Abstract: OBJECTIVES: Following up on prior evidence from animal and human studies of Ljungan virus (LV) in intrauterine fetal death (IUFD), we examine additional cases of IUFD using two standard assays of viral detection: immunohistochemistry (IHC) and real time RT-PCR. MATERIALS AND METHODS: Frozen and formalin-fixed specimens from IUFD cases were tested for the presence of LV using real time RT-PCR and IHC, respectively. Formalin-fixed organs from terminated pregnancies diagnosed as trisomy 21 were used as controls in the IHC assay. RESULTS: Presence of LV was demonstrated in all five IUFD cases by IHC and further confirmed in three of these cases by real time RT-PCR. Only one of 18 trisomy 21 controls was LV positive by IHC. CONCLUSION: The presence of LV in IUFD patients has been confirmed by two different assays.

Abstract:

Abstract: BACKGROUND: The enzymatic mutation detection (EMD) assay uses the bacteriophage resolvase T4 endonuclease VII, which cleaves preformed heteroduplex molecules at mismatch sites, forming two shorter fragments that can be resolved by gel electrophoresis. The method can be used to detect single and multiple base changes, as well as insertions and deletions. METHODS: The sensitivity, specificity, and positional accuracy of mutation detection by EMD with the PASSPORT(TM) Mutation Scanning Kit were assessed in a blind fashion for three analytical platforms (radioactive detection and automated laser sequencers ALFexpress and ABI PRISM 377). PCR products of 703 bp covering codons 188-393 of the P53 gene were prepared from colorectal tumor samples and analyzed by EMD; the results were compared to data from cDNA sequencing. A 1362-bp PCR product prepared from IL4r gene was used to test detection of multiple base changes in long PCR products. RESULTS: The sensitivity for detection of mutations using EMD exceeded 90%, and the specificity exceeded 80% on all analysis platforms. The method localized 90% of mutations to within two codons and four codons for automated laser sequencers and detection by radioactivity, respectively. The method detected at least five mismatches in heteroduplexes >1 kb. CONCLUSIONS: The EMD system facilitates efficient detection of genetic variation in fragments exceeding 1 kb irrespective of location and type. The technology is particularly well suited to the detection of mutations in genes frequently mutated at unpredictable locations.

Abstract: A 1.2 kb long DNA segment from Rhodospirillum rubrum has been sequenced (EMBL/GenBank accession number: U41280). This DNA segment includes the first sequenced gene for a putative 3-hydroxy-3-methylglutaryl-CoA (HMG-CoA) lyase, termed hmgL, from a photosynthetic organism. The sequenced segment also contains a ribosome-binding site and two clusters of possible-35 and -10 promotor sequences preceding the hmgL gene. Translation of the gene would yield a 303 amino-acid-long protein with a calculated molecular weight of 31.1 kDa. This protein shows 55-60% identity and approx. 75% similarity, including conservative substitutions, with the three eukaryotic and the single prokaryotic HMG-CoA lyases which previously have been sequenced. The R. rubrum enzyme showed stronger homology to the chicken HMG-CoA lyase than to the other bacterial protein. Significant sequence similarity was also found with homocitrate synthases from nitrogen-fixing prokaryotes. In contrast to the other sequenced prokaryotic HMG-CoA lyase (from Pseudomonas mevalonii), the R. rubrum hmgL does not seem to appear in an operon together with a HMG-CoA reductase. The hmgL gene was transcribed in photosynthetically grown cells as judged by amplification of cDNAs synthesised from DNA-free total RNA. In addition, HMG-CoA lyase activity was found in R. rubrum cells grown anaerobically in the light with leucine as the carbon source.

Abstract: BACKGROUND: Sarcoidosis is a granulomatous disease characterized by the accumulation of activated T cells in the lungs. We previously showed that sarcoidosis patients expressing the HLA haplotype DR3(17),DQ2 had increased numbers of lung CD4+ T cells using the T cell receptor (TCR) variable region (V) alpha 2.3 gene segment product. In the present study, the composition of both the TCR alpha- and beta-chains of the expanded CD4+ lung T cells from four DR3(17),DQ2+ sarcoidosis patients was examined. MATERIALS AND METHODS: TCR alpha-chains were analyzed by cDNA cloning and nucleotide sequencing. TCR beta-chains were analyzed for V beta usage by flow cytometry using TCR V-specific monoclonal antibodies or by the polymerase chain reaction (PCR) using V beta- and C beta-specific primers. J beta usage was analyzed by Southern blotting of PCR products and subsequent hybridization with radiolabeled J beta-specific probes. RESULTS: Evidence of biased J alpha gene segment usage by the alpha-chains of V alpha 2.3+ CD4+ lung T cells was found in four out of four patients. Both different alpha-chain nucleotide sequences coding for identical amino acid sequences and a number of identically repeated alpha-chain sequences were identified. In contrast, the TCR beta-chains of FACS-sorted V alpha 2.3+ CD4+ lung T cells were found, with one exception, to have a nonrestricted TCR V beta usage. CONCLUSIONS: The finding of V alpha 2.3+ CD4+ lung T cells with identical TCR alpha-chain amino acid sequences but with different nucleotide sequences strongly suggests that different T cell clones have been selected to interact with a specific sarcoidosis associated antigen(s). The identification of T cells with restricted TCR usage, which may play an important role in the development of sarcoidosis, and the possibility of selectively manipulating these cells should have important implications for the treatment of the disease.

