Synthesis of a novel nucleotide unit containing cytosine analog bearing phosphodiester function and formation of silver(I)-mediated DNA duplex.

Novel modified cytosine analogs bearing phosphodiester/thiophosphodiester functionality were synthesized. The interactions between different metal ions and modified cytosine-cytosine base-pairs in DNA duplexes were investigated by UV-melting experiments. The thiophosphodiester modification binds to the Ag(I) ions strongly compared to the phosphodiester counterpart as examined in ESI-MS spectra as well.

Dye-Conjugated Spinach RNA by Genetic Alphabet Expansion.

Light-emitting systems using an RNA aptamer-dye pair, such as Spinach RNA, are an attractive method for imaging and tracing RNA expression in vitro and in vivo. We present an alternative Spinach method by genetic alphabet expansion using an unnatural base pair system, in which a dye-conjugated unnatural base substrate is site-specifically incorporated at a specific position in Spinach RNA by transcription involving the third base pair. The incorporation position was predicted by molecular dynamics simulations.

Cognate base-pair selectivity of hydrophobic unnatural bases in DNA ligation by T4 DNA ligase.

We present cognate base pair selectivity in template-dependent ligation by T4 DNA ligase using a hydrophobic unnatural base pair (UBP), Ds-Pa. T4 DNA ligase efficiently recognizes the Ds-Pa pairing at the conjugation position, and Ds excludes the noncognate pairings with the natural bases. Our results indicate that the hydrophobic base pairing is allowed in enzymatic ligation with higher cognate base-pair selectivity, relative to the hydrogen-bond interactions between pairing bases.

Synthesis and Characterization of Cell-Permeable Oligonucleotides Bearing Reduction-Activated Protecting Groups on the Internucleotide Linkages.

Cell-permeable oligodeoxyribonucleotides (ODNs) bearing reduction-activated protecting groups were synthesized as oligonucleotide pro-drugs. Although these oligonucleotides were amenable to solid-phase DNA synthesis and purification, the protecting group on their phosphodiester moiety could be readily cleaved by nitroreductase and NADH. Moreover, these compounds exhibited good nuclease resistance against 3'-exonuclease and endonuclease and good stability in human serum.

Structure Determination of an Ag(I) -Mediated Cytosine-Cytosine Base Pair within DNA Duplex in Solution with (1) H/(15) N/(109) Ag NMR Spectroscopy.

The structure of an Ag(I) -mediated cytosine-cytosine base pair, C-Ag(I) -C, was determined with NMR spectroscopy in solution. The observation of 1-bond (15) N-(109) Ag J-coupling ((1) J((15) N,(109) Ag): 83 and 84 Hz) recorded within the C-Ag(I) -C base pair evidenced the N3-Ag(I) -N3 linkage in C-Ag(I) -C. The triplet resonances of the N4 atoms in C-Ag(I) -C demonstrated that each exocyclic N4 atom exists as an amino group (-NH2 ), and any isomerization and/or N4-Ag(I) bonding can be excluded.

High Fidelity, Efficiency and Functionalization of Ds-Px Unnatural Base Pairs in PCR Amplification for a Genetic Alphabet Expansion System.

Genetic alphabet expansion of DNA using an artificial extra base pair (unnatural base pair) could augment nucleic acid and protein functionalities by increasing their components. We previously developed an unnatural base pair between 7-(2-thienyl)-imidazo[4,5-b]pyridine (Ds) and 2-nitro-4-propynylpyrrole (Px), which exhibits high fidelity as a third base pair in PCR amplification. Here, the fidelity and efficiency of Ds-Px pairing using modified Px bases with functional groups, such as diol, azide, ethynyl and biotin, were evaluated by an improved method with optimized PCR conditions.

High-Resolution Crystal Structure of a Silver(I)-RNA Hybrid Duplex Containing Watson-Crick-like C-Silver(I)-C Metallo-Base Pairs.

Metallo-base pairs have been extensively studied for applications in nucleic acid-based nanodevices and genetic code expansion. Metallo-base pairs composed of natural nucleobases are attractive because nanodevices containing natural metallo-base pairs can be easily prepared from commercially available sources. Previously, we have reported a crystal structure of a DNA duplex containing T-Hg(II)-T base pairs.

Development of a photolabile protecting group for phosphodiesters in oligonucleotides.

