Core modified 8-17 DNAzymes with 2'-deoxy-2'-C-methylpyrimidine nucleosides.

The catalytic core of an 8-17 DNAzyme directed against STAT 3 was modified using (2'R) and (2'S) 2'-deoxy-2'-C-methyluridine and cytidine. While 2'-deoxy-2'-C-methyluridine significantly diminished the catalytic activity, 2'-deoxy-2'-C-methylcytidine replacement was better accepted, being the k of modified DNAzymes at 8- and 11-positions comparable to the non-modified one. When 2'-O-methyl and phosphorothioate nucleotides were tested in the binding arms together with core modified DNAzymes the k was affected in a non predictable way, emphasizing the fact that both chemical substitutions should be considered globally.

Development of a hyperimmune equine serum therapy for COVID-19 in Argentina.

The disease named COVID-19, caused by the SARS-CoV-2 coronavirus, is currently generating a global pandemic. Vaccine development is no doubt the best long-term immunological approach, but in the current epidemiologic and health emergency there is a need for rapid and effective solutions. Convalescent plasma is the only antibody-based therapy available for COVID-19 patients to date.

siRNA Modified with 2'-Deoxy-2'-C-methylpyrimidine Nucleosides.

(2'S)-2'-Deoxy-2'-C-methyluridine and (2'R)-2'-deoxy-2'-C-methyluridine were incorporated in the 3'-overhang region of the sense and antisense strands and in positions 2 and 5 of the seed region of siRNA duplexes directed against Renilla luciferase, whereas (2'S)-2'-deoxy-2'-C-methylcytidine was incorporated in the 6-position of the seed region of the same constructions. A dual luciferase reporter assay in transfected HeLa cells was used as a model system to measure the IC values of 24 different modified duplexes. The best results were obtained by the substitution of one thymidine unit in the antisense 3'-overhang region by (2'S)- or (2'R)-2'-deoxy-2'-C-methyluridine, reducing IC to half of the value observed for the natural control.

Stabilization of Telomeric I-Motif Structures by (2'S)-2'-Deoxy-2'-C-Methylcytidine Residues.

G-quadruplexes and i-motifs are tetraplex structures present in telomeres and the promoter regions of oncogenes. The possibility of producing nanodevices with pH-sensitive functions has triggered interest in modified oligonucleotides with improved structural properties. We synthesized C-rich oligonucleotides carrying conformationally restricted (2'S)-2'-deoxy-2'-C-methyl-cytidine units.

Modified Nucleoside Triphosphates for In-vitro Selection Techniques.

The development of SELEX (Selective Enhancement of Ligands by Exponential Enrichment) provides a powerful tool for the search of functional oligonucleotides with the ability to bind ligands with high affinity and selectivity (aptamers) and for the discovery of nucleic acid sequences with diverse enzymatic activities (ribozymes and DNAzymes). This technique has been extensively applied to the selection of natural DNA or RNA molecules but, in order to improve chemical and structural diversity as well as for particular applications where further chemical or biological stability is necessary, the extension of this strategy to modified oligonucleotides is desirable. Taking into account these needs, this review intends to collect the research carried out during the past years, focusing mainly on the use of modified nucleotides in SELEX and the development of mutant enzymes for broadening nucleoside triphosphates acceptance.

Exploring the Use of a Guanine-Rich Catalytic DNA for Sulfoxide Preparation.

A guanine-rich DNA oligonucleotide complexed with hemin was used to catalyze controlled oxygen transfer reactions to different sulfides for sulfoxide preparation in the presence of H2O2. Comparable activities were obtained when using fully modified L-DNA. In addition, oligonucleotide immobilization led to an active catalyst which could be successfully recovered and reused without loss of activity.

Influence of conformationally restricted pyrimidines on the activity of 10-23 DNAzymes.

The catalytic core of a 10-23 DNAzyme was modified introducing conformationally restricted nucleosides such as (2'R)-, (2'S)-2'-deoxy-2'-C-methyluridine, (2'R)-, (2'S)-2'-deoxy-2'-C-methylcytidine, 2,2'-anhydrouridine and LNA-C, in one, two or three positions. Catalytic activities under pseudo first order conditions were compared at different Mg(2+) concentrations using a short RNA substrate. At low Mg(2+) concentrations, triple modified DNAzymes with similar kinetic performance to that displayed by the non-modified control were identified.