End-specific covalent photo-dependent immobilisation of synthetic DNA to paramagnetic beads.

A novel approach for light-dependent covalent immobilisation of synthetic DNA oligomers to amino-coated paramagnetic beads is described. A hetero-bifunctional photo-reactive cross-linking chemical, 4-nitrophenyl 3-diazopyruvate, is applied to attach 5' amino-modified DNA to both silica and polystyrene paramagnetic beads. The coupling yields are comparable with similar methods in which no photo-reactive chemicals are used. The immobilised DNA on the polystyrene and silica beads was used efficiently in hybridisation experiments. An extension of this approach to light-directed immobilisation of specific DNA to beads, located at different positions in micro-flow reactors, opens up a range of integrated applications to complex diagnostics, evolutionary biotechnology and novel areas such as DNA computing.

Chain length-dependent association of distamycin-type oligopeptides with A X T and G X C pairs in polydeoxynucleotide duplexes.

Different binding affinities of various distamycin analogs including the deformylated derivative with poly(dA-dC) X poly(dG-dT) were investigated using CD measurements. The inhibitory effect of distamycins on the DNAase I cleavage activity of DNA duplexes strongly supports the binding data. The base specificity of the ligand interaction with duplex DNA depends on the chain length of distamycin analogs. Netropsin, distamycin-2 and the deformylated distamycin-3 show no binding to dG X dC containing sequences at moderate ionic strength and are classified as highly dA X dT specific. In contrast distamycin having three, four or five methylpyrrolecarboxamide groups also forms more or less stable complexes with dG X dC-containing duplexes. These ligands possess a lower basepair specificity. The correlation between binding behavior and oligopeptide structure shows that presence of the number of hydrogen acceptor and donor sites determines the basepair and sequence specificity. The additional interaction with dG X dC pairs becomes essential when the number of hydrogen acceptor sites exceeds n = 3.

Functional properties of recombinant staphylokinase variants obtained by site-specific mutagenesis of methionine-26.

Variants of recombinant staphylokinase (Sak) were produced by site-specific mutagenesis of the unique Met-26 residue and purified to homogeneity from the cell extract of transformed E. coli. The desired mutations were confirmed by cDNA and amino-acid sequence analysis. Sak-M26L, Sak-M26C, Sak-M26R, Sak-M26V and Sak-M26A were selected for further analysis on the basis of their plasminogen activating activity. The specific fibrinolytic activities of Sak-M26L, Sak-M26C and Sak were comparable (76,000 +/- 10,000, 75,000 +/- 2400 and 78,000 +/- 9700 HU/mg, respectively; mean +/- S.E., n = 3 or 4). Active site exposure in equimolar (4.5 microM) mixtures plasminogen at room temperature was more rapid with Sak-M26L than with Sak (quantitative exposure within 4 min and 8 min, respectively). Activation of 1 microM plasminogen by catalytic amounts (5 nM) of Sak-M26L initially appeared to be somewhat faster, but comparable 50 to 60% activation was obtained within 30 min. In contrast, Sak-M26R and Sak-M26V were virtually inactive, did not form active complexes with plasminogen and did not activate plasminogen. The catalytic efficiencies for plasminogen activation were comparable for plasmin-Sak-M26L, plasmin-Sak-M26C and plasmin-Sak (0.14 microM-1 s-1, 0.16 microM-1 s-1 or 0.12 microM-1 s-1, respectively). Comparable dose-dependent lysis of 0.06 ml 125I-fibrin labeled human plasma clots submerged in 0.3 ml human plasma was obtained with Sak-M26L, Sak-M26C and Sak (concentration required for 50% lysis in 2 h, EC50, of 17 +/- 1.6 nM, 19 +/- 1.4 nM and 14 +/- 2.5 nM, respectively), whereas Sak-M26R or Sak-M26V were inactive. Sak-M26A did not form a stable complex with plasminogen, as shown by gel filtration. These data establish that substitution of the unique Met residue in position 26 of the Sak sequence with Leu or Cys has little or no influence on its plasminogen activating or fibrinolytic potential. In contrast, substitution of Met-26 with either Arg or Val results in total loss of the functional activity. Thus, the amino acid in position 26 of Sak appears to be of crucial importance for the activation of plasminogen by staphylokinase.

