data_nef_6axi save_entry_information _nef_nmr_meta_data.sf_category nef_nmr_meta_data _nef_nmr_meta_data.sf_framecode entry_information _nef_nmr_meta_data.format_name nmr_exchange_format _nef_nmr_meta_data.format_version 1.1 save_ save_assembly _nef_molecular_system.sf_category nef_molecular_system _nef_molecular_system.sf_framecode assembly loop_ _nef_sequence.index _nef_sequence.chain_code _nef_sequence.sequence_code _nef_sequence.residue_name _nef_sequence.linking _nef_sequence.residue_variant _nef_sequence.cis_peptide 1 A 1 ASP cyclic . . 2 A 2 LEU middle . . 3 A 3 PHE middle . . 4 A 4 VAL middle . . 5 A 5 PRO middle . true 6 A 6 PRO middle . false 7 A 7 ILE middle . . 8 A 8 ASP cyclic . . stop_ save_ save_assigned_chem_shift_list _nef_chemical_shift_list.sf_category nef_chemical_shift_list _nef_chemical_shift_list.sf_framecode assigned_chem_shift_list loop_ _nef_chemical_shift.chain_code _nef_chemical_shift.sequence_code _nef_chemical_shift.residue_name _nef_chemical_shift.atom_name _nef_chemical_shift.element _nef_chemical_shift.isotope_number _nef_chemical_shift.value _nef_chemical_shift.value_uncertainty A 1 ASP H1 H 1 8.204 0.0 A 1 ASP HA H 1 4.200 0.001 A 1 ASP HBx H 1 2.685 0.005 A 1 ASP HBy H 1 2.910 0.002 A 1 ASP C C 13 170.591 . A 1 ASP CB C 13 36.483 . A 2 LEU H H 1 7.473 0.001 A 2 LEU HA H 1 4.202 0.003 A 2 LEU HBy H 1 2.352 0.003 A 2 LEU HBx H 1 1.353 0.007 A 2 LEU HD1% H 1 0.871 0.006 A 2 LEU HG H 1 1.743 0.004 A 2 LEU CA C 13 52.288 0.029 A 2 LEU CG C 13 25.386 . A 2 LEU CB C 13 41.259 . A 3 PHE H H 1 7.899 0.001 A 3 PHE HA H 1 4.287 0.002 A 3 PHE HBx H 1 2.933 0.002 A 3 PHE HBy H 1 2.998 0.005 A 3 PHE HE1 H 1 7.120 0.001 A 3 PHE HE2 H 1 7.120 0.001 A 3 PHE HD2 H 1 7.033 0.002 A 3 PHE HD1 H 1 7.033 0.002 A 3 PHE HZ H 1 7.204 0.003 A 3 PHE C C 13 173.620 . A 3 PHE CA C 13 58.043 . A 3 PHE CB C 13 38.831 . A 3 PHE CZ C 13 127.958 . A 4 VAL H H 1 7.276 0.001 A 4 VAL HA H 1 4.012 0.003 A 4 VAL HB H 1 1.946 0.001 A 4 VAL HGx% H 1 0.845 . A 4 VAL HGy% H 1 0.886 0.002 A 4 VAL C C 13 172.944 0.006 A 4 VAL CA C 13 56.892 . A 5 PRO HA H 1 4.854 0.003 A 5 PRO HD2 H 1 3.625 0.001 A 5 PRO HB2 H 1 2.319 0.002 A 5 PRO HG2 H 1 1.791 0.004 A 5 PRO CA C 13 60.061 . A 5 PRO CD C 13 47.620 . A 5 PRO CB C 13 31.948 0.0 A 5 PRO CG C 13 22.982 0.016 A 6 PRO HA H 1 4.639 0.003 A 6 PRO HBx H 1 1.774 0.001 A 6 PRO HBy H 1 1.937 0.004 A 6 PRO HGy H 1 2.133 0.001 A 6 PRO HGx H 1 1.999 0.001 A 6 PRO HD2 H 1 3.565 0.002 A 6 PRO CA C 13 60.875 . A 6 PRO CD C 13 48.094 . A 6 PRO CB C 13 33.901 . A 6 PRO