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The Interaction of Cyclic Naphthalene Diimide with G-Quadruplex under Molecular Crowding Condition.

ABSTRACT: G-quadruplex specific targeting molecules, also termed as G4 ligands, are attracting increasing attention for their ability to recognize and stabilize G-quadruplex and high potentiality for biological regulation. However, G4 ligands recognizing G-quadruplex were generally investigated within a dilute condition, which might be interfered with under a cellular crowding environment. Here, we designed and synthesized several new cyclic naphthalene diimide (cNDI) derivatives, and investigated their interaction with G-quadruplex under molecular crowding condition (40% v/v polyethylene glycol (PEG)200) to mimic the cellular condition. The results indicated that, under molecular crowding conditions, cNDI derivatives were still able to recognize and stabilize G-quadruplex structures based on circular dichroism measurement. The binding affinities were slightly decreased but still comparatively high upon determination by isothermal titration calorimetry and UV-vis absorbance spectroscopy. More interestingly, cNDI derivatives were observed with preference to induce a telomere sequence to form a hybrid G-quadruplex under cation-deficient molecular crowding conditions.

SUBMITTER: Zou T 

PROVIDER: S-EPMC7037305 | biostudies-literature | 2020 Feb

REPOSITORIES: biostudies-literature

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The Interaction of Cyclic Naphthalene Diimide with G-Quadruplex under Molecular Crowding Condition.

Zou Tingting T   Sato Shinobu S   Yasukawa Rui R   Takeuchi Ryusuke R   Ozaki Shunsuke S   Fujii Satoshi S   Takenaka Shigeori S  

Molecules (Basel, Switzerland) 20200204 3

G-quadruplex specific targeting molecules, also termed as G4 ligands, are attracting increasing attention for their ability to recognize and stabilize G-quadruplex and high potentiality for biological regulation. However, G4 ligands recognizing G-quadruplex were generally investigated within a dilute condition, which might be interfered with under a cellular crowding environment. Here, we designed and synthesized several new cyclic naphthalene diimide (cNDI) derivatives, and investigated their i  ...[more]

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