Detection of porcine enteroviruses by nRT-PCR: differentiation of CPE groups I-III with specific primer sets.

Porcine enteroviruses (PEV) comprising at least 13 serotypes grouped into three species are described as causative agents of neurological disorders, fertility disorders, and dermal lesions of swine. Despite their well-documented acid stability, enteric infection route, and similarity of clinical symptoms, most of the porcine enterovirus (PEV) serotypes are set apart from the genus Enterovirus of the Picornaviridae. Hence, PCR procedures used commonly to detect enteroviruses are not applicable to epizootic relevant PEV serotypes. A nested RT-PCR protocol is described now suited to detect all known porcine enterovirus serotypes using three sets of primer pairs. These primer pairs were designed to amplify either highly conserved sequences of the 5'-nontranslated region (5'-NTR) or the polymerase gene region of the relevant virus species. All 13 acknowledged serotypes of three PEV species and several field isolates of clinical specimens were detectable. The specificity of the PCR procedure is supported by the observation that RT-PCR-positive field isolates coincide with serological PEV classification. PEV PCR is more rapid and less laborious than the time-consuming virus isolation by tissue culture techniques over several passages and serotyping. Because other viruses such as classical swine fever virus, pseudorabies virus, porcine parvovirus, swine vesicular disease virus, and foot-and-mouth disease virus may cause diseases with similar clinical symptoms, PCR detection of all PEVs closes a diagnostic gap and offers the opportunity to use comprehensive PCR procedures for the diagnosis of all relevant viruses causing such symptoms.

Different effects of nonintercalative antitumor drugs on DNA triple helix stability: SN-18071 promotes triple helix formation.

The interaction of the nonintercalating bisquaternary ammonium heterocyclic drugs SN-18071 and SN-6999 with a DNA triple helix has been studied using thermal denaturation and CD spectroscopy. Our data show, that both minor groove binders can bind to the triple helix of poly(dA).2poly(dT) under comparable ionic conditions, but they influence the stability of the triplex relative to the duplex structure of poly(dA).poly(dT) in a different manner. SN-18071, a ligand devoid of forming hydrogen bonds, can promote triplex formation and thermally stabilizes it up to 500 mM Na+ concentration. SN-6999 destabilizes the triplex to duplex equibilirium whereas it stabilizes the duplex. The binding constant of SN-18071 is found to be greater than that to the duplex. The stabilizing effect of SN-18071 is explained by electrostatic interactions of three ligand molecules with the three grooves of the triple stranded structure. From the experiments it is concluded that SN-6999 binds to the triplex minor groove thereby destabilizing the triplex similar as previously reported for netropsin.

Hairpin polyamides that use parallel and antiparallel side-by-side peptide motifs in binding to DNA.

Pt-bis-netropsin is a synthetic sequence-specific DNA-binding ligand comprizing two netropsin-like fragments which are linked in a tail-to-tail manner via a cis-diammineplatinum (II) residue. The CD studies and thermodynamic characterization of the DNA-binding properties exhibited by this compound reveal that it forms two types of complexes with poly[d(AT)].poly[d(AT)] and DNA oligomers containing nucleotide sequences 5'-CC(TA)n CC-3', with n = 4, 5 and 6. The first type corresponds to the binding of Pt-bis-netropsin in the extended conformation and is characterized by the saturating ratio of one bound Pt-bis-netropsin molecule per 9 AT-base pairs. The second type of the complex corresponds to the binding of Pt-bis-netropsin to DNA in the folded hairpin form. The binding approaches saturation level when one Pt-bis-netropsin molecule is bound per four or five AT-base pairs. The hairpin form of Pt-bis-netropsin complex is built on the basis of parallel side-by-side peptide motif which is inserted in the minor DNA groove. The CD spectral profiles reflecting the binding of Pt-bis-netropsin in the hairpin form are different from those observed for binding of another bis-netropsin with the sequence Lys-Gly-Py-Py-Gly-Gly-Gly-Py-Py-Dp, where Py is a N-propylpyrrole amino acid residue and Dp is a dimethylaminopropylamino residue. The hairpin form of this bis-netropsin is formed on the basis of antiparallel side-by-side peptide motif. The CD spectra obtained for complexes of this polyamide in the hairpin form with poly[d(AT)].poly[d(AT)] exhibit positive CD band with a peak at 325 nm, whereas the CD spectral profiles for the second complex of Pt-bis-Nt with poly[d(AT)].poly[d(AT)] and short DNA oligomers have two intense positive CD bands near 290 nm and 328 nm. This reflects the fact that two bis-netropsins use different structural motifs on binding to DNA in the hairpin form.

