Shintaro Ota scite author profile

Curcumin can bind to tubulin and inhibit the formation of tubulin polymer, which contributes to the formation of microtubule. Binding sites of curcumin on the α-and β-tubulin heterodimer were predicted by a molecular docking study to ascertain probable causes for the observed anti-microtubule effects of curcumin. However, the specific interactions between curcumin and the tubulins have yet to be elucidated at an electronic level. We here investigated the binding properties between curcumin and α-or β-tubulin of Plasmodium falciparum, using ab initio fragment molecular orbital (FMO) calculations, in order to reveal the preferable binding sites of curcumin on these tubulins. The results were compared with those for some microtubule destabilizing drugs evaluated by the same method to confirm the efficiency of curcumin as an inhibitor to the tubulins. Our ab initio FMO calculations might provide useful information for proposing novel therapeutic agents with significant binding affinity to both the α-and β-tubulins.

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Specific interactions between mycobacterial FtsZ protein and curcumin derivatives: Molecular docking and ab initio molecular simulations

Fujimori

Sogawa

Ota

et al. 2018

Chemical Physics Letters

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Ab initio molecular simulations on specific interactions between amyloid-β peptide and new curcumin derivatives

Ota

Ishimura

Fujimori

et al. 2016

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Ab initio molecular simulations on the binding properties between mycobacterial FtsZ and its inhibitor

Fujimori

Kadoya

Ota

et al. 2016

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Shintaro Ota

Proposal for novel curcumin derivatives as potent inhibitors against Alzheimer’s disease: Ab initio molecular simulations on the specific interactions between amyloid-beta peptide and curcumin

<b>Binding properties between curcumin and malarial tubulin: molecular-docking and </b><i><b>ab initio</b></i><b> fragment molecular orbital calculations</b>

Specific interactions between mycobacterial FtsZ protein and curcumin derivatives: Molecular docking and ab initio molecular simulations

Ab initio molecular simulations on specific interactions between amyloid-β peptide and new curcumin derivatives

Ab initio molecular simulations on the binding properties between mycobacterial FtsZ and its inhibitor

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