data_wwPDB_remediated_restraints_file_for_PDB_entry_6ucj # This wwPDB archive file contains, for PDB entry 6ucj: # # - Sequence information from the PDB mmCIF file # - NMR restraints from the PDB MR file # # In this file, the NMR restraints share the same atom names as in the coordinate # file, and in this way can differ from the data deposited at the wwPDB. To achieve # this aim, the NMR restraints were parsed from their original format files, and # the coordinates and NMR restraints information were subsequently harmonized. # # Due to the complexity of this harmonization process, minor modifications could # have occurred to the NMR restraints information, or data could have been lost # because of parsing or conversion errors. The PDB file remains the # authoritative reference for the atomic coordinates and the originally deposited # restraints files remain the primary reference for these data. # # This file is generated as part of the wwPDB at the BioMagResBank (BMRB) in # collaboration with the PDBe (formerly MSD) group at the European # Bioinformatics Institute (EBI) and the CMBI/IMM group at the Radboud # University of Nijmegen. # # Several software packages were used to produce this file: # # - Wattos (BMRB and CMBI/IMM). # - FormatConverter and NMRStarExport (PDBe). # - CCPN framework (http://www.ccpn.ac.uk/). # # More information about this process can be found in the references below. # Please cite the original reference for this PDB entry. # # JF Doreleijers, A Nederveen, W Vranken, J Lin, AM Bonvin, R Kaptein, JL # Markley, and EL Ulrich (2005). BioMagResBank databases DOCR and FRED # containing converted and filtered sets of experimental NMR restraints and # coordinates from over 500 protein PDB structures. J. Biomol. NMR 32, 1-12. # # WF Vranken, W Boucher, TJ Stevens, RH Fogh, A Pajon, M Llinas, EL Ulrich, JL # Markley, J Ionides, ED Laue (2005). The CCPN data model for NMR spectroscopy: # development of a software pipeline. Proteins 59, 687-696. # # JF Doreleijers, WF Vranken, C Schulte, J Lin, JR Wedell, CJ Penkett, GW Vuister, # G Vriend, JL Markley, and EL Ulrich (2009). The NMR Restraints Grid at BMRB for # 5,266 Protein and Nucleic Acid PDB Entries. J Biomol. NMR 45, 389-396. save_entry_information _Entry.Sf_category entry_information _Entry.Sf_framecode entry_information _Entry.ID rr_6ucj _Entry.Title 'wwPDB remediated NMR restraints for PDB entry 6ucj' _Entry.Version_type original _Entry.NMR_STAR_version 3.1.0.8 _Entry.Experimental_method NMR _Entry.Experimental_method_subtype solution _Entry.Details 'Contains the remediated restraint lists and coordinates for PDB entry 6ucj' _Entry.PDB_coordinate_file_version 3.20 loop_ _Related_entries.Database_name _Related_entries.Database_accession_code _Related_entries.Relationship _Related_entries.Entry_ID PDB 6ucj 'Master copy' rr_6ucj stop_ save_ save_assembly _Assembly.Sf_category assembly _Assembly.Sf_framecode assembly _Assembly.Entry_ID rr_6ucj _Assembly.ID 1 _Assembly.Name 6ucj _Assembly.Number_of_components 1 _Assembly.Organic_ligands 0 _Assembly.Metal_ions 0 _Assembly.Non_standard_bonds no _Assembly.Paramagnetic no _Assembly.Thiol_state 'all free' _Assembly.Molecular_mass 8038.1949 loop_ _Entity_assembly.ID _Entity_assembly.Entity_assembly_name _Entity_assembly.Entity_ID _Entity_assembly.Entity_label _Entity_assembly.Asym_ID _Entity_assembly.PDB_chain_ID _Entity_assembly.Experimental_data_reported _Entity_assembly.Physical_state _Entity_assembly.Conformational_isomer _Entity_assembly.Chemical_exchange_state _Entity_assembly.Magnetic_equivalence_group_code _Entity_assembly.Role _Entity_assembly.Details _Entity_assembly.Entry_ID _Entity_assembly.Assembly_ID 1 'Islet amyloid polypeptide' 1 $Islet_amyloid_polypeptide A . no . . . . . . rr_6ucj 1 stop_ save_ save_Islet_amyloid_polypeptide _Entity.Sf_category entity _Entity.Sf_framecode Islet_amyloid_polypeptide _Entity.Entry_ID rr_6ucj _Entity.ID 1 _Entity.Name Islet_amyloid_polypeptide _Entity.Type polymer _Entity.Polymer_type polypeptide(L) _Entity.Polymer_strand_ID A _Entity.Polymer_seq_one_letter_code ; TPIESHQVEKRKCNTATCAT QRLANFLVHSSNNFGAILSS TNVGSNTYGKRNAVEVLKRE PLNYLPLKKKKD ; _Entity.Ambiguous_conformational_states no _Entity.Ambiguous_chem_comp_sites no _Entity.Nstd_monomer no _Entity.Nstd_chirality no _Entity.Nstd_linkage no _Entity.Number_of_monomers 72 _Entity.Paramagnetic no _Entity.Thiol_state 'all free' _Entity.Parent_entity_ID 1 _Entity.Formula_weight 8038.1949 loop_ _Entity_comp_index.ID _Entity_comp_index.Auth_seq_ID _Entity_comp_index.Comp_ID _Entity_comp_index.Comp_label _Entity_comp_index.Entry_ID _Entity_comp_index.Entity_ID 1 . THR . rr_6ucj 1 2 . PRO . rr_6ucj 1 3 . ILE . rr_6ucj 1 4 . GLU . rr_6ucj 1 5 . SER . rr_6ucj 1 6 . HIS . rr_6ucj 1 7 . GLN . rr_6ucj 1 8 . VAL . rr_6ucj 1 9 . GLU . rr_6ucj 1 10 . LYS . rr_6ucj 1 11 . ARG . rr_6ucj 1 12 . LYS . rr_6ucj 1 13 . CYS . rr_6ucj 1 14 . ASN . rr_6ucj 1 15 . THR . rr_6ucj 1 16 . ALA . rr_6ucj 1 17 . THR . rr_6ucj 1 18 . CYS . rr_6ucj 1 19 . ALA . rr_6ucj 1 20 . THR . rr_6ucj 1 21 . GLN . rr_6ucj 1 22 . ARG . rr_6ucj 1 23 . LEU . rr_6ucj 1 24 . ALA . rr_6ucj 1 25 . ASN . rr_6ucj 1 26 . PHE . rr_6ucj 1 27 . LEU . rr_6ucj 1 28 . VAL . rr_6ucj 1 29 . HIS . rr_6ucj 1 30 . SER . rr_6ucj 1 31 . SER . rr_6ucj 1 32 . ASN . rr_6ucj 1 33 . ASN . rr_6ucj 1 34 . PHE . rr_6ucj 1 35 . GLY . rr_6ucj 1 36 . ALA . rr_6ucj 1 37 . ILE . rr_6ucj 1 38 . LEU . rr_6ucj 1 39 . SER . rr_6ucj 1 40 . SER . rr_6ucj 1 41 . THR . rr_6ucj 1 42 . ASN . rr_6ucj 1 43 . VAL . rr_6ucj 1 44 . GLY . rr_6ucj 1 45 . SER . rr_6ucj 1 46 . ASN . rr_6ucj 1 47 . THR . rr_6ucj 1 48 . TYR . rr_6ucj 1 49 . GLY . rr_6ucj 1 50 . LYS . rr_6ucj 1 51 . ARG . rr_6ucj 1 52 . ASN . rr_6ucj 1 53 . ALA . rr_6ucj 1 54 . VAL . rr_6ucj 1 55 . GLU . rr_6ucj 1 56 . VAL . rr_6ucj 1 57 . LEU . rr_6ucj 1 58 . LYS . rr_6ucj 1 59 . ARG . rr_6ucj 1 60 . GLU . rr_6ucj 1 61 . PRO . rr_6ucj 1 62 . LEU . rr_6ucj 1 63 . ASN . rr_6ucj 1 64 . TYR . rr_6ucj 1 65 . LEU . rr_6ucj 1 66 . PRO . rr_6ucj 1 67 . LEU . rr_6ucj 1 68 . LYS . rr_6ucj 1 69 . LYS . rr_6ucj 1 70 . LYS . rr_6ucj 1 71 . LYS . rr_6ucj 1 72 . ASP . rr_6ucj 1 stop_ loop_ _Entity_poly_seq.Hetero _Entity_poly_seq.Mon_ID _Entity_poly_seq.Num _Entity_poly_seq.Comp_index_ID _Entity_poly_seq.Entry_ID _Entity_poly_seq.Entity_ID . THR 1 1 rr_6ucj 1 . PRO 2 2 rr_6ucj 1 . ILE 3 3 rr_6ucj 1 . GLU 4 4 rr_6ucj 1 . SER 5 5 rr_6ucj 1 . HIS 6 6 rr_6ucj 1 . GLN 7 7 rr_6ucj 1 . VAL 8 8 rr_6ucj 1 . GLU 9 9 rr_6ucj 1 . LYS 10 10 rr_6ucj 1 . ARG 11 11 rr_6ucj 1 . LYS 12 12 rr_6ucj 1 . CYS 13 13 rr_6ucj 1 . ASN 14 14 rr_6ucj 1 . THR 15 15 rr_6ucj 1 . ALA 16 16 rr_6ucj 1 . THR 17 17 rr_6ucj 1 . CYS 18 18 rr_6ucj 1 . ALA 19 19 rr_6ucj 1 . THR 20 20 rr_6ucj 1 . GLN 21 21 rr_6ucj 1 . ARG 22 22 rr_6ucj 1 . LEU 23 23 rr_6ucj 1 . ALA 24 24 rr_6ucj 1 . ASN 25 25 rr_6ucj 1 . PHE 26 26 rr_6ucj 1 . LEU 27 27 rr_6ucj 1 . VAL 28 28 rr_6ucj 1 . HIS 29 29 rr_6ucj 1 . SER 30 30 rr_6ucj 1 . SER 31 31 rr_6ucj 1 . ASN 32 32 rr_6ucj 1 . ASN 33 33 rr_6ucj 1 . PHE 34 34 rr_6ucj 1 . GLY 35 35 rr_6ucj 1 . ALA 36 36 rr_6ucj 1 . ILE 37 37 rr_6ucj 1 . LEU 38 38 rr_6ucj 1 . SER 39 39 rr_6ucj 1 . SER 40 40 rr_6ucj 1 . THR 41 41 rr_6ucj 1 . ASN 42 42 rr_6ucj 1 . VAL 43 43 rr_6ucj 1 . GLY 44 44 rr_6ucj 1 . SER 45 45 rr_6ucj 1 . ASN 46 46 rr_6ucj 1 . THR 47 47 rr_6ucj 1 . TYR 48 48 rr_6ucj 1 . GLY 49 49 rr_6ucj 1 . LYS 50 50 rr_6ucj 1 . ARG 51 51 rr_6ucj 1 . ASN 52 52 rr_6ucj 1 . ALA 53 53 rr_6ucj 1 . VAL 54 54 rr_6ucj 1 . GLU 55 55 rr_6ucj 1 . VAL 56 56 rr_6ucj 1 . LEU 57 57 rr_6ucj 1 . LYS 58 58 rr_6ucj 1 . ARG 59 59 rr_6ucj 1 . GLU 60 60 rr_6ucj 1 . PRO 61 61 rr_6ucj 1 . LEU 62 62 rr_6ucj 1 . ASN 63 63 rr_6ucj 1 . TYR 64 64 rr_6ucj 1 . LEU 65 65 rr_6ucj 1 . PRO 66 66 rr_6ucj 1 . LEU 67 67 rr_6ucj 1 . LYS 68 68 rr_6ucj 1 . LYS 69 69 rr_6ucj 1 . LYS 70 70 rr_6ucj 1 . LYS 71 71 rr_6ucj 1 . ASP 72 72 rr_6ucj 1 stop_ save_ save_conformer_statistics _Conformer_stat_list.Sf_category conformer_statistics _Conformer_stat_list.Sf_framecode conformer_statistics _Conformer_stat_list.Entry_ID rr_6ucj _Conformer_stat_list.ID 1 _Conformer_stat_list.Conf_family_coord_set_ID 1 _Conformer_stat_list.Conf_family_coord_set_label $Original_constraints_and_structures _Conformer_stat_list.Conformer_submitted_total_num 20 save_ save_constraint_statistics _Constraint_stat_list.Sf_framecode constraint_statistics _Constraint_stat_list.Sf_category constraint_statistics _Constraint_stat_list.Entry_ID rr_6ucj _Constraint_stat_list.ID 1 loop_ _Constraint_file.ID _Constraint_file.Constraint_filename _Constraint_file.Software_ID _Constraint_file.Software_label _Constraint_file.Software_name _Constraint_file.Block_ID _Constraint_file.Constraint_type _Constraint_file.Constraint_subtype _Constraint_file.Constraint_subsubtype _Constraint_file.Constraint_number _Constraint_file.Entry_ID _Constraint_file.Constraint_stat_list_ID 1 6ucj.mr . . 