Revealing the biotoxicity of phosphorene oxide nanosheets based on the villin headpiece
Phosphorene, a novel member of the two-dimensional nanomaterial family, has demonstrated great potential in biomedical applications, such as photothermal therapy, drug delivery and antibacterial. However, phosphorene is unstable and easily oxidized in an aerobic environment. In this paper, using lar...
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sg-ntu-dr.10356-1703052023-09-06T04:04:05Z Revealing the biotoxicity of phosphorene oxide nanosheets based on the villin headpiece Zhang, Wei Gou, Yuanyuan Cheng, Li Dong, Kaiwei Sheng, Yijie Ye, Chao Yang, Xianqing Mu, Yuguang School of Biological Sciences Engineering::Materials Microfilament Proteins Biocompatibility Phosphorene, a novel member of the two-dimensional nanomaterial family, has demonstrated great potential in biomedical applications, such as photothermal therapy, drug delivery and antibacterial. However, phosphorene is unstable and easily oxidized in an aerobic environment. In this paper, using larger-scale molecular dynamics simulations, we investigated the disruption of phosphorene oxide (PO) to the structure of a model protein, villin headpiece subdomain (HP35). It shows that the disruption of PO nanosheets to the protein structure is enhanced with increasing oxidation concentration of PO, while PO's oxidation mode has very little effect on the PO-HP35 interaction. PO with a low oxidation concentration has certain biocompatibility to HP35. Oxygen atoms filling into the groove region in the puckered surface of phosphorene enhance the dispersion interaction between phosphorene and HP35, which enhances the disruption of phosphorene to the structure of HP35. Compared with the dispersion interaction, the electrostatic interaction between PO and the protein has a negligible effect on the structural damage of HP35. These findings might shed light on the biological toxicity of PO nanosheets and would be helpful for future potential biomedical applications of PO nanosheets, such as nanodrugs and antibacterial agents. Ministry of Education (MOE) This work was partially supported by the Key Academic Discipline Project of China University of Mining and Technology (Grant No. 2022WLXK10), the China Scholarship Council (Grant No. 202006425022), the Basic Research Program Project of Xuzhou (Grant No. KC21020), the National Natural Science Foundation of China (Grant No. 11774417) and the College Student Innovation Training Program of CUMT (Grant No. 202210290198Y). Y. M. acknowledges the support of Singapore MOE Tier 1 grant RG27/21. 2023-09-06T04:04:05Z 2023-09-06T04:04:05Z 2023 Journal Article Zhang, W., Gou, Y., Cheng, L., Dong, K., Sheng, Y., Ye, C., Yang, X. & Mu, Y. (2023). Revealing the biotoxicity of phosphorene oxide nanosheets based on the villin headpiece. Physical Chemistry Chemical Physics, 25(4), 3100-3109. https://dx.doi.org/10.1039/D2CP04080H 1463-9076 https://hdl.handle.net/10356/170305 10.1039/D2CP04080H 4 25 3100 3109 en RG27/21 Physical Chemistry Chemical Physics © 2023 the Owner Societies. All rights reserved. |
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Engineering::Materials Microfilament Proteins Biocompatibility Zhang, Wei Gou, Yuanyuan Cheng, Li Dong, Kaiwei Sheng, Yijie Ye, Chao Yang, Xianqing Mu, Yuguang Revealing the biotoxicity of phosphorene oxide nanosheets based on the villin headpiece |
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Phosphorene, a novel member of the two-dimensional nanomaterial family, has demonstrated great potential in biomedical applications, such as photothermal therapy, drug delivery and antibacterial. However, phosphorene is unstable and easily oxidized in an aerobic environment. In this paper, using larger-scale molecular dynamics simulations, we investigated the disruption of phosphorene oxide (PO) to the structure of a model protein, villin headpiece subdomain (HP35). It shows that the disruption of PO nanosheets to the protein structure is enhanced with increasing oxidation concentration of PO, while PO's oxidation mode has very little effect on the PO-HP35 interaction. PO with a low oxidation concentration has certain biocompatibility to HP35. Oxygen atoms filling into the groove region in the puckered surface of phosphorene enhance the dispersion interaction between phosphorene and HP35, which enhances the disruption of phosphorene to the structure of HP35. Compared with the dispersion interaction, the electrostatic interaction between PO and the protein has a negligible effect on the structural damage of HP35. These findings might shed light on the biological toxicity of PO nanosheets and would be helpful for future potential biomedical applications of PO nanosheets, such as nanodrugs and antibacterial agents. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Zhang, Wei Gou, Yuanyuan Cheng, Li Dong, Kaiwei Sheng, Yijie Ye, Chao Yang, Xianqing Mu, Yuguang |
| format |
Article |
| author |
Zhang, Wei Gou, Yuanyuan Cheng, Li Dong, Kaiwei Sheng, Yijie Ye, Chao Yang, Xianqing Mu, Yuguang |
| author_sort |
Zhang, Wei |
| title |
Revealing the biotoxicity of phosphorene oxide nanosheets based on the villin headpiece |
| title_short |
Revealing the biotoxicity of phosphorene oxide nanosheets based on the villin headpiece |
| title_full |
Revealing the biotoxicity of phosphorene oxide nanosheets based on the villin headpiece |
| title_fullStr |
Revealing the biotoxicity of phosphorene oxide nanosheets based on the villin headpiece |
| title_full_unstemmed |
Revealing the biotoxicity of phosphorene oxide nanosheets based on the villin headpiece |
| title_sort |
revealing the biotoxicity of phosphorene oxide nanosheets based on the villin headpiece |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170305 |
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1779156725325103104 |