DNA-drug interaction measurements using surface plasmon resonance.

The interactions of the drugs 2,7-bis[(diethylamino)-ethoxy]-fluoren-9-one dihydrochloride (Tilorone), 2,7-bis[(dipropylamino)-acetamido]-fluoren-9-one dihydrochloride (FA-2), 2'-(4-hydroxyphenyl)-5-(4-methyl-1-piperazinyl)-2,5'-bi-1H-benzimidazole trihydrochloride (Hoechst 33258), and hematoporphyrin IX derivative (HPD) with synthetic self-complementary DNA (36-b.p.; 5'-biotin-spacer-[d(CGCTATATAGCG)]3-3') were studied by SPR (Surface Plasmon Resonance). Monolayers of biotinylated DNA were immobilized on a streptavidin-dextran-gold triple-layer. Small portions of the drugs (approximately 30 pmol/ml) were injected in continuous flow. The mass corresponded to the amount of the bound molecules. Injections of 50 mM sodium hydroxide pulses separated the DNA double strands, releasing the effector molecules. Subsequent treatments with the effectors gave reproducible results. The maximum interaction between drug and DNA was observed in the case of Tilorone. 41 molecules could bind to the 36-b.p. DNA duplex. To investigate the microscopic behavior in condensed nucleic acid phases, SFM (Scanning Force Microscopy)-imaging and polarizing microscopic observations of DNA-effector complexes were carried out. Supplementary UV-absorption thermal denaturation curves of DNA with the above-mentioned effectors in dilute solutions were measured. As an additional aid to understand the geometries of DNA-drug interactions, computer simulations were performed and compared with the experimental data.

DNA sequence recognition of thiazole-containing cross-linked polyamides can be favored.

The binding ability of cross-linked thiazolated polyamides (containing the base sequence-reading elements thiazole(Th)-pyrrole(Py)-pyr-role(Py) and thiazole(Th)-imidazole(Im)-pyrrol(Py) to various DNA dodecamers has been investigated. CD titration experiments at high salt concentration demonstrate that the dimers with a heptanediyl linker (C7 dimer) show a significantly higher sequence specificity than their corresponding monomers. The dimer of Th-Py-Py primarily prefers binding to pure AT sequences and that of Th-Im-Py to the dodecamer sequences containing a GC pair within the central sequence (e.g. AACGTT). Surprisingly, the sequence binding ability is strongly influenced by the presence of a T-A step: e.g. Th-Py-Py has a similar affinity to the sequences TTTAAA and ATCGTA; likewise Th-Im-Py shows a preference for these sequences. The CD results correlate with footprinting data. Related biochemical studies on the effect of polyamides on DNA gyrase activity in vitro show that the C7 dimers most effectively inhibit the enzyme activity compared with the monomers and the natural reference minor groove binder distamycin. The highest inhibitory potency is observed for the Th-Py-Py-dimer. The role of the T-A step in binding of the cross-linked dimer to the minor groove is discussed in light of the sequence recognition of the TATA box binding protein.

Binding of bis-linked netropsin derivatives in the parallel-stranded hairpin form to DNA.

