Active Motif's Podcast   /     Advanced Optical Imaging in 3D Nuclear Organisation (Lothar Schermelleh)

Description

In this episode of the Epigenetics Podcast, we talked with Lothar Schermelleh from the University of Oxford about his work on advanced optical imaging in 3D nuclear organisation.  The interview starts by Lothar Schermelleh sharing his groundbreaking work in understanding chromatin organization using super-resolution microscopy techniques. He then delves into his past experiments, including his publication on imaging chromatin domains and X chromosome inactivation. His work showcases the power of structured illumination microscopy in overcoming diffraction limits, revealing insights into nuclear organization and regulation. Lothar also discusses refining methods for labeling chromosome territories and replication domains, as well as exploring structural and functional nuclear organization using advanced microscopy techniques. They touch on the potential of AI in microscopy, the importance of quality control in imaging, and Lothar's grant proposal for developing artifact-free, super-resolution imaging under cryo conditions with adaptive optics. The conversation emphasizes the intersection of technology development and biological applications, highlighting the importance of addressing specific biological questions through innovative imaging approaches.    References Schermelleh, L., Carlton, P. M., Haase, S., Shao, L., Winoto, L., Kner, P., Burke, B., Cardoso, M. C., Agard, D. A., Gustafsson, M. G., Leonhardt, H., & Sedat, J. W. (2008). Subdiffraction multicolor imaging of the nuclear periphery with 3D structured illumination microscopy. Science (New York, N.Y.), 320(5881), 1332–1336. https://doi.org/10.1126/science.1156947 Schermelleh, L., Heintzmann, R., & Leonhardt, H. (2010). A guide to super-resolution fluorescence microscopy. The Journal of cell biology, 190(2), 165–175. https://doi.org/10.1083/jcb.201002018 Smeets, D., Markaki, Y., Schmid, V. J., Kraus, F., Tattermusch, A., Cerase, A., Sterr, M., Fiedler, S., Demmerle, J., Popken, J., Leonhardt, H., Brockdorff, N., Cremer, T., Schermelleh, L., & Cremer, M. (2014). Three-dimensional super-resolution microscopy of the inactive X chromosome territory reveals a collapse of its active nuclear compartment harboring distinct Xist RNA foci. Epigenetics & chromatin, 7, 8. https://doi.org/10.1186/1756-8935-7-8 Ball, G., Demmerle, J., Kaufmann, R., Davis, I., Dobbie, I. M., & Schermelleh, L. (2015). SIMcheck: a Toolbox for Successful Super-resolution Structured Illumination Microscopy. Scientific reports, 5, 15915. https://doi.org/10.1038/srep15915   Related Episodes Long-Range Transcriptional Control by 3D Chromosome Structure (Luca Giorgetti) Analysis of 3D Chromatin Structure Using Super-Resolution Imaging (Alistair Boettiger)   Contact Epigenetics Podcast on X Epigenetics Podcast on Instagram Epigenetics Podcast on Mastodon Epigenetics Podcast on Bluesky Epigenetics Podcast on Threads Active Motif on X Active Motif on LinkedIn Email: podcast@activemotif.com

Summary

In this episode of the Epigenetics Podcast, we talked with Lothar Schermelleh from the University of Oxford about his work on advanced optical imaging in 3D nuclear organisation.  The interview starts by Lothar Schermelleh sharing his groundbreaking work in understanding chromatin organization using super-resolution microscopy techniques. He then delves into his past experiments, including his publication on imaging chromatin domains and X chromosome inactivation. His work showcases the power of structured illumination microscopy in overcoming diffraction limits, revealing insights into nuclear organization and regulation. Lothar also discusses refining methods for labeling chromosome territories and replication domains, as well as exploring structural and functional nuclear organization using advanced microscopy techniques. They touch on the potential of AI in microscopy, the importance of quality control in imaging, and Lothar's grant proposal for developing artifact-free, super-resolution imaging under cryo conditions with adaptive optics. The conversation emphasizes the intersection of technology development and biological applications, highlighting the importance of addressing specific biological questions through innovative imaging approaches.    References Schermelleh, L., Carlton, P. M., Haase, S., Shao, L., Winoto, L., Kner, P., Burke, B., Cardoso, M. C., Agard, D. A., Gustafsson, M. G., Leonhardt, H., & Sedat, J. W. (2008). Subdiffraction multicolor imaging of the nuclear periphery with 3D structured illumination microscopy. Science (New York, N.Y.), 320(5881), 1332–1336. https://doi.org/10.1126/science.1156947 Schermelleh, L., Heintzmann, R., & Leonhardt, H. (2010). A guide to super-resolution fluorescence microscopy. The Journal of cell biology, 190(2), 165–175. https://doi.org/10.1083/jcb.201002018 Smeets, D., Markaki, Y., Schmid, V. J., Kraus, F., Tattermusch, A., Cerase, A., Sterr, M., Fiedler, S., Demmerle, J., Popken, J., Leonhardt, H., Brockdorff, N., Cremer, T., Schermelleh, L., & Cremer, M. (2014). Three-dimensional super-resolution microscopy of the inactive X chromosome territory reveals a collapse of its active nuclear compartment harboring distinct Xist RNA foci. Epigenetics & chromatin, 7, 8. https://doi.org/10.1186/1756-8935-7-8 Ball, G., Demmerle, J., Kaufmann, R., Davis, I., Dobbie, I. M., & Schermelleh, L. (2015). SIMcheck: a Toolbox for Successful Super-resolution Structured Illumination Microscopy. Scientific reports, 5, 15915. https://doi.org/10.1038/srep15915   Related Episodes Long-Range Transcriptional Control by 3D Chromosome Structure (Luca Giorgetti) Analysis of 3D Chromatin Structure Using Super-Resolution Imaging (Alistair Boettiger)   Contact Epigenetics Podcast on X Epigenetics Podcast on Instagram Epigenetics Podcast on Mastodon Epigenetics Podcast on Bluesky Epigenetics Podcast on Threads Active Motif on X Active Motif on LinkedIn Email: podcast@activemotif.com