Ratiometric i‑Motif-Based Sensor for Precise Long-Term Monitoring of pH Micro Alterations in the Nucleoplasm and Interchromatin Granules

Ratiometric i‑Motif-Based Sensor for Precise Long-Term Monitoring of pH Micro Alterations in the Nucleoplasm and Interchromatin Granules

DNA-intercalated motifs (iMs) are facile scaffolds for the design of various pH-responsive nanomachines, including biocompatible pH sensors. First, DNA pH sensors relied on complex intermolecular scaffolds. Here, we used a simple unimolecular dual-labeled iM scaffold and minimized it by replacing th...

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Veröffentlicht in:ACS sensors 2023-02, Vol.8 (2), p.619-629
Hauptverfasser: Petrunina, Nataliia A., Shtork, Alina S., Lukina, Maria M., Tsvetkov, Vladimir B., Khodarovich, Yuri M., Feofanov, Alexey V., Moysenovich, Anastasia M., Maksimov, Eugene G., Shipunova, Victoria O., Zatsepin, Timofei S., Bogomazova, Alexandra N., Shender, Victoria O., Aralov, Andrey V., Lagarkova, Maria A., Varizhuk, Anna M.
Format: Artikel
Sprache:eng
Schlagworte:
Cell Nucleus
DNA - chemistry
Humans
Hydrogen-Ion Concentration
Nuclear Bodies
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Zusammenfassung:DNA-intercalated motifs (iMs) are facile scaffolds for the design of various pH-responsive nanomachines, including biocompatible pH sensors. First, DNA pH sensors relied on complex intermolecular scaffolds. Here, we used a simple unimolecular dual-labeled iM scaffold and minimized it by replacing the redundant loop nucleosides with abasic or alkyl linkers. These modifications improved the thermal stability of the iM and increased the rates of its pH-induced conformational transitions. The best effects were obtained upon the replacement of all three native loops with short and flexible linkers, such as the propyl one. The resulting sensor showed a pH transition value equal to 6.9 ± 0.1 and responded rapidly to minor acidification (tau1/2
ISSN:2379-3694
2379-3694
DOI:10.1021/acssensors.2c01813