A photolabile protecting group, consisting of an o-nitrobenzyl group and a 3-(2'-hydroxy-3',6'-dimethylphenyl)-2,2-dimethylpropyl moiety, was developed for phosphodiesters in oligodeoxyribonucleotides. Deprotection was triggered by photoirradiation and subsequent spontaneous cyclization to release the naked oligonucleotide.

Parallel synthesis of cell-penetrating peptide conjugates of PMO toward exon skipping enhancement in Duchenne muscular dystrophy.

We describe two new methods of parallel chemical synthesis of libraries of peptide conjugates of phosphorodiamidate morpholino oligonucleotide (PMO) cargoes on a scale suitable for cell screening prior to in vivo analysis for therapeutic development. The methods represent an extension of the SELection of PEPtide CONjugates (SELPEPCON) approach previously developed for parallel peptide-peptide nucleic acid (PNA) synthesis. However, these new methods allow for the utilization of commercial PMO as cargo with both C- and N-termini unfunctionalized.

Hg2+-trapping beads: Hg2+-specific recognition through thymine-Hg(II)-thymine base pairing.

Mercury pollution poses a severe threat to human health. To remove Hg(2+) from contaminated water, we synthesized Hg(2+)-trapping beads that include oligo-thymidine functionalities that can form thymine-Hg(II)-thymine base pairs on the solid support. The beads can selectively trap Hg(2+) even in the presence of other metal cations.

Crystal structure of metallo DNA duplex containing consecutive Watson-Crick-like T-Hg(II)-T base pairs.

The metallo DNA duplex containing mercury-mediated T-T base pairs is an attractive biomacromolecular nanomaterial which can be applied to nanodevices such as ion sensors. Reported herein is the first crystal structure of a B-form DNA duplex containing two consecutive T-Hg(II)-T base pairs. The Hg(II) ion occupies the center between two T residues.

The structure of metallo-DNA with consecutive thymine-HgII-thymine base pairs explains positive entropy for the metallo base pair formation.

We have determined the three-dimensional (3D) structure of DNA duplex that includes tandem Hg(II)-mediated T-T base pairs (thymine-Hg(II)-thymine, T-Hg(II)-T) with NMR spectroscopy in solution. This is the first 3D structure of metallo-DNA (covalently metallated DNA) composed exclusively of 'NATURAL' bases. The T-Hg(II)-T base pairs whose chemical structure was determined with the (15)N NMR spectroscopy were well accommodated in a B-form double helix, mimicking normal Watson-Crick base pairs.

Thermodynamic and structural properties of the specific binding between Ag⁺ ion and C:C mismatched base pair in duplex DNA to form C-Ag-C metal-mediated base pair.

Metal ion-nucleic acid interactions have attracted considerable interest for their involvement in structure formation and catalytic activity of nucleic acids. Although interactions between metal ion and mismatched base pair duplex are important to understand mechanism of gene mutations related to heavy metal ions, they have not been well-characterized. We recently found that the Ag(+) ion stabilized a C:C mismatched base pair duplex DNA.

Metal ion-binding properties of DNA duplexes containing thiopyrimidine base pairs.

Thiopyrimidine pairs in DNA duplexes were unexpectedly largely stabilized by complexation with two equivalents of Ag(I) ions and their binding properties were evaluated. The metal ion-binding properties of the thiopyrimidine base pairs differed significantly from those of unpaired bases.

Raman spectroscopic detection of the T-Hg II-T base pair and the ionic characteristics of mercury.

Developing applications for metal-mediated base pairs (metallo-base-pair) has recently become a high-priority area in nucleic acid research, and physicochemical analyses are important for designing and fine-tuning molecular devices using metallo-base-pairs. In this study, we characterized the Hg(II)-mediated T-T (T-Hg(II)-T) base pair by Raman spectroscopy, which revealed the unique physical and chemical properties of Hg(II). A characteristic Raman marker band at 1586 cm(-1) was observed and assigned to the C4=O4 stretching mode.

Binding of metal ions by pyrimidine base pairs in DNA duplexes.

