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en:aree:nmr:hrnmr:start [2020/02/04 18:28] Gianluca Frustagli |
en:aree:nmr:hrnmr:start [2023/02/16 01:57] (current) Gianluca Frustagli Update for new instrumentation. |
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| Nuclear magnetic resonance (NMR) spectroscopy allows to identify the structure and composition of molecules and mixtures; to study the metabolic phenotype of cells, tissues and biological fluids; to characterize the molecular processes associated with a given phenotype and to follow the pharmacological effects on the metabolism. | Nuclear magnetic resonance (NMR) spectroscopy allows to identify the structure and composition of molecules and mixtures; to study the metabolic phenotype of cells, tissues and biological fluids; to characterize the molecular processes associated with a given phenotype and to follow the pharmacological effects on the metabolism. | ||
| - | The service makes use of a 9.4 T Bruker Avance NMR spectrometer, with the availability of selective probes for proton, carbon and phosphorus, for metabolomics studies. | + | The service makes use of a **14 T Bruker Avance NMR spectrometer**, with the availability of selective probes for proton, carbon and phosphorus, for metabolomics studies. |
| The staff offers support for experimental design and experiment planning and data analysis | The staff offers support for experimental design and experiment planning and data analysis | ||
