To optimize 13C direct detected experiments for the observation of signals close to a paramagnetic center, we have assessed the sensitivity of different sequences based on CO–Cali coherence transfer. Features of CACO experiments were tested for Calbindin D9k, in which one of the two native Ca2+ ions is replaced by the paramagnetic Ce3+ ion. We have studied the comparison of single vs multiple quantum coherence transfer evolution as well as the influence of in-phase vs anti-phase detection of 13CO signals and finally the comparison of a coherence transfer step based on a in plane with respect to a in plane. The acquisition of the anti-phase component of the signal, accomplished by the removal of the last refocusing steps, allowed the identification of some signals unobserved with other pathways. The structural dependency of paramagnetism-induced nuclear relaxation is such that the identification of the most suitable coherence transfer pathway is not known “a priori” but it is driven by the relative proximity of Cali and CO to the paramagnetic center.

13C direct detected experiments: optimisation to paramagnetic signals / I.Bertini; B.Jiménez; M.Piccioli. - In: JOURNAL OF MAGNETIC RESONANCE. - ISSN 1090-7807. - STAMPA. - 174:(2005), pp. 125-132. [10.1016/j.jmr.2005.01.014]

13C direct detected experiments: optimisation to paramagnetic signals

BERTINI, IVANO;PICCIOLI, MARIO
2005

Abstract

To optimize 13C direct detected experiments for the observation of signals close to a paramagnetic center, we have assessed the sensitivity of different sequences based on CO–Cali coherence transfer. Features of CACO experiments were tested for Calbindin D9k, in which one of the two native Ca2+ ions is replaced by the paramagnetic Ce3+ ion. We have studied the comparison of single vs multiple quantum coherence transfer evolution as well as the influence of in-phase vs anti-phase detection of 13CO signals and finally the comparison of a coherence transfer step based on a in plane with respect to a in plane. The acquisition of the anti-phase component of the signal, accomplished by the removal of the last refocusing steps, allowed the identification of some signals unobserved with other pathways. The structural dependency of paramagnetism-induced nuclear relaxation is such that the identification of the most suitable coherence transfer pathway is not known “a priori” but it is driven by the relative proximity of Cali and CO to the paramagnetic center.
2005
174
125
132
I.Bertini; B.Jiménez; M.Piccioli
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/309845
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