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1.
Karin Sandstr?m Sebastian W?rml?nder Astrid Gr?slund Mikael Leijon 《Journal of molecular biology》2002,315(4):737-748
Optimisation of DNA triplex stability is of fundamental importance in the anti-gene strategy. In the present work, thermal denaturation studies by UV-spectrophotometry and structural and dynamical characterizations by NMR spectroscopy have been used systematically to investigate the effects on triplex stability of isolated insertions of different base triplets into an otherwise homogeneous 15-mer dT x dA-dT oligo-triplex. It is found that insertion of a single central C(+) x G-C or T x D-T triplet (D=2,6-diaminopurine) leads to a pronounced stabilization (up to 20 deg. C if the cytosine base is C5 methylated) at acidic as well as neutral pH. To a smaller degree, this is the case also for a C(+) x I-C triplet insertion.Using imino proton exchange measurements, it is shown that insertion of a DT base-pair in the underlying duplex perturbs the intrinsic A-tract structure in the same way as has been shown for a GC insert. We propose that the intrinsic properties of A-tract duplex DNA (e. g. high propeller twist and rigidity) are unfavourable for triplex formation and that GC- or DT-inserts stabilize the triplex by interfering with the A-tract features of the underlying duplex. The C(+) x I-C triplet without the N2 amino group in the minor groove is readily accommodated within the typical, highly propeller-twisted A-tract structure. This might be related to its smaller effect on the stability of the corresponding triplex.These results may be valuable for understanding DNA triplex formation in vivo as well as for the design of efficient triplex-forming oligonucleotides and in choosing suitable target sequences in the anti-gene strategy. 相似文献
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David A. Rusling Guomei Peng Natarajan Srinivasan Keith R. Fox Tom Brown 《Nucleic acids research》2009,37(4):1288-1296
We have prepared triplex-forming oligonucleotides containing the nucleotide analogue 5-dimethylaminopropargyl deoxyuridine (DMAPdU) in place of thymidine and examined their ability to form intermolecular triple helices by thermal melting and DNase I footprinting studies. The results were compared with those for oligonucleotides containing 5-aminopropargyl-dU (APdU), 5-guanidinopropargyl-dU (GPdU) and 5-propynyl dU (PdU). We find that DMAPdU enhances triplex stability relative to T, though slightly less than the other analogues that bear positive charges (T << PdU < DMAPdU < APdU < GPdU). For oligonucleotides that contain multiple substitutions with DMAPdU dispersed residues are more effective than clustered combinations. DMAPdU will be especially useful as a nucleotide analogue as, unlike APdU and GPdU, the base does not require protection during oligonucleotide synthesis and it can therefore be used with other derivatives that require mild deprotection conditions. 相似文献
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Cation and sequence effects on stability of intermolecular pyrimidine-purine-purine triplex. 总被引:1,自引:7,他引:1
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A differential effect is found of various bivalent cations (Ba2+, Ca2+, Mg2+, Cd2+, Co2+, Mn2+, Ni2+, Zn2+ and Hg2+) on stability of intermolecular Py-Pu-Pu triplex with different sequence of base triads. Ca2+, Mg2+, Cd2+, Co2+, Mn2+, Ni2+ and Zn2+ do stabilize the d(C)n d(G)n d(G)n triplex whereas Ba2+ and Hg2+ do not. Ba2+, Ca2+, Mg2+ and Hg2+ destabilize the d(TC)n d(GA)n d(AG)n triplex whereas Cd2+, Co2+, Mn2+, Ni2+ and Zn2+ stabilize it. The complexes we observe are rather stable because they do not dissociate during time of gel electrophoresis in the co-migration experiments. Chemical probing experiments with dimethyl sulfate as a probe indicate that an arbitrary homopurine-homopyrimidine sequence forms triplex with corresponding purine oligonucleotide in the presence of Mn2+ or Zn2+, but not Mg2+. In the complex the purine oligonucleotide has antiparallel orientation with respect to the purine strand of the duplex. Specifically, we have shown the formation of the Py-Pu-Pu triplex in a fragment of human papilloma virus HPV-16 in the presence of Mn2+. 相似文献
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Characterization of the photodimers from DNA 总被引:2,自引:0,他引:2
D Weinblum 《Biochemical and biophysical research communications》1967,27(3):384-390
7.
