Site-Specific Fluorescent Labeling of RNA Molecules by Specific Transcription Using Unnatural Base Pairs

Site-specific fluorescent labeling of RNA molecules was achieved by specific transcription using an unnatural base pair system. The unnatural base pairs between 2-amino-6-(2-thienyl)purine (s) and 2-oxo(1H)pyridine (y), and 2-amino-6-(2-thiazolyl)purine (v) and y function in transcription, and the substrates of y and 5-modified y bases can be site-specifically incorporated into RNA, opposite s or v in DNA templates, by T7 RNA polymerase. Ribonucleoside 5‘-triphosphates of 5-fluorophore-linked y bases were chemically synthesized from the nucleoside of y. These fluorescent substrates were site-specifically incorporated into RNA by transcription mediated by the s−y and v−y pairs. By using this fluorescent labeling method, specific positions of Raf-binding and theophylline-binding RNA aptamers were fluorescently labeled, and the specific binding to their target molecules was detected by their fluorescent intensities. This site-specific labeling method using an unnatural base pair system will be useful for analyzing conformational changes of RNA molecules and for detecting interactions between RNA and its binding species

Non-Enzymatic DNA Cleavage Reaction Induced by 5-Ethynyluracil in Methylamine Aqueous Solution and Application to DNA Concatenation

<div><p>DNA can be concatenated by hybridization of DNA fragments with protruding single-stranded termini. DNA cleavage occurring at a nucleotide containing a DNA base analogue is a useful method to obtain DNA with designed protruding termini. Here, we report a novel non-enzymatic DNA cleavage reaction for DNA concatenation. We found that DNA is cleaved at a nucleotide containing 5-ethynyluracil in a methylamine aqueous solution to generate 5′-phosphorylated DNA fragment as a cleavage product. We demonstrated that the reaction can be applied to DNA concatenation of PCR-amplified DNA fragments. This novel non-enzymatic DNA cleavage reaction is a simple practical approach for DNA concatenation.</p></div

PRODAN-Conjugated DNA: Synthesis and Photochemical Properties

A solvatochromic fluorophore, PRODAN, has been used as a microenvironment-sensitive reporter. Based on the chemistry of PRODAN, we designed and synthesized four novel fluorescent nucleosides, PDNX (X = U, C, A, and G), to which a PRODAN fluorophore was attached at pyrimidine C5 or purine C8. The fluorescent nucleosides sensitively varied the Stokes shift values depending on the orientational polarizability of the solvent. The PDNX incorporated into DNA also changed the Stokes shift values depending on the DNA structure. In particular, the excitation spectrum of the PDNX-containing duplex shifted to a longer wavelength and gave a smaller Stokes shift value when the base opposite PDNX could form a Watson−Crick base pair with PDNX. A lower energy excitation of PDNX-containing DNA resulted in a strong fluorescence emission selective to the Watson−Crick pairing base. This unique photochemical character was applicable to the efficient typing of single-nucleotide polymorphisms of genes

Chemical structures of thymine (T) and 5-ethynyluracil (EU).

<p>Chemical structures of thymine (T) and 5-ethynyluracil (EU).</p

Chemical formula of the DNA cleavage reaction.

<p>R is expected to be an abasic sugar derivative.</p

Construction of plasmid from two PCR-amplified DNA fragments.

<p>(A) Scheme of plasmid construction. (B) Primer sequences used for PCR. The two sequences underlined in red and blue are complementary to each other. (C–G) Pictures of agarose gel electrophoresis. (C) PCR-amplified DNA fragments 1.5 (lane 2) and 2.2 kbp (lane 3). (D) 1.5 and 2.2 kbp DNA fragments before (lane 2,3) and after DNA cleavage at 25°C for 48 h (lane 4,5), 37°C for 10 h (lane 6,7), and 70°C for 0.5 h (lane 8,9). MeNH₂ was removed from the samples by speed-vac before electrophoresis. (E) Hybridized 1.5 and 2.2 kbp DNA fragments derived from those without cleavage reaction (lane 2) and cleaved at 25°C for 48 h (lane 3), 37°C for 10 h (lane 4), and 70°C for 0.5 h (lane 5). (F,G) Intact purified plasmids (F) and EcoRV-digested plasmids (G) derived from the DNA fragments cleaved at 25°C for 48 h (lane 2,3), 37°C for 10 h (lane 4–6), and 70°C for 0.5 h (lane 7–9). (H) Sequencing results of primer-derived regions of the plasmids. Underlined letters correspond to EU in the primers.</p

Degradation of DNA oligonucleotides containing 5-ethynyluracil.

<p>(A), (B) HPLC charts of T₆(EU)T₆ before (gray) and after (black) the reaction in 14% NH₃aq (A) or 20% MeNH₂aq (B) at 70°C for 2 hours. (C), (D) (EU)T₂AT₂GT₂ (C) and T₂AT₂GT₂(EU)T (D) before (gray) and after (black) the reaction in 20% MeNH₂aq at 70°C for 2 hours.</p