EU H2020 Project "BETADROPNMR (Ultra-sensitive NMR in liquids)": description, partecipants, costs and EC-fundings

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BetaDropNMR project word cloud

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metal liquid small probe pressure half severe limitations science sensitive anisotropic never toolbox successfully decay spin difficult chemistry nuclear periodic respect ultra environments relies interacting versatile soft suitable proteins configuration first orders explored techniques create solid motivated breaking constraints oxidation sensitivity table acids provides amount resonance biology extremely human spectroscopy questions nuclei samples mechanism biochemistry bonding vacuum fact ground zn2 influencing silent spectroscopically pose cu tool interaction physics applicable magnetic electronic chemical magnitude dynamics enlarging powerful revealing atmospheric contain ions mg2 conventional universal placed dozens nmr polarized overcoming structure material nucleic giving limited basis otherwise body complexes envisage particles beta firm emission situation

Project "BetaDropNMR" data sheet

The following table provides information about the project.

Coordinator	EUROPEAN ORGANIZATION FOR NUCLEAR RESEARCH Organization address address: ESPLANADE DES PARTICULES 1 PARCELLE 11482 DE MEYRIN BATIMENT CADASTRAL 1046 city: GENEVA 23 postcode: 1211 website: www.cern.ch contact info title: n.a. name: n.a. surname: n.a. function: n.a. email: n.a. telephone: n.a. fax: n.a.
Coordinator Country	Switzerland [CH]
Total cost	1˙500˙000 €
EC max contribution	1˙500˙000 € (100%)
Programme	1. H2020-EU.1.1. (EXCELLENT SCIENCE - European Research Council (ERC))
Code Call	ERC-2014-STG
Funding Scheme	ERC-STG
Starting year	2015
Duration (year-month-day)	from 2015-10-01 to 2021-09-30

#	participants	country	role	EC contrib. [€]
1	EUROPEAN ORGANIZATION FOR NUCLEAR RESEARCH	CH (GENEVA 23)	coordinator	1˙500˙000.00

EUROPEAN ORGANIZATION FOR NUCLEAR RESEARCH

CH (GENEVA 23)

coordinator

1˙500˙000.00

Project objective

'The nuclear magnetic resonance spectroscopy (NMR) is a versatile and powerful tool, especially in chemistry and in biology. However, its limited sensitivity and small amount of suitable probe nuclei pose severe constraints on the systems that may be explored. This project aims at overcoming the above limitations by giving NMR an ultra-high sensitivity and by enlarging the NMR 'toolbox' to dozens of nuclei across the periodic table. This will be achieved by applying the β-NMR method to the soft matter samples. The method relies on anisotropic emission of β particles in the decay of highly spin-polarized nuclei. This feature results in 10 orders of magnitude more sensitivity compared to conventional NMR and makes it applicable to elements which are otherwise difficult to investigate spectroscopically. β-NMR has been successfully applied in nuclear physics and material science in solid samples and high-vacuum environments, but never before to liquid samples placed in atmospheric pressure. With this novel approach I want to create a new universal and extremely sensitive tool to study various problems in biochemistry. The first questions which I envisage addressing with this ground-breaking and versatile method concern the interaction of essential metal ions, which are spectroscopically silent in most techniques, Mg2, Cu, and Zn2, with proteins and nucleic acids. The importance of these studies is well motivated by the fact that half of the proteins in our human body contain metal ions, but their interaction mechanism and factors influencing it are still not fully understood. In this respect NMR spectroscopy is of great help: it provides information on the structure, dynamics, and chemical properties of the metal complexes, by revealing the coordination number, oxidation state, bonding situation and electronic configuration of the interacting metal. My long-term aim is to establish a firm basis for β-NMR in soft matter studies in biology, chemistry and physics.'