Positively charged oligonucleotides overcome potassium-mediated inhibition of triplex DNA formation. 总被引:2,自引:4,他引:2
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The formation of triplex DNA using unmodified, purine-rich oligonucleotides (ODNs) is inhibited by physiologic levels of potassium. Changing negative phosphodiester bonds in a triplex forming oligonucleotide (TFO) to neutral linkages causes a small increase in triplex formation. When phosphodiester bonds in a TFO are converted to positively-charged linkages the formation of triplex DNA increases dramatically. In the absence of KCl, a 17mer TFO containing 11 positively-charged linkages at a concentration of 0.2 microM converts essentially all of a 30 bp target duplex to a triplex. Less than 15% of the target duplex is shifted by 2 microMolar of the unmodified TFO. In 130 mM KCl, triplex formation is undetectable using the unmodified TFO, while triplex formation is nearly complete with 2 microM positively-charged TFO. With increasing potassium, TFOs containing a higher proportion of modified linkages show enhanced triplex formation compared with those less modified. In contrast with unmodified TFOs, triplex formation with more heavily modified TFOs can occur in the absence of divalent cations. We conclude that replacement of phosphodiester bonds with positively-charged phosphoramidate linkages results in more efficient triplex formation, suggesting that these compounds may prove useful for in vivo applications. 相似文献
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Our recent studies indicate that enzymatic hydrolysis of the intradimer phosphodiester linkage constitutes an early reaction in processing UV light-induced cis-syn-cyclobutane pyrimidine dimers in cultured human fibroblasts. Before characterizing the resultant modified dimer sites in cellular DNA, it is necessary to establish experimental conditions that can distinguish backbone-nicked from intact dimers. We thus constructed a model substrate, i.e. p(dT) 10 <> p(dT)10 containing a dimer with a ruptured sugar-phosphate bond, and determined the products of its reaction with snake venom phosphodiesterase and alkaline phosphatase, an enzymatic digestion mixture known to release dimers from UV-treated poly(dA).poly(dT) within trinucleotides with the photoproduct intact at the 3'-end (d-TpTT). The model substrate was prepared by (i) end labeling p(dT)9 using terminal deoxynucleotidyltransferase and [3H]thymine-labeled TTP; and (ii) annealing the chromatographically purified p(dT)10 oligomers to poly(dA) followed by UV (290 nm)-induced ligation. Photoligated 20-mers with one radioactive and modified internal dimer were isolated and enzymatically digested. High performance liquid chromatographic analysis of the reaction products revealed a novel trithymidylate with its backbone severed at the 3'-terminus (d-TpT<>dT), demonstrating that this procedure could discriminate between intact and modified dimers. The procedure was then exploited to show that (i) Escherichia coli DNA photolyase can monomerize, albeit inefficiently, backbone-ruptured dimers; and (ii) phage T4 polynucleotide kinase can catalyze the phosphorylation of d-TpT<>dT, thus facilitating the development of a sensitive postlabeling assay suitable for modified dimer detection under biologically relevant conditions. 相似文献
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Polyamines favor DNA triplex formation at neutral pH 总被引:15,自引:0,他引:15
The stability of triplex DNA was investigated in the presence of the polyamines spermine and spermidine by four different techniques. First, thermal-denaturation analysis of poly[d(TC)].poly[d(GA)] showed that at low ionic strength and pH 7, 3 microM spermine was sufficient to cause dismutation of all of the duplex to the triplex conformation. A 10-fold higher concentration of spermidine produced a similar effect. Second, the kinetics of the dismutation were measured at pH 5 in 0.2 M NaCl. The addition of 500 microM spermine increased the rate by at least 2-fold. Third, in 0.2 M NaCl, the mid-point of the duplex-to-triplex dismutation occurred at a pH of 5.8, but this was increased by nearly one pH unit in the presence of 500 microM spermine. Fourth, intermolecular triplexes can also form in plasmids that contain purine.pyrimidine inserts by the addition of a single-stranded pyrimidine. This was readily demonstrated at pH 7.2 and 25 mM ionic strength in the presence of 100 microM spermine or spermidine. In 0.2 M NaCl, however, 1 mM polyamine is required. Since, in the eucaryotic nucleus, the polyamine concentration is in the millimolar range, then appropriate purine-pyrimidine DNA sequences may favor the triplex conformation in vivo. 相似文献