'MR format' 1 comment 'Not applicable' 'Not applicable' 0 rr_6ucj 1 1 6ucj.mr . . XPLOR/CNS 2 'dipolar coupling' 'Not applicable' 'Not applicable' 111 rr_6ucj 1 1 6ucj.mr . . XPLOR/CNS 3 distance 'hydrogen bond' simple 0 rr_6ucj 1 1 6ucj.mr . . XPLOR/CNS 4 'dihedral angle' 'Not applicable' 'Not applicable' 130 rr_6ucj 1 1 6ucj.mr . . XPLOR/CNS 5 distance NOE ambi 0 rr_6ucj 1 1 6ucj.mr . . XPLOR/CNS 6 'dipolar coupling' 'Not applicable' 'Not applicable' 30 rr_6ucj 1 1 6ucj.mr . . 'MR format' 7 'nomenclature mapping' 'Not applicable' 'Not applicable' 0 rr_6ucj 1 stop_ save_ save_CNS/XPLOR_distance_constraints_5 _Gen_dist_constraint_list.Sf_category general_distance_constraints _Gen_dist_constraint_list.Sf_framecode CNS/XPLOR_distance_constraints_5 _Gen_dist_constraint_list.Entry_ID rr_6ucj _Gen_dist_constraint_list.ID 2 _Gen_dist_constraint_list.Constraint_type NOE _Gen_dist_constraint_list.Details 'Generated by Wattos' _Gen_dist_constraint_list.Constraint_file_ID 1 _Gen_dist_constraint_list.Block_ID 5 loop_ _Gen_dist_constraint_software.Software_ID _Gen_dist_constraint_software.Software_label _Gen_dist_constraint_software.Method_ID _Gen_dist_constraint_software.Method_label _Gen_dist_constraint_software.Entry_ID _Gen_dist_constraint_software.Gen_dist_constraint_list_ID . . . . rr_6ucj 1 stop_ loop_ _Gen_dist_constraint_parse_err.ID _Gen_dist_constraint_parse_err.Content _Gen_dist_constraint_parse_err.Begin_line _Gen_dist_constraint_parse_err.Begin_column _Gen_dist_constraint_parse_err.End_line _Gen_dist_constraint_parse_err.End_column _Gen_dist_constraint_parse_err.Entry_ID _Gen_dist_constraint_parse_err.Gen_dist_constraint_list_ID 1 ; # Restraints file 7: D_1000244371_mr_P2.xplor-nih.V1 ## pIAPP-K4D, DPC micelles, pH 4.5 ## error 25% ## spin1 spin2 R LB UB #intraresidue #assign ( residue 3 and name HN ) and assign ( (residue 3 and name HG2#) or (residue 3 and name HG2*) ) 4.7176321594 1.1794080399 1.1794080399 #intra "S2 < 0.6" ; 1 1 7 37 rr_6ucj 1 2 ; assign ( (residue 3 and name HG2#) or (residue 3 and name HG2*) ) 4.7176321594 1.1794080399 1.1794080399 #intra "S2 < 0.6" #assign ( residue 3 and name HN ) and assign ( (residue 3 and name HD1#) or (residue 3 and name HD1*) ) 4.7831875605 1.1957968901 1.1957968901 #intra "S2 < 0.6" ; 7 39 8 37 rr_6ucj 1 3 ; assign ( (residue 3 and name HD1#) or (residue 3 and name HD1*) ) 4.7831875605 1.1957968901 1.1957968901 #intra "S2 < 0.6" #assign ( residue 4 and name HN ) and assign ( residue 4 and name HB2 ) 3.7110754625 0.9277688656 0.9277688656 #intra "S2 < 0.6" ; 8 39 9 37 rr_6ucj 1 4 ; assign ( residue 4 and name HB2 ) 3.7110754625 0.9277688656 0.9277688656 #intra "S2 < 0.6" #assign ( residue 4 and name HN ) and assign ( residue 4 and name HB1 ) 4.4777467308 1.1194366827 1.1194366827 #intra "S2 < 0.6" ; 9 39 10 37 rr_6ucj 1 5 ; assign ( residue 4 and name HB1 ) 4.4777467308 1.1194366827 1.1194366827 #intra "S2 < 0.6" #assign ( residue 5 and name HN ) and assign ( (residue 5 and name HA) or (residue 4 and name HA) ) 3.8822708624 0.9705677156 0.9705677156 #intra "S2 < 0.6" ; 10 39 11 37 rr_6ucj 1 6 ; assign ( (residue 5 and name HA) or (residue 4 and name HA) ) 3.8822708624 0.9705677156 0.9705677156 #intra "S2 < 0.6" #assign ( residue 5 and