Publications

List of publications.
year	authors and title	journal	last update
2018	M. Jankowski Enabling beta-Decay Asymmetry Measurements onLiquid Samples at the Versatile Ion-PolarizationTechniques Online (VITO) Beam Line published pages: , ISSN: , DOI:	Bachelor Thesis	2019-10-07
2018	M. Bissell1, R.F. Garcia-Ruiz1, W. Gins, M. Kowalska, G. Neyens2, S. Pallada, N. Severijns2, P. Velten2, F. Wienholtz, D. Zakoucky4, X.F. Yang2 Online commissioning of the laser-polarization setup at VITO published pages: , ISSN: , DOI:	Letter of Intent to the ISOLDE and Neutron Time-of-Flight Committee CERN-INTC-2016-026 / INTC-I-168	2019-10-07
2017	M. Kowalska1, V. Araujo Escalona2, M. Baranowski3, L. Cerato4, M. Bissell4, W. Gins2, R. Grzywacz6, F. Gustafsson2, R. Harding, L. Hemmingsen8, F. Hofmann8, H. Heylen9, A. Kanellakopoulos2, V. Kocman10, M. Kozak3, M. Madurga Flores6, G. Neyens2, S. Pallada, J. Plavec10, N. Severijns2, D. Szunyogh8, K. Szutkowski3, P. Thulstrup8, M. Walczak11, F. Wienholtz, J. Wolak3, X.F. Yang2, D. Zakoucky12 Interaction of Na ions with DNA G-quadruplex structuresstudied directly with Na beta-NMR spectroscopy published pages: , ISSN: , DOI:	Proposal to the ISOLDE and Time-of-Flight Committee CERN-INTC-2017-071 / INTC-P-521	2019-10-07
2018	M. Kowalska1, V. Araujo Escalona2, M. Baranowski3, J. Croese1,4, L. Cerato4, M. Bissell4, W. Gins2, F. Gustafsson2, R. Harding, L. Hemmingsen8, H. Heylen1, F. Hofmann8, A. Kanellakopoulos2, V. Kocman9, M. Kozak3, M. Madurga Flores6, G. Neyens1,2, S. Pallada, J. Plavec9, K. Szutkowski3, M. Walczak10, F. Wienholtz, J. Wolak3, X.F. Yang11, D. Zakoucky12 Interaction of Na+ ions with DNA G-quadruplex structures studied directlywith Na beta-NMR spectroscopy published pages: , ISSN: , DOI:	Addendum to P-521 to the ISOLDE and Neutron Time-of-Flight Commit CERN-INTC-2018-019 / INTC-P-521	2019-10-07
2018	W. Gins, R. Harding, M. Baranowski, M. L. Bissell, M. Kowalska, G. Neyens, S. Pallada, N. Severijns, Ph. Velten, M. Walczak, F. Wienholtz, Z. Y. Xu, X. F. Yang, D. Zakoucky The setup for laser spin-polarization at VITO-ISOLDE published pages: , ISSN: , DOI:	To be submitted to: Nuclear Instruments and Methods in Physics A	2019-10-07
2018	S. Pallada, for IS645 First Î²-NMR experiments with liquids at VITO published pages: 23, ISSN: , DOI:	ISOLDE Newsletter 2018	2019-10-07
2017	M Kowalska, P Aschenbrenner, M Baranowski, M L Bissell, W Gins, R D Harding, H Heylen, G Neyens, S Pallada, N Severijns, Ph Velten, M Walczak, F Wienholtz, Z Y Xu, X F Yang, D Zakoucky New laser polarization line at the ISOLDE facility published pages: 84005, ISSN: 0954-3899, DOI: 10.1088/1361-6471/aa77d7	Journal of Physics G: Nuclear and Particle Physics 44/8	2019-10-07
2017	Attila Jancso, Joao G Correia, Alexander Gottberg, Juliana Schell, Monika Stachura, DÃ¡niel Szunyogh, Stavroula Pallada, Doru C Lupascu, Magdalena Kowalska, Lars Hemmingsen TDPAC and Î² -NMR applications in chemistry and biochemistry published pages: 64003, ISSN: 0954-3899, DOI: 10.1088/1361-6471/aa666b	Journal of Physics G: Nuclear and Particle Physics 44/6	2019-10-07
2018	W. Gins, R. D. Harding, M. Baranowski, M. L. Bissell, R. F. Garcia Ruiz, M. Kowalska, G. Neyens, S. Pallada, N. Severijns, Ph. Velten, F. Wienholtz, Z. Y. Xu, X. F. Yang, D. Zakoucky A new beamline for laser spin-polarization at ISOLDE published pages: , ISSN: 0168-9002, DOI:	Nuclear Instruments and Methods A	2019-10-07
2018	M. Kowalska, V. Araujo Escalona, M. Baranowski3, J. Croese1,4, L. Cerato4, M. Bissell4, W. Gins2, F. Gustafsson2, R. Harding, L. Hemmingsen8, H. Heylen1, F. Hofmann, A. Kanellakopoulos, V. Kocman, M. Kozak, M. Madurga Flores, G. Neyens, S. Pallada, J. Plavec9, K. Szutkowski3, M. Walczak10, F. Wienholtz1, J. Wolak3, X.F. Yang11, D. Zakoucky1 Interaction of Na+ ions with DNA G-quadruplex structures studied directly with Na beta-NMR spectroscopy published pages: , ISSN: , DOI:	CERN INTC Addendum to Proposal	2019-10-07

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