Seven million times elongation of the lifetime of charge-separated state is attained in the presence of yttrium triflate [Y(OTf)3] in the photoinduced electron-transfer reaction of a ferrocene-anthraquinone dyad (Fc-AQ) with a rigid amide spacer in benzonitrile at 298 K as compared with the lifetime in its absence. Such remarkable elongation of the CS lifetime in the presence of Y(OTf)3 results from the strong binding of Y(OTf)3 with the AQ*- moiety of Fc+-AQ*-.
A newly designed target-assisted self-cleavage (TASC) probe composed of a target-binding site and a DNAzyme domain undergoes TASC when activated via hybridization with a target DNA/RNA. This self-splicing or self-dissociation reaction occurs in a catalytic manner with the probe as a substrate and the target as a catalyst, since the fragmented products are automatically released from the target, thus amplifying the sequence information of the latter under non-PCR, i.e., isothermal and enzyme/reagent-free, conditions. A fluorescence-reporting TASC probe having a fluorescein/dabsyl FRET pair across the cleavage site allows a mix-and-read discrimination of single-nucleotide differences in the target.
We have developed a new concept involving a single-step homogeneous method for single-nucleotide polymorphism (SNP) typing. In this method, a probe containing base-discriminating fluorescent (BDF) bases is added to a sample solution. BDF base-containing DNA usually shows only a weak fluorescence, but emits a strong blue fluorescence when it recognizes a target base at a specific site in a hybridized strand. By utilizing this feature, a simple mix-and-read SNP typing assay was achieved without any tedious probe-designing or washing processes for exclusion of hybridization error or any addition of DNA-modifying enzymes. This is very different from conventional methods. We simultaneously analyzed a number of samples with ease, with a high accuracy, using our BDF assay.
15N NMR of DNA containing 15N-N7-enriched guanine (G) in the presence of paramagnetic ions (Mn(II) and Co(II)) was investigated. As the concentration of metal ion was increased, 15N NMR signals of the 5'G of GG and the middle G of GGG broadened site-selectively, indicating that electron-donating sites in G runs preferentially localize on the 5'G of GG and the middle G of GGG. The selectivity for G-metal ion interaction observed in this study was in good agreement with calculated HOMO distribution of G runs.
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