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Effect of DNA target sequence on triplex formation by oligo-2'-deoxy- and 2'-O-methylribonucleotides
The interactions of pyrimidine deoxyribo- or 2′-O-methylribo-psoralen-conjugated, triplex-forming oligonucleotides, psTFOs, with a 17-bp env-DNA whose purine tract is 5′-AGAGAGAAAAAAGAG-3′, or an 18-bp gag-DNA whose purine tract is 5′-AGG GGGAAAGAAAAAA-3′, were studied over the pH range 6.0–7.5. The stability of the triplex formed by a deoxy-env-psTFO containing 5-methylcytosines and thymines decreased with increasing pH (Tm = 56°C at pH 6.0; 27°C at pH 7.5). Replacement of 5-methylcytosines with 8-oxo-adenines reduced the pH dependence, but lowered triplex stability. A 2′-O-methyl-env-psTFO containing uracil and cytosine did not form a triplex at pH 7.5. Surprisingly, replacement of the cytosines in this oligomer with 5-methylcytosines dramatically increased triplex stability (Tm = 25°C at pH 7.5), and even greater stability was achieved by selective replacement of uracils with thymines (Tm = 37°C at pH 7.5). Substitution of the contiguous 5-methylcytosines of the deoxy-gag-psTFO with 8-oxo-adenines significantly reduced pH dependence and increased triplex stability. In contrast to the behavior of env-specific TFOs, triplexes formed by 2′-O-methyl-gag-psTFOs did not show enhanced stability. Replacement of the 3′-terminal phosphodiester of the TFO with a methylphosphonate group significantly increased the resistance of both deoxy- and 2′-O-methyl-TFOs to degradation by 3′-exonucleases, while maintaining triplex stability. 相似文献
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Irradiation of G-quadruplex forming human telomeric DNA with ultraviolet B (UVB) light results in the formation of anti cyclobutane pyrimidine dimers (CPDs) between loop 1 and loop 3 in the presence of potassium ions but not sodium ions. This was unexpected because the sequences involved favor the nonphotoreactive hybrid conformations in K+ solution, whereas a potentially photoreactive basket conformation is favored in Na+ solution. To account for these contradictory results, it was proposed that the loops are too far apart in the basket conformation in Na+ solution but close enough in a two G-tetrad basket-like form 3 conformation that can form in K+ solution. In the current study, Na+ was still found to inhibit anti CPD formation in sequences designed to stabilize the form 3 conformation. Furthermore, anti CPD formation in K+ solution was slower for the sequence previously shown to exist primarily in the proposed photoreactive form 3 conformation than the sequence shown to exist primarily in a nonphotoreactive hybrid conformation. These results suggest that the form 3 conformation is not the principal photoreactive conformation, and that G-quadruplexes in K+ solution are dynamic and able to access photoreactive conformations more easily than in Na+ solution. 相似文献
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D A Hartman S R Kuo T R Broker L T Chow R D Wells 《The Journal of biological chemistry》1992,267(8):5488-5494
A conformational distortion in the DNA duplex at the regulatory region of human papillomavirus type-11 next to an intermolecular triplex, formed with a synthetic oligonucleotide, was investigated with several chemical probes. The sequence targeted for triplex formation borders on the binding sites for the regulatory proteins encoded by the viral E2 open reading frame. Dimethyl sulfate, diethyl pyrocarbonate, and OsO4 all react to a greater extent with nucleotides in the duplex that are immediately adjacent to the triplex as compared to other bases throughout the duplex. This hypermodification was observed on both the polypurine and polypyrimidine strands of the duplex DNA. Similar hyperreactivity of bases flanking a triplex also was seen when the contiguous target polypurine tract was effectively extended by mutating interrupting pyrimidines in the human papillomavirus type-11 sequence to purines. We propose that this hyperreactivity is due to a structural distortion caused by the junction between the triplex and the duplex tracts. 相似文献