Abstract: A solid-phase method is described to create subclones, suitable for DNA sequencing, from lambda or cosmid libraries. The purified target DNA is sonicated and two linkers, with one oligonucleotide biotinylated in the 5'-end, are ligated to the ends of the fragments produced by sonication. After size separation, the fragments are immobilised onto a solid support and the non-biotinylated strand of each immobilised fragment is eluted. In this way, a library of single-stranded fragments is obtained. All fragments contain 'universal' flanking sequences of 22 bases introduced by the linker ligation. These flanking sequences can subsequently be used for solid-phase cloning into a single-stranded vector containing the complementary sequences. Thus, cloning can be achieved without the use of ligase or restriction enzymes. The resulting subclones are used for direct solid-phase sequencing and the immobilised strand can be used to selectively remove homologous DNA from the library of single-stranded fragments. Thus, a sublibrary of non-sequenced fragments can be created. Here, we show that a library of clones, suitable for direct solid-phase sequencing, can be obtained starting with lambda DNA. The efficiency of selective hybridisation of homologous and non-homologous fragments was investigated. The possibility of using this approach for automated cloning strategies for large-scale genomic and cDNA sequencing is discussed.

Abstract: Nicotinamide nucleotide transhydrogenase from bovine heart consists of a single polypeptide of 109 kD. The complete gene for this transhydrogenase was constructed, and the protein primary structure was determined from the cDNA. As compared to the previously published sequences of partially overlapping clones, three residues differed: Ala591 (previously Phe), Val777 (previously Glu), and Ala782 (previously Arg). The Escherichia coli transhydrogenase consists of an alpha subunit of 52 kD and a beta subunit of 48 kD. Alignment of the protein primary structure of the bovine trashydrogenase with that of the transhydrogenase from E. coli showed an identity of 52%, indicating similarly folded structures. Prediction of transmembrane-spanning alpha-helices, obtained by applying several prediction algorithms to the primary structures of the revised bovine heart and E. coli transhydrogenases, yielded a model containing 10 transmembrane alpha-helices in both transhydrogenases. In E. coli transhydrogenase, four predicted alpha-helices were located in the alpha subunit and six alpha-helices were located in the beta subunit. Various conserved amino acid residues of the E. coli transhydrogenase located in or close to predicted transmembrane alpha-helixes were replaced by site-specific mutagenesis. Conserved negatively charged residues in predicted transmembrane alpha-helices possibly participating in proton translocation were identified as beta Glu82 (Asp655 in the bovine enzyme) and beta Asp213 (asp787 in the bovine enzyme) located close to the predicted alpha-helices 7 and 9 of the beta subunit. beta Glu82 was replaced by Lys or Gln and beta Asp213 by Asn or His. However, the catalytic as well as the proton pumping activity was retained. In contrast, mutagenesis of the conserved beta His91 residue (His664 in the bovine enzyme) to Ser, Thr, and Cys gave an essentially inactive enzyme. Mutation of alpha His450 (corresponding to His481 in the bovine enzyme) to Thr greatly lowered catalytic activity without abolishing proton pumping. Since no other conserved acidic or basic residues were predicted in transmembrane alpha-helices regardless of the prediction algorithm used, proton translocation by transhydrogenase was concluded to involve a basic rather than an acidic residue. The only conserved cysteine residue, beta Cys260 (Cys834 in the bovine enzyme), located in the predicted alpha-helix 10 of the E. coli transhydrogenase, previously suggested to function as a redox-active dithiol, proved not to be essential, suggesting that redox-active dithiols do not play a role in the mechanism of transhydrogenase.

