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Exp Biol Med (Maywood) ; 246(6): 707-717, 2021 03.
Artículo en Inglés | MEDLINE | ID: mdl-33342281

RESUMEN

The objectives of this study are to evaluate the structure and protein recognition features of branched DNA four-way junctions in an effort to explore the therapeutic potential of these molecules. The classic immobile DNA 4WJ, J1, is used as a matrix to design novel intramolecular junctions including natural and phosphorothioate bonds. Here we have inserted H2-type mini-hairpins into the helical termini of the arms of J1 to generate four novel intramolecular four-way junctions. Hairpins are inserted to reduce end fraying and effectively eliminate potential nuclease binding sites. We compare the structure and protein recognition features of J1 with four intramolecular four-way junctions: i-J1, i-J1(PS1), i-J1(PS2) and i-J1(PS3). Circular dichroism studies suggest that the secondary structure of each intramolecular 4WJ is composed predominantly of B-form helices. Thermal unfolding studies indicate that intramolecular four-way junctions are significantly more stable than J1. The Tm values of the hairpin four-way junctions are 25.2° to 32.2°C higher than the control, J1. With respect to protein recognition, gel shift assays reveal that the DNA-binding proteins HMGBb1 and HMGB1 bind the hairpin four-way junctions with affinity levels similar to control, J1. To evaluate nuclease resistance, four-way junctions are incubated with DNase I, exonuclease III (Exo III) and T5 exonuclease (T5 Exo). The enzymes probe nucleic acid cleavage that occurs non-specifically (DNase I) and in a 5'→3' (T5 Exo) and 3'→5' direction (Exo III). The nuclease digestion assays clearly show that the intramolecular four-way junctions possess significantly higher nuclease resistance than the control, J1.


Asunto(s)
ADN/química , ADN/metabolismo , Conformación de Ácido Nucleico , Oligonucleótidos Fosforotioatos/metabolismo , Proteínas/metabolismo , Animales , Dicroismo Circular , Endonucleasas/metabolismo , Proteína HMGB1/química , Proteína HMGB1/metabolismo , Desnaturalización de Ácido Nucleico , Unión Proteica , Ratas , Temperatura
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