Cis-diammine Pt(II)- bridged bis-netropsin and oligomethylene-bridged bis-netropsin in which two monomers are linked in a tail-to-tail manner bind to the DNA oligomer with the sequence 5'-CCTATATCC-3' in a parallel-stranded hairpin form with a stoichiometry 1:1. The difference circular dichroism (CD) spectra characteristic of binding of these ligands in the hairpin form are similar. They differ from CD patterns obtained for binding to the same duplex of another bis-netropsin in which two netropsin moieties were linked in a head-to-tail manner. This reflects the fact that tail-to-tail and head-to-tail bis-netropsins use parallel and antiparallel side-by-side motifs, respectively, for binding to DNA in the hairpin forms. The binding affinity of cis-diammine Pt(II)-bridged bis-netropsin in the hairpin form to DNA oligomers with nucleotide sequences 5'-CCTATATCC-3' (I), 5'-CCTTAATCC-3' (II), 5'-CCTTATTCC-3' (III), 5'-CCTTTTTCC-3' (IV) and 5'-CCAATTTCC-3' (V) decreases in the order I = II > III > IV > V . The binding of oligomethylene-bridged bis-netropsin in the hairpin form follows a similar hierarchy. An opposite order of sequence preferences is observed for partially bonded monodentate binding mode of the synthetic ligand.

Fractals for multicyclic synthesis conditions of biopolymers. Examples of oligonucleotide synthesis measured by high-performance capillary electrophoresis and ion-exchange high-performance liquid chromatography.

We have developed models of patterns for nucleotide chain growth. These patterns are measurable by high-performance capillary electrophoresis and ion-exchange high-performance liquid chromatography in crude products of solid-phase synthesized 30mer and 65mer oligodeoxyribonucleotide target sequences N. We introduce mathematical methods for finding characteristic values d(o) and p(o) for constant chemical modes of growth as well as d and p for non-constant chemical modes of growth (d = probability of propagation, p = probability of termination). These methods are employed by presenting the accompanying computer software developed by us in C code, Mathematica R languages, and Fortran. Characteristic values of the parameters d, p, and the target nucleotide length N describe the complete composition of the crude product. From this we have developed the relation 2 - [N/(N - 1)]/Da, measurable(N,d) as a universal quantitative measure for multicyclic synthesis conditions (D, fractal dimension and similarity exponent, respectively). We use this mathematical treatment to compare the efficiency of oligodeoxyribonucleotide syntheses of different target length N on polymer support materials. Further, we analyze selected syntheses of short and long oligodeoxyribonucleotides as well as single-stranded DNA sequences by well-known empirical autocorrelation, fast Fourier transformation, and embedding dimension techniques.

Sequence verification by hybridisation with fluorescent octanucleotides as a first step to a fluorescent sequencing by hybridisation protocol.

Three sets of partly overlapping octanucleotides are 5' labelled with derivates of the fluorescence dyes fluorescein-, coumarine- and rhodamine, respectively. Hybridisation conditions are determined, under which all octanucleotides hybridise correctly against complementary target sequences bound on nylon membranes. Target sequences are three synthetic 48-mer oligonucleotides and herring sperm DNA, a positive control containing almost all possible octanucleotides. None of the octanucleotides hybridised to incorrect target sequences. Analysing these results, a given sequence could be unambiguously verified. A feature critical for the accuracy of the hybridisation is the temperature during the last washing step. This temperature can be estimated using the equation T = 19 - 0.4(G + C) + 0.15(G + C)2. Using octanucleotides labelled with three different colors, three hybridisations can be performed simultaneously.

Different behavior of the octadeoxynucleotides d(A-T)4 and d(T-A)4 at high concentrations of cesium fluoride.

High CsF concentrations induce a zig-zag double helix, which we call X-DNA, in poly d(A-T) and also in the octadeoxynucleotide d(T-A)4 while d(A-T)4 remains fixed in a B-DNA form. Intermolecular contacts promote the B-X isomerization of the former oligonucleotide but induce aggregation of the latter. This indicates that there is an intramolecular factor, presumably base stacking in the T-A steps, stabilizing the X-DNA conformation.

Improvement of recombinant gene expression in Escherichia coli for glucose-controlled continuous and fed-batch cultures.

