BPK im Magnus-Haus
Physik in Berlin
Die PGzB

Berliner Physikalisches Kolloquium
im Magnus-Haus

Das Berliner Physikalische Kolloquium (BPK) im Magnus-Haus wurde 1998 von der Physikalischen Gesellschaft zu Berlin initiiert und wird in Gemeinschaft mit der Freien Universität Berlin, der Humboldt-Universität zu Berlin, der Technischen Universität Berlin und der Universität Potsdam mit Unterstützung durch die Wilhelm und Else Heraeus-Stiftung durchgeführt. Es findet - außer in den Monaten März, August und September - an jedem ersten oder zweiten Donnerstag im Monat statt.

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Berliner Physikalisches Kolloquium
im Sommersemester 2021

Im Berliner Physikalische Kolloquium im Magnus-Haus wird

Prof. Dr. Philipp Kukura,

Physical and Theoretical Chemistry Laboratory, Department of Chemistry,

University of Oxford, United Kingdom,


Vortragstitel: Mass photometry: weighing molecules with light 
Termin: Donnerstag, 6. Mai 2021, 18:30 Uhr 
Moderation: Karsten Heyne, Freie Universit├Ąt Berlin 
Ort: Magnus-Haus
Am Kupfergraben 7
10117 Berlin 


Interactions between biomolecules control the processes of life in health, and their malfunction in disease, making their characterization and quantification essential to our understanding of the underlying molecular mechanisms. I will introduce mass photometry, the accurate mass measurement of individual molecules in solution by light scattering, as a general approach for studying biomolecular mechanisms, bridging mass spectrometry and light microscopy. This unique combination of measurement principles and obtainable information results in broad applicability with the ability to accurately determine the relative amounts of species in complex mixtures without the need for labels or other sample modifications enabling study of interaction stoichiometries, energetics and kinetics. I will demonstrate the power of these measurements by revealing the molecular mechanisms, enabled by the measurement of the underlying physicochemical parameters, of fundamental processes in biology such as filament formation and self-assembly on membranes. These results establish mass photometry as a powerful, solution-based, label-free, yet single molecule method to quantify and thereby study biomolecular structure and interactions. In combination with future improvements in both technical capabilities and assays, mass photometry could make significant headway towards the ultimate goal of revealing biomolecular mechanisms directly at the molecular level.

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