the porous substrate, the target nucleic acid is rapidly captured. Following capture, the target nucleic acid can be efficiently recovered for subsequent use.

Introduction to Polymerase Chain Reaction

Abstract: The polymerase chain reaction (PCR) has become an indispensable tool of molecular biology (1-5). Since its discovery in 1985 the process has found its integration into all research areas involving the use of DNA and RNA. Using this technique, a small starting sample of DNA or RNA can be used to amplify a specific DNA or RNA target over a million-fold in as little as 2 h. This allows for the detection of as little as a single copy of a gene or part of a gene in cells, whether they be from blood, cultured cells, tissue biopsies, chromosomes, or any other biological system that contains DNA or RNA, including archival materials (formalin-fixed, paraffin-embedded).

PNA probes, probe sets, methods and kits pertaining to the detection of microorganisms

Abstract: This invention is related to novel PNA probes, probe sets, methods and kits pertaining to the detection of microorganisms. The probes, probe sets, methods and kits of this invention can be used to detect, identify or quantitate one or more organisms in a sample wherein the organisms are selected from the group consisting of E. coli, Staphylococcus aureus, Pseudomonas aeruginosa, Pseudomonas cepatia, Pseudomonas fluorescens or organisms of a bacterial genus including the Salmonella genus, Bacillus genus or Pseudomonas genus. The preferred probing nucleobase sequence of the PNA probes used to detect the bacteria listed above are TCA-ATG-AGC-AAA-GGT ( E. coli ); GCT-TCT-CGT-CCG-TTC ( Staphylococcus aureus ); CTG-AAT-CCA-GGA-GCA and AAC-TTG-CTG-AAC-CAC ( Pseudomonas aeruginosa ); CCA-TCG-CAT-CTA-ACA ( Pseudomonas cepatia ); TCT-AGT-CAG-TCA-GTT ( Pseudomonas fluorescens ); CCG-ACT-TGA-CAG-ACC and CCT-GCC-AGT-TTC-GAA (Salmonella genus); CTT-TGT-TCT-GTC-CAT (Bacillus genus); GCT-GGC-CTA-GCC-TTC, GTC-CTC-CTT-GCG-GTT and TTC-TCA-TCC-GCT-CGA (Pseudomonas genus). The PNA probes, probe sets, methods and kits of this invention are particularly well suited for use in multiplex PNA-FISH assays.

Lane tracking system and method

Abstract: A system and method for identifying lanes in images generated from DNA sequencing and fragment analysis is described. One example method includes a computer implemented method of determining the locations of lanes of separated samples. Each lane corresponds to a sample being separated by flowing the sample through a media. The method includes the following elements. Place some samples on the media. Cause the samples to separate into the lanes. Create a digital image of the lanes. Fit some curves to the lane images. Each curve corresponds to a lane formed from a separated sample.