Studying the Mechanics of DNA Rearrangements with Optical Tweezers
Thursday, July 11th, 2024 | 08:00 AM PDT | 11:00 AM EDT | 5:00 PM CEST
We warmly invite you to join us and our special guest speaker Dr. Maxim Molodtsov from The Francis Crick Institute, UK, for this webinar on Studying the Mechanics of DNA Rearrangements with Optical Tweezers.
The Nobel Prize winning Optical Tweezers (OT) technique enables the non-invasive, nanometer-precise manipulation of individual cells, molecules and nanoparticles, and the simultaneous application and quantification of the piconewton forces acting on them. OT can be used to study the smallest biological entities, from sub-cellular structures to DNA and proteins, providing unprecedented insights into life’s fundamental building blocks.
Bruker’s force-sensing optical tweezers systems can be seamlessly combined with advanced optical techniques, e.g. confocal, STED, TIRF, and DIC, enabling a host of novel research possibilities.
In his talk, Dr. Maxim Molodtsov will speak about his work investigating the forces involved in the molecular mechanisms underlying the three-dimensional organization and physical rearrangements of DNA during the cell cycle, crucial factors in gene regulation, repair, recombination, and cell division.
Don’t miss the demonstration on the NanoTracker 2 Optical Tweezers, live from our labs in Berlin, where we will perform a DNA stretching experiment and measure the forces involved in the folding and unfolding of DNA.
Please download the program for details.
Meet the Guest Speaker
Dr. Maxim Molodtsov
The Francis Crick Institute, UK
As a graduate student at the Molecular Cellular and Developmental Biology Department of the University of Colorado Boulder, USA, Maxim studied the forces generated by cytoskeleton microtubules. In a postdoctoral position at the Institute of Molecular Pathology in Vienna, Austria, he continued his work on the cytoskeleton, and also initiated projects aimed at understanding the three-dimensional organization of DNA. Since 2019, Maxim has been a group leader at The Francis Crick Institute, a biomedical research center in London, UK. He also lectures at the Department of Physics and Astronomy, University College London (UCL).
Bruker’s force-sensing optical tweezers systems can be seamlessly combined with advanced optical techniques, e.g. confocal, STED, TIRF, and DIC, enabling a host of novel research possibilities.
In his talk, Dr. Maxim Molodtsov will speak about his work investigating the forces involved in the molecular mechanisms underlying the three-dimensional organization and physical rearrangements of DNA during the cell cycle, crucial factors in gene regulation, repair, recombination, and cell division.
Don’t miss the demonstration on the NanoTracker 2 Optical Tweezers, live from our labs in Berlin, where we will perform a DNA stretching experiment and measure the forces involved in the folding and unfolding of DNA.
Please download the program for details.
Meet the Guest Speaker
Dr. Maxim Molodtsov
The Francis Crick Institute, UK
As a graduate student at the Molecular Cellular and Developmental Biology Department of the University of Colorado Boulder, USA, Maxim studied the forces generated by cytoskeleton microtubules. In a postdoctoral position at the Institute of Molecular Pathology in Vienna, Austria, he continued his work on the cytoskeleton, and also initiated projects aimed at understanding the three-dimensional organization of DNA. Since 2019, Maxim has been a group leader at The Francis Crick Institute, a biomedical research center in London, UK. He also lectures at the Department of Physics and Astronomy, University College London (UCL).