name HN ) and assign ( (residue 5 and name HB#) or (residue 5 and name HB*) ) 4.16466392 1.04116598 1.04116598 #intra "S2 < 0.6" ; 11 39 12 37 rr_6ucj 1 7 ; assign ( (residue 5 and name HB#) or (residue 5 and name HB*) ) 4.16466392 1.04116598 1.04116598 #intra "S2 < 0.6" #assign ( residue 6 and name HN ) and assign ( residue 6 and name HB2 ) 4.1676061661 1.0419015415 1.0419015415 #intra "S2 < 0.6" ; 12 39 13 37 rr_6ucj 1 8 ; assign ( residue 6 and name HB2 ) 4.1676061661 1.0419015415 1.0419015415 #intra "S2 < 0.6" #assign ( residue 6 and name HN ) and assign ( residue 6 and name HB1 ) 5.0653784528 1.2663446132 1.2663446132 #intra "S2 < 0.6" ; 13 39 14 37 rr_6ucj 1 9 ; assign ( residue 6 and name HB1 ) 5.0653784528 1.2663446132 1.2663446132 #intra "S2 < 0.6" #assign ( residue 6 and name HN ) and assign ( residue 6 and name HA ) 3.8371782107 0.9592945527 0.9592945527 #intra "S2 < 0.6" ; 14 39 15 37 rr_6ucj 1 10 ; assign ( residue 6 and name HA ) 3.8371782107 0.9592945527 0.9592945527 #intra "S2 < 0.6" #assign ( residue 7 and name HN ) and assign ( residue 7 and name HA ) 3.4428676189 0.8607169047 0.8607169047 #intra "S2 < 0.6" ; 15 39 16 37 rr_6ucj 1 11 ; assign ( residue 7 and name HA ) 3.4428676189 0.8607169047 0.8607169047 #intra "S2 < 0.6" #assign ( residue 7 and name HN ) and assign ( (residue 7 and name HG#) or (residue 7 and name HG*) ) 4.1945366391 1.0486341598 1.0486341598 #intra "S2 < 0.6" ; 16 39 17 37 rr_6ucj 1 12 ; assign ( (residue 7 and name HG#) or (residue 7 and name HG*) ) 4.1945366391 1.0486341598 1.0486341598 #intra "S2 < 0.6" #assign ( residue 7 and name HN ) and assign ( (residue 7 and name HB#) or (residue 7 and name HB*) ) 3.2528637859 0.8132159465 0.8132159465 #intra "S2 < 0.6" ; 17 39 18 37 rr_6ucj 1 13 ; assign ( (residue 7 and name HB#) or (residue 7 and name HB*) ) 3.2528637859 0.8132159465 0.8132159465 #intra "S2 < 0.6" #assign ( residue 8 and name HN ) and assign ( residue 8 and name HB ) 2.7527012832 0.6881753208 0.6881753208 #intra "S2 < 0.6" ; 18 39 19 37 rr_6ucj 1 14 ; assign ( residue 8 and name HB ) 2.7527012832 0.6881753208 0.6881753208 #intra "S2 < 0.6" #assign ( residue 8 and name HN ) and assign ( residue 8 and name HA ) 3.1612922552 0.7903230638 0.7903230638 #intra "S2 < 0.6" ; 19 39 20 37 rr_6ucj 1 15 ; assign ( residue 8 and name HA ) 3.1612922552 0.7903230638 0.7903230638 #intra "S2 < 0.6" #assign ( residue 8 and name HN ) and assign ( (residue 8 and name HG#) or (residue 8 and name HG*) ) 3.0910506276 0.7727626569 0.7727626569 #intra "S2 < 0.6" ; 20 39 21 37 rr_6ucj 1 16 ; assign ( (residue 8 and name HG#) or (residue 8 and name HG*) ) 3.0910506276 0.7727626569 0.7727626569 #intra "S2 < 0.6" #assign ( residue 9 and name HN ) and assign ( residue 9 and name HG2 ) 4.0270352956 1.0067588239 1.0067588239 #intra "S2 < 0.6" ; 21 39 22 37 rr_6ucj 1 17 ; assign ( residue 9 and name HG2 ) 4.0270352956 1.0067588239 1.0067588239 #intra "S2 < 0.6" #assign ( residue 9 and name HN ) and assign ( residue 9 and name HG1 ) 4.0270352956 1.0067588239 