Nucleic Acids Research, Volume 46, Issue 19


Anthology ID:
G18-52
Month:
Year:
2018
Address:
Venue:
GWF
SIG:
Publisher:
Oxford University Press (OUP)
URL:
https://gwf-uwaterloo.github.io/gwf-publications/G18-52
DOI:
Bib Export formats:
BibTeX MODS XML EndNote

pdf bib
Misfolding of a DNAzyme for ultrahigh sodium selectivity over potassium
Yanping He | Da Chen | Po‐Jung Jimmy Huang | Yibo Zhou | Lingzi Ma | Kexin Xu | Ronghua Yang | Juewen Liu

Herein, the excellent Na+ selectivity of a few RNA-cleaving DNAzymes was exploited, where Na+ can be around 3000-fold more effective than K+ for promoting catalysis. By using a double mutant based on the Ce13d DNAzyme, and by lowering the temperature, increased 2-aminopurine (2AP) fluorescence was observed with addition of both Na+ and K+. The fluorescence increase was similar for these two metals at below 10 mM, after which K+ took a different pathway. Since 2AP probes its local base stacking environment, K+ can be considered to induce misfolding. Binding of both Na+ and K+ was specific, since single base mutations could fully inhibit 2AP fluorescence for both metals. The binding thermodynamics was measured by temperature-dependent experiments revealing enthalpy-driven binding for both metals and less coordination sites compared to G-quadruplex DNA. Cleavage activity assays indicated a moderate cleavage activity with 10 mM K+, while further increase of K+ inhibited the activity, also supporting its misfolding of the DNAzyme. For comparison, a G-quadruplex DNA was also studied using the same system, where Na+ and K+ led to the same final state with only around 8-fold difference in Kd. This study provides interesting insights into strategies for discriminating Na+ and K+.