Niels Bomholt scite author profile

Sequence-specific targeting of genomic DNA by triplex-forming oligonucleotides (TFOs) is a promising strategy to modulate in vivo gene expression. Triplex formation involving G-rich oligonucleotides as third strand is, however, strongly inhibited by potassium-induced TFO self-association into G-quartet structures. We report here that G-rich TFOs with bulge insertions of (R)-1-O-[4-(1-pyrenylethynyl)-phenylmethyl] glycerol (called twisted intercalating nucleic acids, TINA) show a much lower tendency to aggregate in potassium than wild-type analogues do. We designed purine-motif TINA–TFOs for binding to a regulatory polypurine-polypyrimidine (pur/pyr) motif present in the promoter of the KRAS proto-oncogene. The binding of TINA–TFOs to the KRAS target has been analysed by electrophoresis mobility shift assays and DNase I footprinting experiments. We discovered that in the presence of potassium the wild-type TFOs did not bind to the KRAS target, differently from the TINA analogues, whose binding was observed up to 140 mM KCl. The designed TINA–TFOs were found to abrogate the formation of a DNA–protein complex at the pur/pyr site and to down-regulate the transcription of CAT driven by the murine KRAS promoter. Molecular modelling of the DNA/TINA–TFO triplexes are also reported. This study provides a new and promising approach to create TFOs to target in vivo the genome.

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Significantly Enhanced DNA Thermal Stability Resulting from Porphyrin H‐Aggregate Formation in the Minor Groove of the Duplex

Stephenson

Bomholt

Partridge

et al. 2010

ChemBioChem

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High physiological thermal triplex stability optimization of twisted intercalating nucleic acids (TINA)

2008

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The structure of the monomer (R)-1-O-[4-(1-pyrenylethynyl)phenylmethyl]glycerol () in twisted intercalating nucleic acids (TINA) was optimized for stabilizing interactions between the intercalator and surrounding nucleobases when used as a triplex forming oligonucleotide (TFO). Enhancement of pi-pi interactions with nucleobases of the TFO was achieved by increasing the aromatic surface using the (R)-1-O-[4-(1-pyrenylethynyl)naphthylmethyl]glycerol monomer (). Bulge insertion of in the middle of a Hoogsteen-type triplex increased the triplex thermal stability, DeltaT(m) = +2.0 degrees C compared with at pH 7.2. Syntheses and thermal denaturation studies of triplexes and duplexes are described for three novel TINA monomers. The influence of pi-pi interactions, link length and the positioning of the ether in the linker in the TINA derivatives are described.

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Triplex Formation by Pyrene‐Labelled Probes for Nucleic Acid Detection in Fluorescence Assays

et al. 2008

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Triplex-forming homopyrimidine oligonucleotides containing insertions of a 2'-5' uridine linkage featuring a pyrene moiety at the 3'-position exhibit strong fluorescence enhancement upon binding to double-stranded DNA through Hoogsteen base pairing. It is shown that perfect matching of the new modification to the base pair in the duplex is a prerequisite for strong fluorescence, thus offering the potential to detect single mutations in purine stretches of duplex DNA. The increase in the fluorescence signal was dependent on the thermal stability of the parallel triplex, so a reduction in the pH from 6.0 to 5.0 resulted in an increase in thermal stability from 25.0 to 55.0 degrees C and in an increase in the fluorescence quantum yield (Phi(F)) from 0.061 to 0.179, while the probe alone was fluorescently silent (Phi(F)=0.001-0.004). To achieve higher triplex stability, five nucleobases in a 14-mer sequence were substituted with alpha-L-LNA monomers, which provided a triplex with a T(m) of 49.5 degrees C and a Phi(F) of 0.158 at pH 6.0. Under similar conditions, a Watson-Crick-type duplex formed with the latter probe showed lower fluorescence intensity (Phi(F)=0.081) than for the triplex.

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Niels Bomholt

Purine twisted-intercalating nucleic acids: a new class of anti-gene molecules resistant to potassium-induced aggregation

Significantly Enhanced DNA Thermal Stability Resulting from Porphyrin H‐Aggregate Formation in the Minor Groove of the Duplex

High physiological thermal triplex stability optimization of twisted intercalating nucleic acids (TINA)

Triplex Formation by Pyrene‐Labelled Probes for Nucleic Acid Detection in Fluorescence Assays

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