Nuclear Magnetic Resonance (NMR) is an extremely sensitive technique used in many fields of research, including chemistry and biology where is is used to determine the structure and interactions of many different biomolecules. However, its main limitation is a very poor sensitivity. The aim of the betaDropNMR project is to transfer an ultrasensitive version of NMR, namely beta-detected NMR, from nuclear physics applications to chemistry and biology and to investigate with it the interaction of essential metal ions with biomolecules. Because beta-(detected) NMR requires up to a billion times fewer probe nuclei, studies which suffered from low NMR sensitivity might be now possible, e.g. investigation of zinc interaction with different proteins or interaction of Na+ and K+ ions with DNA G-quadruplex structures, which all play roles in the correct functioning of our organisms, and their malfunctioning, or are believed to be related to different diseases, including Parkinson's and Alzheimer’s.
The project has allowed for the 1st alkali-metal beta-NMR studies in liquid samples and to connect it to conventional NMR. This opens the possibility of using a much more sensitive approach to investigate metal ions and their interactions with different biomolecues via NMR, and thus learning new things about theses systems.