Threoninol as a scaffold of dyes (threoninol-nucleotide) and their stable interstrand clustering in duplexes.

@article{Kashida2008ThreoninolAA,
  title={Threoninol as a scaffold of dyes (threoninol-nucleotide) and their stable interstrand clustering in duplexes.},
  author={Hiromu Kashida and Taiga Fujii and Hiroyuki Asanuma},
  journal={Organic \& biomolecular chemistry},
  year={2008},
  volume={6 16},
  pages={
          2892-9
        }
}
Functional molecules such as dyes (Methyl Red, azobenzene, and Naphthyl Red) were tethered on D-threoninol as base surrogates (threoninol-nucleotide), which were consecutively incorporated at the center of natural oligodeoxyribonucleotides (ODNs). Hybridization of two ODNs involving threoninol-nucleotides allowed interstrand clustering of the dyes on D-threoninol and greatly stabilized the duplex. When two complementary ODNs, both of which had tethered Methyl Reds on consecutive D-threoninols… 
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45 Citations
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Methods Citations
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45 Citations

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Citation Type

Analysis of coherent heteroclustering of different dyes by use of threoninol nucleotides for comparison with the molecular exciton theory.
TLDR
To test the molecular exciton theory for heterodimeric chromophores, various heterodimers and clusters were prepared by hybridizing two oligodeoxyribonucleotides (ODNs), each of which tethered a different dye on D-threoninol at the center of the strand.
Reversed assembly of dyes in an RNA duplex compared with those in DNA.
TLDR
Reversed dye clusters prepared by hybridizing two RNA oligomers induced distinct hypsochromicity and narrowing of the band, thus demonstrating that the dyes were axially stacked even on an A-type helix.
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TLDR
It is proposed that three consecutive cationic p-methylstilbazoles tethered on D-threoninols at 5' termini act as a unique "glue" connecting DNA duplexes by their interstrand cluster formation, and ZZZ triplets with their unique glue-like properties are prime candidates for constructing DNA-based nanoarchitectures.
Modulation of pK(a) of Brooker's merocyanine by DNA hybridization.
TLDR
Control of the microenvironment around the BM molecule allowed modulation of its pK(a), which is applicable to the sequence-specific recognition of target DNA.
Accumulation of fluorophores into DNA duplexes to mimic the properties of quantum dots.
TLDR
These fluorophore assemblies thus obtained could be enzymatically ligated to longer DNA, demonstrating that this technique has the potential to be a versatile labeling agent for biomolecules.
Bulge-like asymmetric heterodye clustering in DNA duplex results in efficient quenching of background emission based on the maximized excitonic interaction.
TLDR
This asymmetric 1:2 heterocluster was introduced into the stem region of a molecular beacon targeting the fusion site in the L6 BCR-ABL fusion gene due to efficient suppression of background emission resulting from the maximized excitonic interaction.
DNA functionalization by dynamic chemistry
TLDR
Dynamic combinatorial chemistry (DCC) is an attractive method to efficiently generate libraries of molecules from simpler building blocks by reversible reactions under thermodynamic control and its potential for the deoxyribonucleic acid functionalization and generation of libraries of reversibly interconverting building blocks is demonstrated.
Design of photofunctional oligonucleotides by copolymerization of natural nucleobases with base surrogates prepared from acyclic scaffolds
TLDR
A new methodology for DNA and RNA functionalization using a base surrogate prepared from d-threoninol (2-amino-1,3-butanediol) is demonstrated, which can introduce functional molecules at any position of the sequence.
De novo design of functional oligonucleotides with acyclic scaffolds.
TLDR
A new methodology for the de novo design of functional oligonucleotides with the acyclic scaffolds threoninol and serinol is demonstrated, which will be powerful tools for both DNA nanotechnology and biotechnology.
p-Stilbazole moieties as artificial base pairs for photo-cross-linking of DNA duplex.
In this study, we report a photo-cross-linking reaction between p-stilbazole moieties. p-Stilbazoles were introduced into base-paring positions of complementary DNA strands. The [2 + 2]
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