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AUNAB - Aarhus University Network on Artificial Biology

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Recent research news on Artificial Biology

Actin-Powered Motors Build Cytoskeletons in Artificial Cells

AUNAB members Assistant Prof. Miguel Ramos Docampo's and Prof. Brigitte Stadler's effort to engineered artificial cells to form cytoskeleton-like networks using nanomotor-driven actin polymerization is published in ACS Nano. These hybrid vesicles merge active matter with synthetic biology to achieve life-like movement and self-organization inspired by Listeria’s actin-based propulsion.

16 October 2025 by Emilia Djomina Hansen

Read the article published in ACS Nano here.

Contact information:
Professor Brigitte Maria Städler
Aarhus University
Interdisciplinary Nanoscience Center (iNANO)
Email: bstadler@inano.au.dk

Assistant Professor Miguel Alexandre Ramos Docampo
Aarhus University
Interdisciplinary Nanoscience Center (iNANO)
Email: miramos@inano.au.dk

Recent publications by network

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Liu, D., Geary, C. W., Chen, G., Shao, Y., Li, M., Mao, C., Andersen, E. S., Piccirilli, J. A., Rothemund, P. W. K. & Weizmann, Y. (2020). Branched kissing loops for the construction of diverse RNA homooligomeric nanostructures. Nature Chemistry, 12(3), 249-259. https://doi.org/10.1038/s41557-019-0406-7

Carlevaro-Fita, J., Lanzós, A., Feuerbach, L., Hong, C., Mas-Ponte, D., Pedersen, J. S., PCAWG Drivers and Functional Interpretation Group, Johnson, R. & PCAWG Consortium (2020). Cancer LncRNA Census reveals evidence for deep functional conservation of long noncoding RNAs in tumorigenesis. Communications Biology, 3(1), Article 56. https://doi.org/10.1038/s42003-019-0741-7

Müller, C. A., Jørgensen, M. L. & Chen, M. (2020). Can Filtration Technology Advance Culture of Circulating Tumor Cells towards Precision Medicine? Archives of Cancer Biology and Therapy, 1(3). https://www.scientificarchives.com/article/can-filtration-technology-advance-culture-of-circulating-tumor-cells-towards-precision-medicine

Spanjers, J. M. & Städler, B. (2020). Cell Membrane Coated Particles. Advanced Biosystems, 4(11), Article 2000174. https://doi.org/10.1002/adbi.202000174

Monge, P., Tvilum, A., Søgaard, A. B., Løvschall, K. B., Jarlstad Olesen, M. T. & Zelikin, A. N. (2020). Chemical Artificial Internalizing Receptors for Primary T Cells. Advanced Science, 7(18), Article 2001395. https://doi.org/10.1002/advs.202001395

Agergaard, T. E., Kragh, G. & Nielsen, K. H. (2020). Citizen science i Danmark: Projekter, litteratur og aktører. Aarhus Universitetsforlag. http://unipress.dk/udgivelser/c/citizen-science-i-danmark/

Kaarsted, T. & Nielsen, K. H. (2020). Citizen science i Danmark. Revy, 43(4), 17-20. https://doi.org/10.22439/revy.v43i4.6102

Sun, D., Zhang, Z., Chen, M., Zhang, Y., Amagat, J., Kang, S., Zheng, Y., Hu, B. & Chen, M. (2020). Co-immobilization of Ce6 Sono/photosensitizer and Protonated Graphitic-Carbon Nitride on PCL/gelation Fibrous Scaffolds For Combined Sono-photodynamic Cancer Therapy. ACS applied materials & interfaces, 12(36), 40728-40739. https://doi.org/10.1021/acsami.0c08446

Shuai, S., PCAWG Drivers and Functional Interpretation Working Group, Gallinger, S., Stein, L. & PCAWG Consortium (2020). Combined burden and functional impact tests for cancer driver discovery using DriverPower. Nature Communications, 11(1), Article 734. https://doi.org/10.1038/s41467-019-13929-1

Tang, H., Wang, Z., Mamakhel, M. A. H., Dong, M. & Christensen, M. (2020). Combustion assisted preparation of high coercivity Sm–Co hard magnet with stable single-domain size. Journal of Alloys and Compounds, 816, Article 152527. https://doi.org/10.1016/j.jallcom.2019.152527

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Kalinka Hansen