Pyrimidine base pairs in DNA duplexes selectively capture metal ions to form metal ion-mediated base pairs, which can be evaluated by thermal denaturation, isothermal titration calorimetry, and nuclear magnetic resonance spectroscopy. In this critical review, we discuss the metal ion binding of pyrimidine bases (thymine, cytosine, 4-thiothymine, 2-thiothymine, 5-fluorouracil) in DNA duplexes. Thymine-thymine (T-T) and cytosine-cytosine (C-C) base pairs selectively capture Hg(II) and Ag(I) ions, respectively, and the metallo-base pairs, T-Hg(II)-T and C-Ag(I)-C, are formed in DNA duplexes.

Synthesis of covalently linked parallel and antiparallel DNA duplexes containing the metal-mediated base pairs T-Hg(II)-T and C-Ag(I)-C.

DNA duplexes fixed in anti-parallel and parallel orientations by introducing covalent linkages have been synthesized and metal ions, Hg(II) and Ag(I), were incorporated into pyrimidine-pyrimidine base pairs.

Synthesis and thermal denaturation studies of covalently linked DNA triplexes.

We report on the synthesis and thermal stability of small covalently linked DNA triplexes. These modified triplexes were found to contain covalently linked T-T pairs at the edges, and thermal denaturation studies revealed that the covalent linking efficiently stabilized triplex formation.

Metal ion binding of modified pyrimidine-base pairs in DNA duplexes.

We report the synthesis and metal ion-binding properties of DNA duplexes containing 5-substituted uracil ((X)U) pairs, such as 5-bromouracil, 5-fluorouracil and 5-cyanouracil pairs. Thermal denaturation studies of these modified DNA duplexes revealed that the DNA duplexes were stabilized in the presence of Hg(II) ions in acidic and neutral solutions. On the other hand, the duplexes were stabilized in the presence of Hg(II) and Ag(I) ions.

Metal-ion selectivity of chemically modified uracil pairs in DNA duplexes.

DNA duplexes containing 5-modified uracil pairs (5-bromo, 5-fluoro, and 5-cyanouracil) bind selectivity to metal ions. Their selectivity is sensitive to the pH value of the solution (see picture), as the acidities of the modified uracil bases vary according to the electron-withdrawing properties of the substituents.

Specific interactions between silver(I) ions and cytosine-cytosine pairs in DNA duplexes.

Very specific binding of the Ag(i) ion unexpectedly stabilized DNA duplexes containing the naturally occurring cytosine-cytosine (C-C) mismatch-base pair; because the C-C pair selectively binds to the Ag(i) ion, we developed a DNA-based Ag(i) sensor that employed an oligodeoxyribonucleotide containing C-C pairs used for Ag(i) binding sites.

Synthesis and properties of covalently linked antiparallel and parallel DNA duplexes.

We synthesized covalently linked antiparallel stranded (aps) and parallel stranded (ps) DNA duplexes. These modified duplexes contained an ethylene-linked T-T base pair at the duplex end. Thermal denaturation analysis of these modified duplexes indicated that the aps and ps DNA duplexes have similar thermal stabilities.

Study of the base discrimination ability of DNA and 2'-O-methylated RNA oligomers containing 2-thiouracil bases towards complementary RNA or DNA strands and their application to single base mismatch detection.

Precise detection of target DNA and RNA sequences using chemically modified oligonucleotides is of crucial importance in gene analysis and gene silence. The hybridisation and base discrimination abilities of oligonucleotides containing 2'-O-methyl-2-thiouridine (s(2)Um) in homo- and hetero-duplexes composed of DNA and RNA strands have been studied in detail. When s(2)Um was incorporated into RNA or DNA strands, the hybridisation and base discrimination abilities of the modified RNA or DNA oligomers towards the complementary RNA strands were superior to those of the corresponding unmodified oligomers.

Synthesis of DNA duplexes containing complexes of 5-modified pyrimidine bases and metal ions.

DNA duplexes carrying metal ions at the 5-position of uracil residues were synthesized by mixing oligodeoxyribonucleotides (ODNs) containing 5-formyl uracils, metal ions, and amines. A metal ion binding site may form from the 5-formyl residue and amines.

Preparation of DNA double helical structures containing both mercury and silver ions.

DNA duplexes consisting of metal-mediated pyrimidine base pairs, T-Hg(II)-T and C-Ag(I)-C, were prepared by mixing short oligodeoxyribonucleotides (ODNs) in the presence of the metal ions. The metal ions were arrayed linearly in the prepared double helical structures. The choice of sequence controls the order of the metal ions.