Abstract: Nicotinamide nucleotide transhydrogenase (E.C.1.6.1.1) from Escherichia coli was investigated with respect to the role of specific conserved tyrosine residues of putative substrate-binding regions. The enzyme from E. coli is made up of two subunits, alpha (510 residues) and beta (462 residues). The corresponding enzyme from bovine mitochondria is a single polypeptide (1043 residues) whose N-terminal region corresponds to the alpha subunit and whose C-terminal region corresponds to the beta subunit. Tyrosines 245 and 1006 of the mitochondrial enzyme have been shown to react selectively with 5'-(p-fluorosulfonylbenzoyl)adenosine with inactivation of the enzyme. In E. coli these residues correspond to tyrosine 226 of the alpha subunit and tyrosine 431 of the beta subunit. In addition, tyrosine 315 of the beta subunit is of interest since mutation of an adjacent residue (glycine 314) leads to inactivation [Ahmad, S., Glavas, N. A., & Bragg, P. D. (1992) Eur. J. Biochem. 207, 733-739]. In order to assess the role of the aforementioned conserved tyrosine residues in the mechanism and structure of transhydrogenases, these were replaced by site-specific mutagenesis, using the cloned and overexpressed E. coli transhydrogenase genes [Clarke, D. M., & Bragg, P. D. (1985) J. Bacteriol. 162, 367-373]. Phenylalanine mutants of all three tyrosine residues showed approximately 50% activity or more with regard to catalytic activity assayed as reduction of 3-acetylpyridine-NAD+ by NADPH. These mutants were also active in proton pumping assayed as quenching of 9-methoxy-6-chloro-2-aminoacridine or quinacrine fluorescence.(ABSTRACT TRUNCATED AT 250 WORDS)

Abstract: Increasing the efficiency of DNA sequencing necessitates the development of systems which reduce the need for manual operations by integrating template preparation, sequencing reactions, product separation and detection. A semi-automated system, whereby PCR-amplified biotinylated genomic or plasmid DNA is immobilized on streptavidin-coated magnetic beads, has been developed.

Abstract: In the present study we have characterized the gamma/delta T cell receptor (TcR) population in synovial fluid (SF) and peripheral blood (PB) of patients with chronic inflammatory arthritis. By double staining we have shown that (a) synovial V delta 1+ cells have a high expression of activation markers CD45R0 ("memory cells") and HLA-DR as compared to PB, indicating a preactivated population of V delta 1-carrying T cells in vivo and (b) interleukin 2-induced expansion of synovial cells yields a high proportion of gamma/delta in most samples expressing predominantly the V delta 1 TcR. Junctional sequence analysis of the TcR delta chain from interleukin 2-expanded PB cell lines demonstrated a polyclonal V delta 1 population in three out of three samples. In SF cell lines three out of four samples were polyclonally expanded. In SF from one patient, however, a limited repertoire of expressed V delta 1 genes was found. Altogether, our data demonstrate the presence of preactivated V delta 1-expressing cells in the synovial compartment. This V delta 1 population is predominantly polyclonal, except in one patient where oligoclonally expanded V delta 1 cells were detected.

Abstract: An integrated protocol for solid-phase DNA sequencing using a robotic work station is described involving magnetic separation of DNA and analysis of the sequencing product by electrophoresis with automated detection of the fluorescently labeled fragments. The method, which is based on magnetic beads in combination with streptavidin-biotin technology, can be used for sequencing both genomic and plasmid DNA. The DNA template is obtained by the polymerase chain reaction (PCR). Protocols to prepare five and ten immobilized samples is described, giving 10 and 20 single-stranded templates, respectively. The magnetic purification steps are performed in a microtiter plate and this allows for an integrated scheme involving a subsequent procedure for automated primer annealing and sequencing reactions. Here, the procedure is examplified by direct genomic sequencing of DNA in blood sample from a human immunodeficiency virus (HIV)-infected patient and a cloned human antibody DNA fragment using fluorescently labeled sequencing primers.

Abstract: A protocol for colorimetric determination of DNA amplified by the polymerase chain reaction (PCR) and subsequently immobilized to a solid support is described. The protocol consists of three steps: (i) binding of PCR amplified lac operator-containing DNA to magnetic beads; (ii) binding of a Lac repressor-beta-galactosidase fusion protein to the lac operator and (iii) colorimetric detection of the immobilized beta-galactosidase. In practice, steps (i) and (ii) are performed concurrently. The protocol is well suited both for manual and automated procedures and the immobilized template can, after melting, be used directly for solid phase sequencing. The assay is used to demonstrate that template concentration is important for the quality of sequence data obtained from an automated DNA sequencer.

Abstract: A solid-phase approach is described for manual and automated sequencing of plasmid DNA obtained directly from bacterial colonies through the polymerase chain reaction. The DNA fragment is selectively immobilized to magnetic beads and after strand-specific elution, the eluted strand, as well as the remaining immobilized strand, is used for bidirectional dideoxy sequencing. The solid-phase approach ensures that the amplification and the sequencing reactions can be performed under optimal conditions. The approach is exemplified by fluorescent sequencing of a cloned Streptomyces curacoi gene having a G + C content of more than 70%.