CG C 13 26.734 . A 7 ILE H H 1 7.981 0.001 A 7 ILE HA H 1 4.299 0.002 A 7 ILE HG1y H 1 0.869 0.0 A 7 ILE HG1x H 1 0.784 0.005 A 7 ILE HB H 1 1.570 0.003 A 7 ILE HG2% H 1 0.719 0.003 A 7 ILE HD1% H 1 1.322 0.002 A 7 ILE C C 13 171.788 . A 7 ILE CG2 C 13 16.618 . A 7 ILE CA C 13 57.552 . A 7 ILE CB C 13 39.939 0.045 A 7 ILE CG1 C 13 23.209 . A 8 ASP H H 1 9.004 0.001 A 8 ASP HA H 1 3.896 0.003 A 8 ASP HBx H 1 2.602 0.003 A 8 ASP HBy H 1 2.913 0.008 A 8 ASP CA C 13 53.386 0.03 A 8 ASP CB C 13 35.775 0.016 stop_ save_ save_XPLOR-NIH/CNS_distance_restraints_1 _nef_distance_restraint_list.sf_category nef_distance_restraint_list _nef_distance_restraint_list.sf_framecode XPLOR-NIH/CNS_distance_restraints_1 _nef_distance_restraint_list.restraint_origin noe _nef_distance_restraint_list.potential_type square-well-parabolic loop_ _nef_distance_restraint.index _nef_distance_restraint.restraint_id _nef_distance_restraint.restraint_combination_id _nef_distance_restraint.chain_code_1 _nef_distance_restraint.sequence_code_1 _nef_distance_restraint.residue_name_1 _nef_distance_restraint.atom_name_1 _nef_distance_restraint.chain_code_2 _nef_distance_restraint.sequence_code_2 _nef_distance_restraint.residue_name_2 _nef_distance_restraint.atom_name_2 _nef_distance_restraint.weight _nef_distance_restraint.target_value _nef_distance_restraint.target_value_uncertainty _nef_distance_restraint.lower_linear_limit _nef_distance_restraint.lower_limit _nef_distance_restraint.upper_limit _nef_distance_restraint.upper_linear_limit 1 1 . A 1 ASP H A 1 ASP HBx 1.0 6.0 . . 1.8 6.0 . 2 2 . A 1 ASP H A 1 ASP HBy 1.0 6.0 . . 1.8 6.0 . 3 3 . A 1 ASP HBx A 1 ASP HA 1.0 6.0 . . 1.8 6.0 . 4 4 . A 1 ASP HBy A 1 ASP HA 1.0 6.0 . . 1.8 6.0 . 5 5 . A 1 ASP H A 8 ASP HBx 1.0 6.0 . . 1.8 6.0 . 6 6 . A 2 LEU H A 1 ASP H 1.0 6.0 . . 1.8 6.0 . 7 7 . A 2 LEU HA A 2 LEU H 1.0 6.0 . . 1.8 6.0 . 8 8 . A 2 LEU H A 2 LEU HBy 1.0 6.0 . . 1.8 6.0 . 9 9 . A 2 LEU H A 2 LEU HBx 1.0 6.0 . . 1.8 6.0 . 10 10 . A 2 LEU HA A 2 LEU HG 1.0 6.0 . . 1.8 6.0 . 11 11 . A 2 LEU HA A 2 LEU HD1% 1.0 6.0 . . 1.8 6.0 . 12 12 . A 2 LEU HA A 2 LEU HBx 1.0 6.0 . . 1.8 6.0 . 13 13 . A 2 LEU HA A 2 LEU HBy 1.0 6.0 . . 1.8 6.0 . 14 14 . A 2 LEU HBy A 2 LEU HBx 1.0 6.0 . . 1.8 6.0 . 15 15 . A 2 LEU HD1% A 5 PRO HA 1.0 6.0 . . 1.8 6.0 . 16 16 . A 3 PHE H A 2 LEU HA 1.0 6.0 . . 1.8 6.0 . 17 17 . A 3 PHE H A 2 LEU HBy 1.0 6.0 . . 1.8 6.0 . 18 18 . A 3 PHE H A 2 LEU HD1% 1.0 6.0 . . 1.8 6.0 . 19 19 . A 3 PHE H A 2 LEU HBx 1.0 6.0 . . 1.8 6.0 . 20 20 . A 3 PHE HA A 2 LEU HBy 1.0 6.0 . . 