1 to 4 of 4 Results
Jun 13, 2024 - AG Wittbrodt
Afting, Cassian; Mainik, Philipp; Vazquez-Martel, Clara; Abele, Tobias; Kaul, Verena; Kale, Girish; Göpfrich, Kerstin; Lemke, Steffen; Blasco, Eva; Wittbrodt, Joachim, 2024, "Minimal-Invasive 3D Laser Printing of Microimplants in Organismo [data]", https://doi.org/10.11588/data/MVBFOY, heiDATA, V1
Multi-photon 3D laser printing has gathered much attention in recent years as a means of manufacturing biocompatible scaffolds that can modify and guide cellular behavior in vitro. However, in vivo tissue engineering efforts have been limited so far to the implantation of beforeh... |
May 1, 2024
Taale, Mohammadreza, 2024, "A Minimalistic, Synthetic Cell-Inspired Metamaterial for Enabling Reversible Strain-Stiffening [data]", https://doi.org/10.11588/data/MNMLVX, heiDATA, V2
Strain-stiffening, i.e. the nonlinear stiffening of a material in response to a strain, is an intrinsic feature of many biological systems, including skin, blood vessels, and single cells. To avoid a mismatch in mechanical properties, synthetic materials in contact with such biol... |
Feb 28, 2022 - Göpfrich Group - Biophysical Engineering of Life
Goepfrich, Kerstin; Walther, Tobias, 2022, "Printing and Erasing of DNA-based Photoresists inside Synthetic Cells [RESEARCH DATA]", https://doi.org/10.11588/data/MKOC9S, heiDATA, V1
In the pursuit to produce functioning synthetic cells from the bottom up, DNA nanotechnology has proven to be a powerful tool. However, the crowded yet highly organized arrangement in living cells, bridging from the nano- to the micron-scale, remains challenging to recreate with... |
Nov 30, 2021 - Göpfrich Group - Biophysical Engineering of Life
Abele, Tobias; Messer, Tobias; Jahnke, Kevin; Hippler, Marc; Bastmeyer, Martin; Wegener, Martin; Goepfrich, Kerstin, 2021, "Two-Photon 3D Laser Printing Inside Synthetic Cells [Research Data]", https://doi.org/10.11588/data/PUKJCV, heiDATA, V1
Towards the ambitious goal of manufacturing synthetic cells from the bottom up, various cellular components have already been reconstituted inside of lipid vesicles. However, the deterministic positioning of these components inside the compartment has remained elusive. Here, by u... |