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20 results on '"Hirschfeld E"'

1. DNA Sequence Recognition of Thiazole-Containing Cross-Linked Polyamides Can Be Favored by T-A Steps

Author

Burckhardt, G., Simon, H., Birch-Hirschfeld, E., Kittler, L., Sharma, S.K., Lown, J.W., and Zimmer, C.

Abstract

AbstractThe 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 (C7dimer) 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 dode-camer 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 TTTAAAand 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 vitroshow that the C7dimers 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.

Published
2002
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2. Hydration of biological molecules: Lipids versus nucleic acids

Author

Pohle, W., Gauger, D. R., Dornberger, U., Birch-Hirschfeld, E., Selle, C., Rupprecht, A., and Bohl, M.

Abstract

We used FTIR spectroscopy to comparatively study the hydration of films prepared from nucleic acids (DNA and double-stranded RNA) and lipids (phosphatidylcholines and phosphatidylethanolamines chosen as the most abundant ones) at room temperature by varying the ambient relative humidity in terms of solvent-induced structural changes. The nucleic acids and phospholipids both display examples of polymorphism on the one hand and structural conservatism on the other; even closely related representatives behave differently in this respect. DNA undergoes a hydration-driven A–B conformational transition, but RNA maintains an A-like structure independently of the water activity. Similarly, a main transition between the solid and liquid-crystalline phases can be induced lyotropically in certain phosphatidylcholines, while their phosphatidylethanolamine counterparts do not exhibit chain melting under the same conditions. A principal difference concerning the structural changes that occur in the studied biomolecules is given by the relevant water–substrate stoichiometries. These are rather high in DNA and often low in phospholipids, suggesting different mechanisms of action of the hydration water that appears to induce structural changes on global- and local-mode levels, respectively. © 2002 Wiley Periodicals, Inc. Biopolymers (Biospectroscopy) 67: 499–503, 2002

Published
2002
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3. Binding of Bis-linked Netropsin Derivatives in the Parallel-Stranded Hairpin Form to DNA

Author

Surovaya, A.N., Burckhardt, G., Grokhovsky, S.L., Birch-Hirschfeld, E., Nikitin, A.M., Fritzsche, H., Zimmer, Ch., and Gursky, G.V.

Abstract

AbstractCis-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.

Published
2001
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5. Selforganization of Nucleic Acids Visualized by Scanning Force Microscopy

Author

Bohley, C., Martini, T., Bischoff, G., Lindau, S., Birch-Hirschfeld, E., Kargov, S., Meister, W.-V., Barthel, J., and Hoffmann, S.

Abstract

AbstractSFM-investigations visualize domains and microdomains of selforganizational DNA- and RNA-adlayer patterns on graphite substrates and contribute by this to general approaches of elucidating biomesogen pre-life states complexity.

Published
1997
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6. Possibilities of Triplex-Formation by 21-Mer Oligodeoxyribonucleotides as Analogs of TetrahymenaPre-rRNA Fragments

Author

Meister, W-V, Kargov, S.I., Birch-Hirschfeld, E., Bohley, C., Burckhardt, G., Bischoff, G., Bischoff, R., Gromann, U., and Hoflfmann, S.

Abstract

AbstractA potential DNA triple helix of 21-mer oligodeoxyribonucleotides was synthesized and characterized. The strands were chosen to study the interaction of internal guide and intervening sequences analogs as well as adjacent 3′and 5′exon parts around the splicing site of Tetrahymenapre-rRNA. Further in parallel works a series of different RNA and DNA strands was synthesized and combined yielding a suitable order of stability. Here we want to show an isolated examination of a DNA-strand triple helix with defined sequences containing a central mismatched base arrangement and T-A-T bases at the ends.

Published
1998
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8. Antiviral Activity of Antisense Oligonucleotides Against Various Targets of Herpes Simplex Virus 1 (Hsv1) and Coxsackievirus B3 (Cvb3) Genome

Author

Birch-Hirschfeld, E., Knorre, C.M., Stelzner, A., and Schmidtke, M.

Abstract

AbstractThe influence of chemical modification on the antiviral activity of oligonucleotides was studied on Green monkey kidney cells (GMK) using a known antisense oligodeoxynucleotide (AS-ODN) directed against the IE-110 gene of HSVl. The highest antiviral activity was observed with ODNs carrying exclusively phosphothioate internucleotide linkages. CVB3-specific ODNs of this type were synthesized and successfully tested for antiviral activity on HeLa cells.

