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吴娜

副教授博士生导师硕士生导师

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学历：博士研究生毕业
学位：博士

研究成果与奖项

当前位置：中文主页 - 研究成果与奖项

代表论文

1. P. Hao, X. Sun, L. Niu, Y. Luo, Di Lu, B. Liu, Na Wu*, Y. Zhao*, Programmable DNA Nanocages Enable Adaptive Spatiotemporal Organization of Biomimetic Organelle Networks, Angewandte Chemie International Edition, 2025, e202511909.

2. Y. Luo, L. Niu, P. Hao, X. Sun, Na Wu*, Enzymatic Anisotropic Growth of Gold Nanoparticles based on DNA Origami Templates, Small Methods, 2025, DOI: 10.1002/smtd.202501092

3. Niu, L.; Luo, Y.; Hao, P.; Sun, X.; Zhao, Y.; Wu, N^*. Force-driven base recognition programs DNA origami-based supramolecular networks. Chemical Communications, 2025, DOI: 10.1039/D5CC02754C

4. Luo, Y.; Wu, N.^*; Niu, L.; Hao, P.; Sun, X.; Chen, F.; Zhao, Y^*. Ionic Strength-Mediated “DNA Corona Defects” for Efficient Arrangement of Single-Walled Carbon Nanotubes. Adv. Sci. 2024, 2308532.

5. Luo, Y.; Niu, L.; Hao, P.; Sun, X.; Zhao, Y.; Wu, N^*. The controllable patterning of tannic acid on DNA origami. Nanoscale 2023, 15, 19381-19388.

6. Sun, X.; Hao, P.; Wu, N.^*DNA-Based Mechanical Sensors for Cell Applications. Chemistry 2023, 5(3), 1546-1559

7. Hao, P.; Niu, L.; Luo, Y.; Wu, N.^*; Zhao, Y. Surface Engineering of Lipid Vesicles Based on DNA Nanotechnology. ChemPlusChem 2022, 87, e202200074.

8. Wu, N.; Zhao, Y. DNA Nanostructures as Drug Carriers for Cellular Delivery. Chem. Res. Chin. Univ. 2020, 36, 177-184.

9. Yu, X.; Wu, N.; Chen, F.; Wei, J.; Zhao, Y. Engineering microfluidic chip for circulating tumor cells: From enrichment, release to single cell analysis. TrAC-Trend Anal. Chem. 2019, 117, 27-38.

10. Wu, N.; Chen F.; Zhao Y.; Yu X.; Wei J.; ZhaoY.X.,. Functional and Biomimetic DNA Nanostructures on Lipid Membranes. Langmuir，2018, 34(49), 14721-14730

11. Wu, N.; Willner, I., Programmed Dissociation of Dimer and Trimer Origami Structures by Aptamer-Ligand Complexes. Nanoscale，2017, 9 (4), 1416-1422.

12. Chen, F. ; Bai, M. ; Cao, K.; Zhao, Y.; Cao, X. W.; Wei, J.; Wu, N.; Li, J.; Wang, L. H.; Fan, C. H.; Zhao, Y. X., Programming Enzyme-Initiated Autonomous DNAzyme Nanodevices in Living Cells. ACS Nano., 2017, 11,11908-11914.

13. Wu, N.; Willner, I., pH-Stimulated Reconfiguration and Structural Isomerization of Origami Dimer and Trimer Systems. Nano Lett. 2016, 16 (10), 6650-6655.

14. Wu, N.; Willner, I., DNAzyme-Controlled Cleavage of Dimer and Trimer Origami Tiles. Nano Lett. 2016, 16 (4), 2867-2872.

15. Wu, N.; Czajkowsky, D. M.; Zhang, J. J.; Qu, J. X.; Ye, M.; Zeng, D. D.; Zhou, X. F.; Hu, J.; Shao, Z. F.; Li, B.; Fan, C. H., Molecular Threading and Tunable Molecular Recognition on DNA Origami Nanostructures. J. Am. Chem. Soc. 2013, 135 (33), 12172-12175.

16. Wu, N.; Zhou, X. F.; Czajkowsky, D. M.; Ye, M.; Zeng, D. D.; Fu, Y. M.; Fan, C. H.; Hu, J.; Li, B., In situ monitoring of single molecule binding reactions with time-lapse atomic force microscopy on functionalized DNA origami. Nanoscale 2011, 3 (6), 2481-2484.

17. Lu, C.-H.; Cecconello, A.; Qi, X.-J.; Wu, N.; Jester, S.-S.; Famulok, M.; Matthies, M.; Schmidt, T.-L.; Willner, I., Switchable Reconfiguration of a Seven-Ring Interlocked DNA Catenane Nanostructure. Nano Lett. 2015, 15 (10), 7133-7137.

18. Chao, J.; Zhang, P.; Wang, Q.; Wu, N.; Zhang, F.; Hu, J.; Fan, C. H.; Li, B., Single-molecule imaging of DNA polymerase I (Klenow fragment) activity by atomic force microscopy. Nanoscale 2016, 8 (11), 5842-5846.

19. Lin, M. H.; Wang, J. J.; Zhou, G. B.; Wang, J. B.; Wu, N.; Lu, J. X.; Gao, J. M.; Chen, X. Q.; Shi, J. Y.; Zuo, X. L.; Fan, C. H., Programmable Engineering of aBiosensing Interface with Tetrahedral DNA Nanostructures for Ultrasensitive DNA Detection. Angew. Chem., Int. Ed. 2015, 54 (7), 2151-2155.

20. Wu, N.; Wang, Q.; Zhou, X. F.; Jia, S. S.; Fan, Y. J.; Hu, J.; Li, B., Probing tethered targets of a single biomolecular complex with atomic force microscopy. J. Mol. Recognit. 2013, 26 (12), 700-704.