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AUNAB - Aarhus University Network on Artificial Biology

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Recent research news on Artificial Biology

Distinct Network Morphologies from In Situ Polymerization of Microtubules in Giant Polymer-Lipid Hybrid Vesicles

Creating artificial cells with a dynamic cytoskeleton, akin to those in living cells, is a major goal in bottom-up synthetic biology. In this study, we demonstrate the in situ polymerization of microtubules encapsulated in giant polymer-lipid hybrid vesicles (GHVs) composed of 1,2-dioleoyl-sn-glycero-3-phosphocholine and an amphiphilic block copolymer. The block copolymer is comprised of poly(cholesteryl methacrylate-co-butyl methacrylate) as the hydrophobic block and either poly(6-O-methacryloyl-D-galactopyranose) or poly(carboxyethyl acrylate) as the hydrophilic extension. Depending on the concentrations of guanosine triphosphate (GTP) or its slowly hydrolyzable analog, guanosine-5′-[(α,β)-methyleno]triphosphate (GMPCPP), different microtubule morphologies are observed, including encapsulated microtubule networks, spike protrusions, as well as membrane-associated or aggregated microtubules. Overall, this work represents a step forward in mimicking the cellular cytoskeletons and uncovering the influence of membrane composition on microtubule morphologies.

Recent publications by network

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Hoffmann, N., Mittnacht, U., Hartmann, H., Baumer, Y., Kjems, J., Oberhoffner, S. & Schlosshauer, B. (2011). Neuronal and glial responses to siRNA-coated nerve guide implants in vitro. Neuroscience Letters, 494(1), 14-8. https://doi.org/10.1016/j.neulet.2011.02.043

Nielsen, K. H. & Kjærgaard, R. S. (2011). News coverage of climate change in Nature News and ScienceNOW during 2007. Environmental Communication, 5(1), 25-44. https://doi.org/10.1080/17524032.2010.520722

Nielsen, K. H. (2011). Nye energiregimer – forandring og kontinuitet gennem hybridisering. Videnskab.dk. http://videnskab.dk/blog/nye-energiregimer-forandring-og-kontinuitet-gennem-hybridisering

Hobolth, A., Andersen, L. N. & Mailund, T. (2011). On computing the coalescence time density in an isolation-with-migration model with few samples. Genetics, 187, 1242-1243. https://doi.org/10.1534/genetics.110.124164

Lin, L., Cunshan, Z., Vittayapadung, S., Xiangqian, S. & Dong, M. (2011). Opportunities and challenges for biodiesel fuel. Applied Energy, 88(4), 1020-1031. https://doi.org/10.1016/j.apenergy.2010.09.029

Ren, W., Li, Y., Chen, M., Liu, B., Li, X. & Dong, M. (2011). Oriented growth of single NaCl (100) crystal induced by Langmuir–Blodgett film. Journal of Materials Research, 26(02).

Lynge, M. E., Ogaki, R., Laursen, A. O., Lovmand, J., Sutherland, D. S. & Stadler, B. (2011). Polydopamine/Liposome Coatings and Their Interaction with Myoblast Cells. A C S Applied Materials and Interfaces, 3(6), 2142-2147. https://doi.org/10.1021/am200358p

Lynge, M. E., Ogaki, R., Laursen, A. O., Lovmand, J., Sutherland, D. S. & Stadler, B. M. (2011). Polydopamine/Liposome Coatings and Their Interaction with Myoblast Cells. A C S Applied Materials and Interfaces, 3(6), 2142-2147. https://doi.org/10.1021/am200358p

Alves, M.-H., Jensen, B. E. B., Smith, A. A. A. & Zelikin, A. N. (2011). Poly(vinyl alcohol) physical hydrogels : New vista on a long serving biomaterial. Macromolecular Bioscience, 11, 1293-1313.

Jensen, B. E. B., Smith, A. A. A., Fejerskov, B., Postma, A., Senn, P., Reimhult, E., Pla-Roca, M., Isa, L., Sutherland, D. S., Stadler, B. & Zelikin, A. N. (2011). Poly(vinyl alcohol) Physical Hydrogels: Non-cryogenic Stabilization Allows Nano- and Micro-Scale Materials Design. Langmuir, 27(16), 10216–10223. https://doi.org/10.1021/la201595e

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Kalinka Hansen