Escherichia coli TG1 (pHRW500) permanently expressed the human interferon alpha 1 gene (ifn alpha 1) directed by the tryptophan promoter (trpP.O) during continuous and fed-batch cultivation with a limited supply of glucose. The expression of ifn alpha 1 could be improved after insertion of the catabolite activator region (cap) upstream to trpP.O during cultivation of the modified E. coli TG1(pHRW500cap) in glucose-controlled continuous and fed-batch cultures. The cap-mediated stimulatory effect on the expression of cap-trpP.O-ifn alpha 1 increased with decreasing dilution rate. These results are in line with the increase in the level of cAMP with declining dilution rate and the well-known positive effects of cAMP-catabolite gene activator protein (CAP) at the transcriptional level. In addition, expression of the galactokinase gene (trpP.O-galK) in E. coli TG1(pDR720) could be improved in the same way with cap-trpP.O-galK in E. coli TG1(pDR720cap). Determinations of plasmid copy numbers, cellular amounts of galactokinase-mRNA, activity of galactokinase (AGalK) and the concentration of galactokinase at various dilution rates (D) strengthen the conclusion that the increase in AGalK with decreasing D was indeed due to the cap-mediated enhancement of transcription of the galK gene. We suggest that expression of other recombinant genes directed by various promoters that allow permanent transcription during growth with limited glucose supply in chemostat and fed-batch fermentors can be improved by appropriate insertion of the cap region.

Hairpin-dimer equilibrium of a parallel-stranded DNA hairpin: formation of a four-stranded complex.

The 24mer deoxyoligonucleotide 3'-d(T)10-5'-5'-d(C)4- d(A)10-3'(psC4) with an uncommon 5'-p-5'phosphodiester linkage was designed to enable the formation of a hairpin structure with unusual parallel-stranded stem. As reference hairpin structure with an antiparallel-stranded stem, the 24mer 5'-d(T)10-d(C)4-d(A)10-3'(apsC4) was chosen. The behaviour of these oligonucleotides at different temperatures, DNA and salt concentrations was characterised by a combination of UV melting, CD, CD melting, infrared and Raman spectroscopy, infrared melting and analytical ultracentrifugation. The parallel-stranded hairpin structure was found to be formed by psC4 only under conditions of low DNA concentration and low salt concentration. Increase of the NaCl concentration beyond the physiological level or high DNA concentration supports the formation of intermolecular multi-stranded structures. The experimental data are in agreement with a four-stranded complex formed by two molecules of psC4. The base pairing model of this asymmetric four-stranded complex is based on the pyrimidine motif of a triple helix with two bifurcated hydrogen bonds at the O4 of the thymine each directed towards one of the amino protons of both adenines. In contrast, the reference oligonucleotide apsC4 forms only an antiparallel-stranded hairpin under all experimental conditions.

Conformational properties of the octanucleotide d(pG-A-T-C-T-T-T-T) and its intermediates.

In studies of some sequence dependent structural factors and stabilizing effects of oligonucleotides the octanucleotide d(pG-A-T-C-T-T-T-T) was of particular interest in view of the presence of an endonuclease cleavage site. Its chemical synthesis is reported as well as the structural effects in CD spectral properties of the octanucleotide and of some related compounds.

Evidence for a DNA triplex in a recombination-like motif: I. Recognition of Watson-Crick base pairs by natural bases in a high-stability triplex.

Data are presented on a triplex type with two parallel homologous strands for which triplex formation is almost as strong as duplex formation at least for some sequences and even at pH 7 and 0.2 M NaCl. The evidence mainly rests upon comparing thermodynamic properties of similar systems. A paperclip oligonucleotide d(A12C4T12C4A12) with two linkers C4 obviously can form a triplex with parallel back-folded adenine strand regions, because the single melting transition of this complex splits in two transitions by introducing mismatches only in the third strand region. Respectively, a hairpin duplex d(A12C4T12) and a single strand d(A12) form a triplex as a 1:1 complex in which the second adenine strand is parallel oriented to the homologous one in the Watson-Crick paired duplex. In this system the melting temperature T(m) of the triplex is practically the same as that of the duplex d(A12)-d(T12), at least within a complex concentration range of 0.2-4.0 microM. The melting behaviour of complexes between triplex stabilizing ligand BePI and the system hairpin duplex plus single strand supports the triplex model. Non-denaturing gel electrophoresis suggests the existence of a triplex for a system in which five of the twelve A-T*A base triads are substituted by C-G*C base triads. The recognition between any substituted Watson-Crick base pair (X-Y) in the hairpin duplex d(A4XA7C4T7YT4) and the correspondingly replaced base (Z) in the third strand d(A4ZA7) is mutually selective. All triplexes with matching base substitutions (Z = X) have nearly the same stability (T(m) values from 29 to 33.5 degrees C), whereas triplexes with non-matching substitutions (Z not equal X) show a clearly reduced stability (T(m) values from 15 to 22 degrees C) at 2microM equimolar oligonucleotide concentration. Most nucleic acid triple helices hitherto known are limited to homopurine-homopyrimidine sequences in the target duplex. A stable triplex formation is demonstrated for inhomogeneous sequences tolerating at least 50% pyrimidine content in the homologous strands. On the basis of the surprisingly similar thermodynamic parameters for duplex and triplex, and of the fact that this triplex type seems to be more stable than many other natural DNA triplexes known, and on the basis of semiempirical and molecule mechanical calculations, we postulate bridging interactions of the third strand with the two other strands in the triplex according to the recombination motif. This triplex, denoted by us 'recombination-like form', tolerates heterogeneous base sequences.

