Explore how membrane tension propagates in cells using advanced techniques like optogenetics and the C-Trap. Shannon’s talk challenges existing theories by demonstrating how actin-driven forces influence global membrane dynamics, supported by a new mechanical model.

Explore how nanoscale macromolecular machines manage genome replication and gene expression despite challenges like complex chromatin structures and thermal fluctuations. Discover the role of single-molecule techniques like C-Trap in uncovering the dynamics of DNA processes and advancing our understanding of genetic and epigenetic inheritance.

Advance your understanding of fanconi anemia related DNA repair mechanisms and their role in cancer treatment. Explore dynamic single-molecule analysis with the LUMICKS C-Trap instrument in this insightful webcast.

Understand how Dynamic Single-Molecule (DSM) microscopy is utilized to observe DNA replication complexes in real-time. Join Prof. Nynke Dekker and learn how nucleosomes and other DNA structures influence molecular interactions during DNA replication.

Prof. Banerjee uncovers the role of biomolecular condensation in the context of neurodegenerative diseases

Prof. Tessmer uncovered an unknown protein recruitment mechanism in nucleotide excision repair (NER)

Prof. Gennerich’s work focuses on molecular mechanisms of cellular transport and its role in health and disease

Prof. Moreno-Herrero’s research sheds new light on chromatin organization mechanisms in bacteria

Prof. Montoya investigates molecular mechanisms of CRISPR/Cas-DNA interactions to improve gene editing tools