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ABSTRACT: We have used DNase I footprinting to examine DNA triple helix formation at a 12 base pair oligopurine.oligopyrimidine sequence, using oligonucleotides that contain combinations of 2'-aminoethoxy-5-(3-aminoprop-1-ynyl)uridine (bis-amino-U, BAU) and 3-methyl-2-aminopyridine (MeP) in place of T and C, respectively. This combination acts cooperatively to enable high affinity triple helix formation at physiological pH. The affinity depends on the number of substitutions and their arrangement; oligonucleotides in which these analogues are evenly distributed throughout the third strand bind much better than those in which they are clustered together.
FEBS Letters 01/2006; 579(29):6616-20. · 3.54 Impact Factor
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ABSTRACT: Substituted 3H-pyrrolo[2,3-d]pyrimidin-2(7H)-one nucleoside analogues have been synthesised from 5-alkynyl-uridine derivatives, incorporated into triplex forming oligonucleotides (TFOs) and found to selectively bind CG inversions with enhanced affinity compared to T.
Chemical Communications 06/2005; · 6.17 Impact Factor
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ABSTRACT: We have prepared the 2'-aminoethoxy derivative of the S nucleoside ((2AE)S) and incorporated it into triplex-forming oligonucleotides for recognition of TA interruptions within a target oligopurine tract. Fluorescence melting, UV melting, and DNase I footprinting experiments show that (2AE)S has greater affinity than G or S for a single TA interruption. Stable triplexes are formed at pH 6.0 at an 18-mer target site containing two TA interruptions, even though this contains eight C(+).GC triplets. Although (2AE)S and S produce stable triplexes at TA interruptions, they also interact with other base pairs, in particular, CG, although the selectivity for TA improves with increased pH.( 2AE)S is the best nucleoside described so far for recognition of TA within a triple-helix target.
Biochemistry 05/2005; 44(15):5884-92. · 3.42 Impact Factor
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ABSTRACT: We have achieved recognition of all 4 bp by triple helix formation at physiological pH, using triplex-forming oligonucleotides that contain four different synthetic nucleotides. BAU [2'-aminoethoxy-5-(3-aminoprop-1-ynyl)uridine] recognizes AT base pairs with high affinity, (Me)P (3-methyl-2 aminopyridine) binds to GC at higher pHs than cytosine, while (A)PP (6-(3-aminopropyl)-7-methyl-3H-pyrrolo[2,3-d]pyrimidin-2(7H)-one) and S [N-(4-(3-acetamidophenyl)thiazol-2-yl-acetamide)] bind to CG and TA base pairs, respectively. Fluorescence melting and DNase I footprinting demonstrate successful triplex formation at a 19mer oligopurine sequence that contains two CG and two TA interruptions. The complexes are pH dependent, but are still stable at pH 7.0. BAU, (Me)P and (A)PP retain considerable selectivity, and single base pair changes opposite these residues cause a large reduction in affinity. In contrast, S is less selective and tolerates CG pairs as well as TA.
Nucleic Acids Research 02/2005; 33(9):3025-32. · 8.03 Impact Factor
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ABSTRACT: The quantum yield of the fluorescent tricyclic cytosine analogue, 1,3-diaza-2-oxophenothiazine, tC, is high and virtually unaffected by incorporation into both single- and double-stranded DNA irrespective of neighbouring bases (0.17-0.24 and 0.16-0.21, respectively) and the corresponding fluorescence decay curves are all mono-exponential, properties that are unmatched by any base analogue so far. The fluorescence lifetimes increase when going from tC free in solution (3.2 ns) to single- and double-stranded DNA (on average 5.7 and 6.3 ns, respectively). The mono-exponential decays further support previous NMR results where it was found that tC has a well-defined position and geometry within the DNA helix. Furthermore, we find that the oxidation potential of tC is 0.4 V lower than for deoxyguanosine, the natural base with the lowest oxidation potential. This suggests that tC may be of interest in charge transfer studies in DNA as an electron hole acceptor. We also present a novel synthetic route to the phosphoramidite form of tC. The results presented here together with previous work show that tC is a very good C-analogue that induces minimal perturbation to the native structure of DNA. This makes tC unique as a fluorescent base analogue and is thus highly interesting in a range of applications for studying e.g. structure, dynamics and kinetics in nucleic acid systems.
Nucleic Acids Research 02/2005; 33(16):5019-25. · 8.03 Impact Factor
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ABSTRACT: We have used DNase I footprinting, fluorescence and ultraviolet (UV) melting experiments and circular dichroism to demonstrate that, in the parallel triplex binding motif, 2'-aminoethoxy-5-(3-aminoprop-1-ynyl)uridine (bis-amino-U, BAU) has very high affinity for AT relative to all other Watson-Crick base pairs in DNA. Complexes containing two or more substitutions with this nucleotide analogue are stable at pH 7.0, even though they contain several C.GC base triplets. These modified triplex-forming oligonucleotides retain exquisite sequence specificity, with enhanced discrimination against YR base pairs (especially CG). These properties make BAU a useful base analogue for the sequence-specific creation of stable triple helices at pH 7.0.
Nucleic Acids Research 02/2004; 32(15):4439-47. · 8.03 Impact Factor
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ABSTRACT: A method has been developed to attach 4'-(hydroxymethyl)-4,5',8-trimethylpsoralen to the 5 position of thymine bases during solid-phase oligonucleotide synthesis. UV irradiation of triplex-forming oligonucleotides (TFOs) containing internally attached psoralens produces photoadducts at TpA steps within target duplexes, thus relaxing the constraints on selection of psoralen target sequences. Photoreaction of TFOs containing two psoralens, located at the 5'- and 3'-ends, has been used to create double-strand cross-links (triplex staples) at both termini of the TFO. Such complexes have no free single-stranded ends. TFOs containing 4'-(hydroxymethyl)-4,5',8-trimethylpsoralen, 3-methyl-2-aminopyridine, and 5-(3-aminoprop-2-ynyl)deoxyuridine formed photoadducts with target duplexes under near-physiological conditions.
Bioconjugate Chemistry 17(6):1561-7. · 4.93 Impact Factor
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John Tumpane,
Peter Sandin,
Ravindra Kumar, Vicki E.C. Powers,
Erik P. Lundberg,
Nittaya Gale,
Piero Baglioni,
Jean-Marie Lehn,
Bo Albinsson,
Per Lincoln,
L. Marcus Wilhelmsson,
Tom Brown,
Bengt Nordén
Chemical Physics Letters 440:125-129. · 2.34 Impact Factor
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Tetrahedron Letters 43(17):3121-3123. · 2.68 Impact Factor
