Insights into G-Quadruplex–Hemin Dynamics Using Atomistic Simulations: Implications for Reactivity and Folding

Abstract: Guanine quadruplex nucleic acids (G4s) are involved in key biological processes such as replication or transcription. Beyond their biological relevance, G4s find applications as biotechnological tools since they readily bind hemin and enhance its peroxidase activity, creating a G4-DNAzyme. The biocatalytic properties of G4-DNAzymes have been thoroughly studied and used for biosensing purposes. Despite hundreds of applications and massive experimental efforts, the atomistic details of the reaction mechanism rem… Show more

“…We also looked at the mechanism of this novel nanozyme, which is still a matter of debate. 47 To this end, we used various radical scavengers such as ascorbic acid (AA) for •OH and O2 •-, 48 thiourea (TH) for •OH, 49 p-benzoquinone (p-BQ) for O2 •-50 and NaN3 for 1 O2. 51 The catalytic activity of MIL-53(Fe)/G4-hemin was strongly decreased upon addition of AA and TH, implying the generation of •OH and O2 •during the catalytic process (Figure 4A), which is fully in line with the most recent mechanism.…”

Efficient Biocatalytic System for Biosensing by Combining Metal–Organic Framework (MOF)-Based Nanozymes and G-Quadruplex (G4)-DNAzymes

“…We also looked at the mechanism of this novel nanozyme, which is still a matter of debate. 47 To this end, we used various radical scavengers such as ascorbic acid (AA) for •OH and O2 •-, 48 thiourea (TH) for •OH, 49 p-benzoquinone (p-BQ) for O2 •-50 and NaN3 for 1 O2. 51 The catalytic activity of MIL-53(Fe)/G4-hemin was strongly decreased upon addition of AA and TH, implying the generation of •OH and O2 •during the catalytic process (Figure 4A), which is fully in line with the most recent mechanism.…”

Efficient Biocatalytic System for Biosensing by Combining Metal–Organic Framework (MOF)-Based Nanozymes and G-Quadruplex (G4)-DNAzymes