Abstract: A direct sequencing approach has been used to analyze the polymorphism in the human apolipoprotein E gene. A method is described, in which the DNA is amplified by the polymerase chain reaction, immobilized, and sequenced by a semi-automatic procedure adaptable to clinical diagnosis. The three alleles of the apolipoprotein E gene, which differ from each other by two nucleotide substitutions and which influence serum cholesterol levels, were analyzed. The solid-phase method was able to resolve the correct nucleotide sequence in samples from both homozygous and heterozygous individuals. No cloning steps are needed and the immobilization and separation of the DNA is accomplished using magnetic beads.

Abstract: We describe a rapid solid phase assay for detection and sequencing of DNA sequences based on selective introduction of biotin and isotope into the specific DNA fragment amplified by the polymerase chain reaction (PCR). A two-step PCR procedure is used to lower the background signal. The in vitro amplified material is immobilized on magnetic beads with covalently coupled streptavidin and the amount of bound label is measured. Samples identified as positive can be analysed by direct solid phase DNA sequencing. A strategy is also described to use general primers for detection, capturing and sequencing, which are not homologous to the specific sequence to be detected. The concept has been optimized using oligonucleotides specific for Staphylococci and Streptococci, respectively. Here, we show that the assay can be used for detection of Plasmodium falciparum in clinical samples.

Abstract: A system for rapid colorimetric detection of specific genome DNA fragments amplified by the polymerase chain reaction (PCR) is described that has been designed to allow direct solid-phase sequencing of positive samples. The amplified material is immobilized on magnetic beads by using the biotin streptavidin system. An Escherichia coli lac operator DNA sequence is incorporated in the amplified material during the second step of a nested primer procedure. This 21-base-pair sequence is used for a general colorimetric detection with a fusion protein consisting of the E. coli Lac repressor and beta-galactosidase. Positive samples can be treated subsequently with alkali to obtain a single-stranded DNA template suitable for direct genomic sequencing. This method to detect immobilized amplified nucleic acids (DIANA) is well adapted for automated or semiautomated clinical assays. Here, we show that it can be used to detect and sequence Chlamydia trachomatis genomic DNA in clinical samples.

Abstract: Solid-phase methods can be used for direct cloning of in vitro-amplified genomic DNA with high efficiency, without the need for restriction enzymes or ligase. Single-stranded DNA fragments are generated by magnetic separation and are simply mixed with single-stranded vector to form gap-duplex molecules that can be readily transformed. This strategy, in combination with direct solid-phase DNA sequencing, was used to analyze individual alleles in the human apolipoprotein E locus.

Abstract: Site-specific mutagenesis was accomplished using a solid support to generate single stranded vector and insert fragments which can be used to form gap-duplex plasmids through flanking, complementary double stranded regions. More than 80% mutants were obtained in both a single and a double primer approach. No special vectors or strains are needed and mismatch repair is avoided as the mutagenesis region is in a single stranded form when transformed into the Escherichia coli host cell. The fragments to be immobilized can be produced either by a polymerase chain reaction using general primers or by a site-specific restriction followed by a fill-in reaction. This novel method is rapid, simple and flexible and well suited for both manual and semi-automated in vitro mutagenesis protocols.

Abstract: Approaches to direct solid phase sequencing of genomic and plasmid DNA have been developed using magnetic beads, coated with streptavidin, as solid support. The DNA is immobilized through selective incorporation of biotin into one of the strands. A single stranded template, suitable for sequencing, is obtained through strand-specific elution. Using this concept, in vitro amplified plasmid DNA and chromosomal DNA were sequenced directly from single colonies. The solid phase approach ensures that the amplification and the sequencing reactions can be performed under optimal conditions. The system was found to be suitable for sequencing using both isotope- and fluorescent-labelled primers.

Abstract: A novel method for solid-phase DNA sequencing is described. A plasmid vector, pRIT27, has been designed to allow directional immobilization of double stranded plasmid to avidin agarose. The strategy involves enzymatic incorporation of 11-bio-dUTP into the plasmid and strand specific elution using alkali. The immobilized single stranded DNA is used as template for sequencing reactions and the resulting labelled oligonucleotides are eluted by alkali. The affinity gel containing the immobilized template is consecutively used for the four different dideoxy-nucleotide reactions. The solid-phase technique can be used for both primer specific or extension specific labelling. The possibility to use the system in automated DNA sequencing is discussed.