1.8 6.0 . 21 21 . A 3 PHE H A 3 PHE HA 1.0 6.0 . . 1.8 6.0 . 22 22 . A 3 PHE H A 3 PHE HBx 1.0 6.0 . . 1.8 6.0 . 23 23 . A 3 PHE H A 3 PHE HBy 1.0 6.0 . . 1.8 6.0 . 24 24 . A 3 PHE HA A 3 PHE HBy 1.0 6.0 . . 1.8 6.0 . 25 25 . A 3 PHE HA A 3 PHE HBx 1.0 6.0 . . 1.8 6.0 . 26 26 . A 3 PHE H A 4 VAL H 1.0 6.0 . . 1.8 6.0 . 27 27 . A 3 PHE HA A 4 VAL HB 1.0 6.0 . . 1.8 6.0 . 28 28 . A 4 VAL H A 2 LEU HBx 1.0 6.0 . . 1.8 6.0 . 29 29 . A 4 VAL H A 3 PHE HA 1.0 6.0 . . 1.8 6.0 . 30 30 . A 4 VAL H A 3 PHE HBy 1.0 6.0 . . 1.8 6.0 . 31 31 . A 4 VAL H A 3 PHE HBx 1.0 6.0 . . 1.8 6.0 . 32 32 . A 4 VAL H A 4 VAL HA 1.0 6.0 . . 1.8 6.0 . 33 33 . A 4 VAL H A 4 VAL HB 1.0 6.0 . . 1.8 6.0 . 34 34 . A 4 VAL HA A 5 PRO HA 1.0 6.0 . . 1.8 6.0 . 35 35 . A 5 PRO HD2 A 4 VAL HGx% 1.0 6.0 . . 1.8 6.0 . 36 36 . A 5 PRO HA A 5 PRO HB2 1.0 6.0 . . 1.8 6.0 . 37 37 . A 5 PRO HG2 A 5 PRO HA 1.0 6.0 . . 1.8 6.0 . 38 38 . A 5 PRO HG2 A 5 PRO HB2 1.0 6.0 . . 1.8 6.0 . 39 39 . A 5 PRO HA A 6 PRO HBy 1.0 6.0 . . 1.8 6.0 . 40 40 . A 5 PRO HA A 6 PRO HGx 1.0 6.0 . . 1.8 6.0 . 41 41 . A 6 PRO HD2 A 5 PRO HA 1.0 6.0 . . 1.8 6.0 . 42 42 . A 6 PRO HA A 6 PRO HGy 1.0 6.0 . . 1.8 6.0 . 43 43 . A 6 PRO HA A 6 PRO HD2 1.0 6.0 . . 1.8 6.0 . 44 44 . A 6 PRO HA A 6 PRO HBx 1.0 6.0 . . 1.8 6.0 . 45 45 . A 6 PRO HA A 6 PRO HBy 1.0 6.0 . . 1.8 6.0 . 46 46 . A 6 PRO HA A 6 PRO HGx 1.0 6.0 . . 1.8 6.0 . 47 47 . A 7 ILE H A 2 LEU H 1.0 6.0 . . 1.8 6.0 . 48 48 . A 7 ILE H A 2 LEU HBy 1.0 6.0 . . 1.8 6.0 . 49 49 . A 7 ILE H A 2 LEU HD1% 1.0 6.0 . . 1.8 6.0 . 50 50 . A 7 ILE H A 5 PRO HG2 1.0 6.0 . . 1.8 6.0 . 51 51 . A 7 ILE HA A 5 PRO HG2 1.0 6.0 . . 1.8 6.0 . 52 52 . A 7 ILE H A 6 PRO HA 1.0 6.0 . . 1.8 6.0 . 53 53 . A 7 ILE H A 6 PRO HGy 1.0 6.0 . . 1.8 6.0 . 54 54 . A 7 ILE HA A 7 ILE H 1.0 6.0 . . 1.8 6.0 . 55 55 . A 7 ILE H A 7 ILE HB 1.0 6.0 . . 1.8 6.0 . 56 56 . A 7 ILE HA A 7 ILE HD1% 1.0 6.0 . . 1.8 6.0 . 57 57 . A 7 ILE HA A 7 ILE HB 1.0 6.0 . . 1.8 6.0 . 58 58 . A 7 ILE HA A 7 ILE HG1y 1.0 6.0 . . 1.8 6.0 . 59 59 . A 7 ILE HB A 7 ILE HG2% 1.0 6.0 . . 1.8 6.0 . 60 60 . A 7 ILE HA A 7 ILE HG2% 1.0 6.0 . . 1.8 6.0 . 61 61 . A 8 ASP HA A 1 ASP H 1.0 6.0 . . 1.8 6.0 . 62 62 . A 8 ASP HA A 1 ASP HBx 1.0 6.0 . . 1.8 6.0 . 63 63 . A 8 ASP H A 7 ILE HA 1.0 6.0 . . 1.8 6.0 . 64 64 . A 8 ASP H A 7 ILE HB 1.0 6.0 . . 1.8 6.0 . 65 65 . A 8 ASP H A 7 ILE HD1% 1.0 6.0 . . 1.8 6.0 . 66 66 . A 8 ASP H A 8 ASP HA 1.0 6.0 . . 1.8 6.0 . 67 67 . A 8 ASP H A 8 ASP HBx 1.0 6.0 . . 1.8 6.0 . 68 68 . A 8 ASP H A 8 ASP HBy 1.0 6.0 . . 1.8 6.0 . stop_ save_