Title
Improved performances of catalytic G-quadruplexes (G4-DNAzymes) via the chemical modifications of the DNA backbone to provide G-quadruplexes with double 3′-external G-quartets
Author
Antonella Virgilio, Veronica Esposito, Pauline Lejault, David Monchaud, Aldo Galeone
Year
2019
Journal
International Journal of Biological Macromolecules
Abstract
Here we report on the design of a new catalytic G-quadruplex-DNA system (G4-DNAzyme) based on the modification of the DNA scaffold to provide the DNA pre-catalyst with two identical 3′-ends, known to be more catalytically proficient than the 5′-ends. To this end, we introduced a 5′-5′ inversion of polarity site in the middle of the G4-forming sequences AG4A and AG6A to obtain d(3′AGG5′-5′GGA3′) (or AG2-G2A) and d(3′AGGG5′-5′GGGA3′) (or AG3-G3A) that fold into stable G4 whose tetramolecular nature was confirmed via nuclear magnetic resonance (NMR) and circular dichroism (CD) investigations. Both AG2-G2A and AG3-G3A display two identical external G-quartets (3′-ends) known to interact with the cofactor hemin with a high efficiency, making the resulting complex competent to perform hemoprotein-like catalysis (G4-DNAzyme). A systematic comparison of the performances of modified and unmodified G4s lends credence to the relevance of the modification exploited here (5′-5′ inversion of polarity site), which represents a new chemical opportunity to improve the overall activity of catalytic G4s.
Instrument
V-630, J-715
Keywords
Absorption, Quantitation, Kinetics, Circular dichroism, DNA structure, G-quadruplex structure, Thermal stability, Biochemistry