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Effect of competing self-structure on triplex formation with purine-rich oligodeoxynucleotides containing GA repeats. 总被引:1,自引:8,他引:1
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Competition between triplex formation with double-stranded DNA and oligonucleotide self-association was investigated in 23mer GA and GT oligonucleotides containing d(GA)5 or d(GT)5 repeats. Whereas triplex formation with GT oligonucleotides was diminished when temperature increased from 4 to 37 degrees C, triplex formation with GA oligonucleotides was enhanced when temperature increased within the same range due to the presence of competing intermolecular GA oligonucleotide self-structure. This self-structure was determined to be a homoduplex stabilized by the internal GA repeats. UV spectroscopy of these homoduplexes demonstrated a single sharp transition with rapid kinetics (Tm = 38.5-43.5 degrees C over strand concentrations of 0.5-4 microM, respectively, with transition enthalpy, delta H = -89 +/- 7 kcal/mol) in 10 mM MgCl2, 100 mM NaCl, pH 7.0. Homoduplex formation was strongly stabilized by multivalent cations (spermine > Mg2+ = Ca2+) and destabilized by low concentrations of monovalent cations (K+ = Li+ = Na+) in the presence of divalent cations. However, unlike GA or GT oligonucleotide-containing triplexes, the homoduplex formed even in the absence of multivalent cations, stabilized by only moderate concentrations of monovalent cations (Li+ > Na+ > K+). Through the development of multiple equilibrium states and the resulting depletion of free oligonucleotide, it was found that the presence of competing self-structure could decrease triplex formation under a variety of experimental conditions. 相似文献
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Ken-ichi Haruna Haruka Iida Sei-ichi Nishimoto Kazuhito Tanabe 《Bioorganic & medicinal chemistry》2013,21(10):2682-2686
A functionality for regulating hole transport efficiency is a prerequisite for the utilization of DNA duplexes as nanodevices. Herein, we report the regulation of hole transport in anthraquinone-tethered DNA with dual triplex forming sites. Long-range photooxidation experiments showed that hole transport was effectively suppressed by the formation of triplex at low temperature, while it was recovered by dissociation to the duplex at higher temperature. Variation of temperature induced the formation and dissociation of the third strand at each triplex region individually, leading to the stepwise regulation of hole transport in DNA. 相似文献
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T Antony T Thomas A Shirahata L H Sigal T J Thomas 《Antisense & nucleic acid drug development》1999,9(2):221-231
We synthesized seven homologs of spermine (H2N(CH2)3NH(CH2)nNH(CH2)3NH2, where n = 2-9; n = 4 for spermine) and studied their effects on melting temperature (Tm), conformation, and precipitation of poly(dA).2poly(dT). The triplex DNA melting temperature, Tm1 was 34.4 degrees C in the presence of 150 mM KCl. Addition of spermine homologs increased Tm1 in a concentration-dependent and structure-dependent manner, with 3-6-3 (n = 6) exerting optimal stabilization. The dTm1/dlog[polyamine] values were 9-24 for these compounds. The duplex melting temperature, Tm2 was insensitive to homolog concentration and structure, suggesting their ability to stabilize triplex DNA without altering the stability of the underlying duplex. Circular dichroism spectral studies revealed psi-DNA formation in a concentration-dependent and structure-dependent manner. Phase diagrams were constructed showing the critical ionic/polyamine concentrations stabilizing different structures. These compounds also exerted structural specificity effects on precipitating triplex DNA. These data provide new insights into the ionic/structural determinants affecting triplex DNA stability and indicate that 3-6-3 is an excellent ligand to stabilize poly(dA).2poly(dT) triplex DNA under physiologic ionic conditions for antigene therapeutics. 相似文献
