Difference between revisions of "Sherekhan"
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(Created page with "== Online analysis tool == [http://sherekhan.bionmr.org/ Homepage] <br> [http://sherekhan.bionmr.org/app/help Fitting functions]") |
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| + | __TOC__ | ||
| + | |||
== Online analysis tool == | == Online analysis tool == | ||
[http://sherekhan.bionmr.org/ Homepage] <br> | [http://sherekhan.bionmr.org/ Homepage] <br> | ||
[http://sherekhan.bionmr.org/app/help Fitting functions] | [http://sherekhan.bionmr.org/app/help Fitting functions] | ||
| + | |||
| + | == Use relax GUI to create input file == | ||
| + | |||
| + | |||
| + | == Use relax script to create input file == | ||
| + | <source lang="python"> | ||
| + | # Create the 'rx' data pipe. | ||
| + | pipe.create(pipe_name='origin rx', pipe_type='relax_disp', bundle='rx') | ||
| + | |||
| + | # The type of experiment | ||
| + | relax_disp.exp_type(exp_type='cpmg fixed') | ||
| + | |||
| + | # Read the sequence from file | ||
| + | sequence.read(file='table_ser_files_model.txt', | ||
| + | dir=None, spin_id_col=None, mol_name_col=1, res_num_col=2, res_name_col=3, spin_num_col=4, spin_name_col=5, sep=None, spin_id=None) | ||
| + | |||
| + | # Read the intensities from columns | ||
| + | spectrum.read_intensities(file='table_ser_files_model.txt', | ||
| + | dir=None, spectrum_id='0_2', heteronuc='N', proton='HN', int_method='point sum', int_col=(6), spin_id_col=None, mol_name_col=1, | ||
| + | res_num_col=2, res_name_col=3, spin_num_col=4, spin_name_col=5, sep=None, spin_id=None, ncproc=None) | ||
| + | relax_disp.cpmg_frq(spectrum_id='0_2', cpmg_frq=40.0) | ||
| + | relax_disp.relax_time(spectrum_id='0_2', time=0.05) | ||
| + | spectrometer.frequency(id='0_2', frq=750.0614444, units='MHz') | ||
| + | |||
| + | ### Repeat for loading all intensity files | ||
| + | |||
| + | # Replicated spectrums | ||
| + | spectrum.replicated(spectrum_ids=['0_2','7_2','14_2',]) | ||
| + | spectrum.replicated(spectrum_ids=['15_14','16_14','20_14',]) | ||
| + | spectrum.replicated(spectrum_ids=['3_30','8_30','17_30',]) | ||
| + | spectrum.replicated(spectrum_ids=['9_46','19_46','22_46',]) | ||
| + | # Spin isotope | ||
| + | spin.isotope(isotope='15N', spin_id='@N*', force=True) | ||
| + | |||
| + | # Make error analysis | ||
| + | spectrum.error_analysis(subset=['0_2', '1_0', '2_8', '3_30', '4_4', '5_42', '6_6', '7_2', '8_30', | ||
| + | '9_46', '10_10', '11_18', '12_26', '13_38', '14_2', '15_14', '16_14', '17_30', '18_22', '19_46', '20_14', '21_34', '22_46']) | ||
| + | |||
| + | # The 'R2eff' model | ||
| + | pipe.copy(pipe_from='origin rx', pipe_to='R2eff', bundle_to='rx') | ||
| + | pipe.switch(pipe_name='R2eff') | ||
| + | relax_disp.select_model(model='R2eff') | ||
| + | calc(verbosity=1) | ||
| + | |||
| + | # Cluster all spin, and export to sherekhan | ||
| + | relax_disp.cluster(cluster_id='Sherekhan', spin_id=None) | ||
| + | relax_disp.sherekhan_input(force=True, spin_id=None) | ||
| + | </source> | ||
| + | |||
| + | |||
| + | = See also = | ||
| + | |||
| + | [[Category:Relaxation dispersion analysis]] | ||
| + | [[Category:Relaxation dispersion software]] | ||
Latest revision as of 16:01, 21 October 2020
Contents
Online analysis tool
Use relax GUI to create input file
Use relax script to create input file
# Create the 'rx' data pipe.
pipe.create(pipe_name='origin rx', pipe_type='relax_disp', bundle='rx')
# The type of experiment
relax_disp.exp_type(exp_type='cpmg fixed')
# Read the sequence from file
sequence.read(file='table_ser_files_model.txt',
dir=None, spin_id_col=None, mol_name_col=1, res_num_col=2, res_name_col=3, spin_num_col=4, spin_name_col=5, sep=None, spin_id=None)
# Read the intensities from columns
spectrum.read_intensities(file='table_ser_files_model.txt',
dir=None, spectrum_id='0_2', heteronuc='N', proton='HN', int_method='point sum', int_col=(6), spin_id_col=None, mol_name_col=1,
res_num_col=2, res_name_col=3, spin_num_col=4, spin_name_col=5, sep=None, spin_id=None, ncproc=None)
relax_disp.cpmg_frq(spectrum_id='0_2', cpmg_frq=40.0)
relax_disp.relax_time(spectrum_id='0_2', time=0.05)
spectrometer.frequency(id='0_2', frq=750.0614444, units='MHz')
### Repeat for loading all intensity files
# Replicated spectrums
spectrum.replicated(spectrum_ids=['0_2','7_2','14_2',])
spectrum.replicated(spectrum_ids=['15_14','16_14','20_14',])
spectrum.replicated(spectrum_ids=['3_30','8_30','17_30',])
spectrum.replicated(spectrum_ids=['9_46','19_46','22_46',])
# Spin isotope
spin.isotope(isotope='15N', spin_id='@N*', force=True)
# Make error analysis
spectrum.error_analysis(subset=['0_2', '1_0', '2_8', '3_30', '4_4', '5_42', '6_6', '7_2', '8_30',
'9_46', '10_10', '11_18', '12_26', '13_38', '14_2', '15_14', '16_14', '17_30', '18_22', '19_46', '20_14', '21_34', '22_46'])
# The 'R2eff' model
pipe.copy(pipe_from='origin rx', pipe_to='R2eff', bundle_to='rx')
pipe.switch(pipe_name='R2eff')
relax_disp.select_model(model='R2eff')
calc(verbosity=1)
# Cluster all spin, and export to sherekhan
relax_disp.cluster(cluster_id='Sherekhan', spin_id=None)
relax_disp.sherekhan_input(force=True, spin_id=None)