RepR protein expression on plasmid pIP501 is controlled by an antisense RNA-mediated transcription attenuation mechanism.

Expression of the rate-limiting initiator protein RepR of plasmid pIP501 is controlled by the antisense RNAIII. Mutational alteration of individual G residues within the single-stranded loops of RNAIII led to an increase in copy number. In contrast to the G-rich single-stranded loops, two smaller AT-rich loops of RNAIII were found to be dispensable for its inhibitory function. Reciprocal mutations in the same loop compensated for each other's effect, and a destabilization of the major stem structure of RNAIII also resulted in an increased copy number. These data were consistent with the idea that the interaction of RNAIII with its target starts with the formation of a kissing complex between the single-stranded loops of both molecules. The repR mRNA leader sequence, which includes the target of RNAIII, is able to assume two alternative structures due to the presence of two inverted repeats the individual sequences of which are mutually complementary. In the presence of the antisense RNAIII, one of these inverted repeats (IR2) is forced to fold into a transcriptional terminator structure that prevents transcription of the repR gene. In the absence of RNAIII, formation of the transcriptional terminator is prevented and expression of the essential repR gene can proceed normally. This antisense RNA-driven transcriptional attenuation mechanism was supported by extensive deletional analysis and direct evidence that IR2 functions as a transcriptional terminator.

CD studies on the conformation of some deoxyoligonucleotides containing adenine and thymine residues.

CD studies of the deoxyoligomer series d(pT)(n) and d(pA)(n) show increasing CD maxima for oligo (dT)'s with chain length variation from two to seven, while oligo (dA)'s exhibit a decreasing CD maximum. Concentrated solutions of NaClO(4) cause a decrease in the CD of longer oligo (dT)'s towards the CD of d(pT)(2) which is different from oligo dA's. Probably base-sugar interactions are important in the observed conformational effects. The chemically synthesized oligomers dpApApTpT and dpTpApTpA show deviations in their CD spectra which reflect a dominating conformational effect of d(pA)(2) in the former but not in the alternating isomer.

Thymidine photoproducts of non-cyclobutane type as a crucial event in the conformation of UV-irradiated DNA.

The UV-light induced conformational effects in deoxyoligonucleotides and polynucleotides have been analyzed by CD measurements and isolation of the photoproducts. The results demonstrate that the essential photoproduct formed on irradiation of thymidylyl-thymidine at 254 nm is of non-cyclobutane type and may be correlated to the primary photoproduct formed in DNAs at low doses Formation of thymine dimers of cyclobutane-type structure appears to be a secondary product generated by treatment with formic acid.

Studies on synthesis and CD properties of complementary and self-complementary deoxyoligonucleotides.

Two types of deoxyoligonucleotides, a nona- and two dodecamers have been synthesized as a basis of various aspects in structural and functional studies of the DNA. Using different methodological approaches highly purified deoxyoligomers were obtained and characterized by UV absorption and CD measurements. As an example the results presented are concerned with the synthesis of the following dodecanucleotide containing the recognition site of Hind III : dC-A-C-A-A-G-C-T-T-G-T-G. CD properties and some structural related effects of two complementary and a selfcomplementary deoxyoligomers are described.