Published
1997
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9. Protein−DNA Double and Triple Layers:  Interaction of Biotinylated DNA Fragments with Solid Supported Streptavidin Layers

Author

Ijiro, K., Ringsdorf, H., Birch-Hirschfeld, E., Hoffmann, S., Schilken, U., and Strube, M.

Abstract

The specific interaction of streptavidin with biotinylated lipids at the air−water interface leads to a formation of optically anisotropic two-dimensional streptavidin (2-D) crystals, where two of the original four biotin-binding sites remain free. These assembled streptavidin matrixes were used as a template for docking of double-stranded oligonucleotides biotinylated at a terminal or a centered position. A biotinylated lipid monolayer was deposited on an electrode of a quartz crystal microbalance (QCM), and docking processes of the protein and the oligonucleotides were detected as frequency changes related by mass changes on the QCM. The bis-biotinylated double-stranded oligonucleotides bound to the primary streptavidin layers made it possible to engineer protein−DNA−protein triple layers. Hydrolysis by a restriction endonuclease indicates that the biotinylated DNA bound to the streptavidin layers remains bioactive.

Published
1998

10. Penetration and Antiviral Activity of Coxsackievirus B3 (Cvb3)-Specific Phosphorothioate Oligodeoxynucleotides (Ps-Odn)

Author

Schmidtke, M., Knorre, C., Blei, L., Stelzner, A., and Birch-Hirschfeld, E.

Abstract

AbstractThe antiviral activity of PS-ODNs, complementary to different regions of the CVB3 genome, was investigated under in vitroconditions. Inhibition of CVB3 replication was detected only after prolonged pretreatment of HeLa cells with antiviral active PS-ODNs, but not when virus and PS-ODN were applicated simultaneously. Results from flow cytometric analysis indicate that a low cellular uptake of anti-CVB3 oligonucleotides into HeLa cells might be a reason for their moderate antiviral activity.

Published
1998
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12. Studies on the Interaction of Dna-Ligands with Modified Parallel-Stranded Duplex-Dna Oligomers

Author

Förtsch, I., Birch-Hirschfeld, E., Jovin, T.M., Stelzner, A., and Zimmer, C.

Abstract

AbstractWe have investigated the minor groove binders netropsin (Nt) and related lexitropsins for possible interactions with parallel-stranded DNA (ps-DNA). The fluorescence emission spectra and their temperature dependence between 4°C and 30°C led to two conclusions: (i) The specific ligand Nt induces a conversion of the ps-DNA to an antiparallel-stranded DNA (aps-DNA) with mismatched base pairs, a reaction which is much less pronounced for the imidazole-containing analogs, (ii) The more weakly binding imidazole-bearing netropsin-analogs may bind to ps-DNA.

Published
1998
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13. RepR protein expression on plasmid pIP501 is controlled by an antisense RNA-mediated transcription attenuation mechanism

Author

Brantl, S, Birch-Hirschfeld, E, and Behnke, D

Abstract

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.

Published
1993
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15. Conformational properties of the octanucleotide d(pG-A-T-C-T-T-T-T) and its intermediates.

Author

Weiss, R, Birch-Hirschfeld, E, Zimmer, C, and Luck, G

Abstract

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.

Published
1979
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17. End-specific covalent photo-dependent immobilisation of synthetic DNA to paramagnetic beads.

Author

Penchovsky, R, Birch-Hirschfeld, E, and McCaskill, J S

Abstract

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.

Published
2000
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18. End-specific covalent photo-dependent immobilisation of synthetic DNA to paramagnetic beads

Author

Birch-Hirschfeld, E., Penchovsky, R., and McCaskill, J.S.

Abstract

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.

Published
2000

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

Author

Zimmer, Ch., Birch-Hirschfeld, E., and Weiss, R.

Abstract

CD studies of the deoxyoligomer series d(pT)n and d(pA)n show increasing CD maxima lor oligo (dT)'s with chain length variation from two to seven, while oligo (dT)'s exhibit a decreasing CD maximum. Concentrated solutions of KaClO4 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.

Published
1974
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