AUTHOR=Schulte Jonathan , Tants Jan-Niklas , von Ehr Julian , Schlundt Andreas , Morgner Nina TITLE=Determination of dissociation constants via quantitative mass spectrometry JOURNAL=Frontiers in Analytical Science VOLUME=3 YEAR=2023 URL=https://www.frontiersin.org/journals/analytical-science/articles/10.3389/frans.2023.1119489 DOI=10.3389/frans.2023.1119489 ISSN=2673-9283 ABSTRACT=

The interplay of biomolecules governs all cellular processes. Qualitative analysis of such interactions between biomolecules as well as the quantitative assessment of their binding affinities are essential for the understanding of biochemical mechanisms. As scientific interest therefore moves beyond pure structural investigation, methods that allow for the investigation of such interactions become increasingly relevant. In this perspective we outline classical methods that are applicable for the determination of binding constants and highlight specifically mass spectrometry based methods. The use of mass spectrometry to gain quantitative information about binding affinities however is a still developing field. Here, we discuss different approaches, which emerged over the last years to determine dissociation constants (KD) with mass spectrometry based methods. Specifically, we highlight the recent development of quantitative Laser Induced Liquid Bead Ion Desorption (qLILBID) mass spectrometry for the example of double stranded deoxyribonucleic acids as well as for different RNA—RNA binding protein systems. We show that quantitative laser induced liquid bead ion desorption can successfully be used for the top down investigation of complexes and their dissociation constants values ranging from low nM to low µM affinities.