Through this action we developed a new technology that allows millisecond time correlation between live imaging and electron microscopy. A roundworm (Caenorhabditis elegans) was used as a test sample to establish compatibility of the new microfluidic cryofixation method with subsequent transmission electron microscopy.
To achieve the action objectives, a specialized microfluidic device design and device fabrication procedures were developed to achieve an average cooling rate of 24,000ºC/s. The overall cryofixation system was designed as a self-contained, portable unit that could be transferred from the light microscope experimental setup to a deep liquid nitrogen bath. Removing a single access screw allowed the microfluidic chip housing the sample to be recovered at -196°C under liquid nitrogen. Cryo-electron tomography of microfluidic cryofixed C. elegans showed that the ultrastructure of the sample was well preserved with this cryofixation method. Following live imaging and microfluidic-based cryofixation, the sample ultrastructure was imaged using either state-of-the-art electron tomography or more well-established freeze substitution, resin embedding, and electron microscopy procedures.
The detailed results of this work are openly available in the following publications:
1. Fuest, M., Schaffer, M., Nocera, G.M. et al. In situ Microfluidic Cryofixation for Cryo Focused Ion Beam Milling and Cryo Electron Tomography. Sci Rep 9, 19133 (2019).
https://doi.org/10.1038/s41598-019-55413-2(odnośnik otworzy się w nowym oknie)2. Fuest M, Nocera GM, Modena MM, Riedel D, Mejia YX, Burg TP. Cryofixation during live-imaging enables millisecond time-correlated light and electron microscopy. J Microsc. 2018;272(2):87-95. doi:10.1111/jmi.12747
The results have been presented to the national and international scientific community at three conferences:
1. M. Fuest, M. Schaffer, G.M. Nocera, R. Galilea-Kleinsteuber, J.E. Messling, J. M. Plitzko, T. P. Burg. “Cryo-Microfluidic Devices Enable Millisecond Time Correlation Between Live-Imaging and Cryo-Electron Microscopy in C. elegans”. MicroTas 2019, Basel, Switzerland, October 30, 2019.
2. M. Fuest, G.M. Nocera, M. Modena, D. Riedel, T.P. Burg. Invited. “Advances in microfluidic cryofixation for correlative light and electron microscopy”. Microscopy Conference 2017, Lausanne, Switzerland, Aug. 22, 2017. As an invited speaker
3. M. Fuest, G.M. Nocera, M. Modena, T.P. Burg. “Fabrication Advances for Microfluidic Cryofixation”. Mikrosystem Technik Kongress 2017, Munich, Germany, October 25, 2017.