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The cyclobutane ring (CB) puckering of a cis–syn DNA photodimer (cis–syn d-T[p]T) differs from that of a cis–syn RNA photodimer (cis–syn r-U [p] U) [J.-K. Kim and J. L. Alderfer (1992) Journal of Biomolecular Structure and Dynamics, Vol. 9 , p. 1705]. In cis–syn d-T [p] T, interconversion of the CB ring between CB+ and CB? is observed, while in cis–syn r-U [p] U only CB? is observed. In the CB+ conformation, the two thymine rings of the dimer are twisted in a right-handed fashion, as are the bases in B-form DNA. In case of CB? they are twisted in a left-handed fashion. The C5 (base) and/or C2′ (sugar) substituents apparently affect the CB ring flexibility in cis–syn d-T [p] T and cis–syn r-U [p] U. To study the effects of the C5 substituent on CB ring flexibility, two-dimensional nuclear Overhauser effect (NOE) and 31P-nmr experiments were performed on cis–syn d-T [p] U, cis–syn d-U [p] T, and cis–syn d-U [p] U photodimers to investigate the CB puckering mode and overall molecular conformation and dynamics. The NOE results indicate the 5-methyl group in the photodimer induces conformational flexibility of the CB ring. In cis–syn d-T [p] U and cis–syn d-U [p] T, both CB+ and CB? puckering modes are observed. This indicates interconversion between two modes takes place as observed in cis–syn d-T [p] T. In the case of cis–syn d-U [p] U, only the puckering CB? mode is observed. All three DNA-type dimers—cis–syn d-T [p] U, cis–syn d-U [p] T, cis–syn d-U [p] U—show a characteristic flexibility of glycosidic bonds at the 5′ residue; cis–syn d-T [p] T demonstrates syn–anti interconversion for both the 3′ and 5′ sides, while the others are exclusively anti on the 3′ side. In contrast, the ribophotodimer, cis–syn r-U [p] U, lacking the C5 methyls and having a C2′-OH, demonstrates no conformational flexibility in the CB ring or in either of the glycosidic bonds. Differential flexibility of the three DNA-type dimers (cis–syn d-T [p] U, cis–syn d-U [p] T, cis–syn d-U [p] U) and the RNA dimer (cis–syn r-U [p] U) in the sugar-phosphate backbone region is also apparent from the temperature dependence of the 31P chemical shifts of these photodimers compared to their normal dimer analogues. Over the temperature range 18-63°C, the chemical shift change is reduced 22–42% in three DNA-type dimers, while it is reduced 71% in cis–syn r-U [p] U, suggesting the RNA-type dimer is more rigid. © 1993 John Wiley & Sons, Inc. 相似文献
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F M Chen 《Biochemistry》1991,30(18):4472-4479
Six octadecamers with hairpin motifs have been synthesized and investigated for possible intramolecular triplex formation. Electrophoretic, hypochromic, and CD evidence suggest that d(CCCCTTTGGGGTTTGGGG) and d(GGGGTTTGGGGTTTCCCC) can form G.G.C intramolecular triplexes via double hairpin formation in neutral solutions, presumably with the terminal G tract folding back along the groove of the hairpin duplex. In contrast, d(GGGGTTTCCCCTTTGGGG) and the three corresponding 18-mers containing one G and two C tracts each forms a single hairpin duplex with a dangling single strand. The design of the sequences has led to the conclusion that the two G tracts are antiparallel to each other in such a triplex. Magnesium chloride titrations indicate that Mg2+ is not essential for such an intramolecular triplex formation. The main advantage of our constructs when compared to the intermolecular triplex formation is that the shorter triplex stem can be formed in a much lower DNA concentration. The merit of G.G.C triplex, in contrast to that of C+.G.C, lies in the fact that acidic condition is not required in its formation and will, thus, greatly expand our repertoire in the triplex strategy for the recognition and cleavage of duplex DNA. Spectral binding studies with actinomycin D (ACTD) and chromomycin A3 (CHR) as well as fluorescence lifetime measurements with ethidium bromide (EB) suggest that although hairpin duplexes bind these drugs quite well, the intramolecular triplexes bind poorly. Interestingly, the binding densities for the strong-binding hairpins obtained from Scatchard plots are about one ACTD molecule per oligomeric strand, whereas more than two drug molecules are found in the case of CHR, in agreement with the recent NMR studies indicating that CHR binds to DNA in the form of a dimer. 相似文献