Sf_category,Sf_framecode,Entry_ID,Sf_ID,ID,Name,Data_file_name,Sample_condition_list_ID,Sample_condition_list_label,Spectrometer_frequency_1H,Val_units,Details,Text_data_format,Text_data
dipole_dipole_cross_correlations,Neurotoxin_II_800_dipole-dipole_cross-correlation_contribution_to_R1,19704,110522,1,,,1,sample_conditions_1,800153761,s-1,"For XH2 groups dipolar cross-correlation contribution to R1 [Yang PPL 2011] was
measured according to [Mayo JMR 2004] with the reference experiment equipped
with the cycle of gradient blocks during the T1 delay according to [Bruschweiler
JBNMR 2003] for preventing the dipole-dipole cross-correlated relaxation
effects. For 13CH3 groups dipolar cross-correlation contribution to 13C R1 [Yang
PPL 2011] were obtained with measuring individual relaxation rates for all
components of methyl 13C quadruplet according to [Yang PPL 2011] and using the
reference experiment [Mayo JMR 2004] equipped with the cycle of gradient blocks
during the T1 delay according to [Bruschweiler JBNMR 2003] for preventing the
dipole-dipole cross-correlated relaxation effects. Both approaches were in a
good agreement.",,
dipole_dipole_cross_correlations,Neurotoxin_II_800_dipole-dipole_cross-correlation_contribution_to_R2,19704,110523,2,,,1,sample_conditions_1,800153761,s-1,"For 13CH3 groups dipolar cross-correlation contribution to 13C
R2 [Yang PPL 2011] were obtained according to [Yang JACS 2006].",,
dipole_dipole_cross_correlations,DD_cross_correlation_relaxation_list_1,27245,151918,1,,,1,sample_conditions_1,600,s-1,,,
dipole_dipole_cross_correlations,DD_cross_correlation_relaxation_list_2,27245,151919,2,,,1,sample_conditions_1,600,s-1,,,
dipole_dipole_cross_correlations,DD_cross_correlation_relaxation_list_1,27350,153437,1,,,1,sample_conditions_1,950,s-1,,,
dipole_dipole_cross_correlations,DD_cross_correlation_relaxation_list_2,27350,153438,2,,,1,sample_conditions_1,950,s-1,,,