1.0067588239 #intra "S2 < 0.6" ; 22 39 23 37 rr_6ucj 1 18 ; assign ( residue 9 and name HG1 ) 4.0270352956 1.0067588239 1.0067588239 #intra "S2 < 0.6" #assign ( residue 9 and name HN ) and assign ( residue 9 and name HB2 ) 2.8771107725 0.7192776931 0.7192776931 #intra "S2 < 0.6" ; 23 39 24 37 rr_6ucj 1 19 ; assign ( residue 9 and name HB2 ) 2.8771107725 0.7192776931 0.7192776931 #intra "S2 < 0.6" #assign ( residue 9 and name HN ) and assign ( residue 9 and name HB1 ) 3.1663398968 0.7915849742 0.7915849742 #intra "S2 < 0.6" ; 24 39 25 37 rr_6ucj 1 20 ; assign ( residue 9 and name HB1 ) 3.1663398968 0.7915849742 0.7915849742 #intra "S2 < 0.6" #assign ( residue 9 and name HN ) and assign ( residue 9 and name HA ) 3.1489332534 0.7872333134 0.7872333134 #intra "S2 < 0.6" ; 25 39 26 37 rr_6ucj 1 21 ; assign ( residue 9 and name HA ) 3.1489332534 0.7872333134 0.7872333134 #intra "S2 < 0.6" #assign ( residue 10 and name HN ) and assign ( (residue 10 and name HD#) or (residue 10 and name HD*) ) 3.5538374465 0.8884593616 0.8884593616 #intra "S2 < 0.6" ; 26 39 27 38 rr_6ucj 1 22 ; assign ( (residue 10 and name HD#) or (residue 10 and name HD*) ) 3.5538374465 0.8884593616 0.8884593616 #intra "S2 < 0.6" #assign ( residue 10 and name HN ) and assign ( (residue 10 and name HG#) or (residue 10 and name HG*) ) 4.3893425829 1.0973356457 1.0973356457 #intra "S2 < 0.6" ; 27 40 28 38 rr_6ucj 1 23 ; assign ( (residue 10 and name HG#) or (residue 10 and name HG*) ) 4.3893425829 1.0973356457 1.0973356457 #intra "S2 < 0.6" #assign ( residue 10 and name HN ) and assign ( (residue 10 and name HB#) or (residue 10 and name HB*) ) 2.8667638245 0.7166909561 0.7166909561 #intra "S2 < 0.6" ; 28 40 29 38 rr_6ucj 1 24 ; assign ( (residue 10 and name HB#) or (residue 10 and name HB*) ) 2.8667638245 0.7166909561 0.7166909561 #intra "S2 < 0.6" #assign ( residue 10 and name HN ) and assign ( residue 10 and name HA ) 2.1123710369 0.5280927592 0.5280927592 #intra "S2 < 0.6" ; 29 40 30 38 rr_6ucj 1 25 ; assign ( residue 10 and name HA ) 2.1123710369 0.5280927592 0.5280927592 #intra "S2 < 0.6" #assign ( residue 12 and name HN ) and assign ( (residue 12 and name HG#) or (residue 12 and name HG*) ) 4.0508658824 1.0127164706 1.0127164706 #intra "S2 < 0.6" ; 30 40 31 38 rr_6ucj 1 26 ; assign ( (residue 12 and name HG#) or (residue 12 and name HG*) ) 4.0508658824 1.0127164706 1.0127164706 #intra "S2 < 0.6" #assign ( residue 12 and name HN ) and assign ( residue 12 and name HA ) 2.0501687364 0.5125421841 0.5125421841 #intra "S2 < 0.6" ; 31 40 32 38 rr_6ucj 1 27 ; assign ( residue 12 and name HA ) 2.0501687364 0.5125421841 0.5125421841 #intra "S2 < 0.6" #assign ( residue 12 and name HN ) and assign ( (residue 12 and name HB#) or (residue 12 and name HB*) ) 2.6740574902 0.6685143725 0.6685143725 #intra "S2 < 0.6" ; 32 40 33 38 rr_6ucj 1 28 'assign ( (residue 12 and name HB#) or (residue 12 and name HB*) ) 2.6740574902 0.6685143725 0.6685143725 #intra "S2 < 0.6"' 33 40 33 161 rr_6ucj 1 29 'assign ( residue 13 and name HN ) and' 34 1 34 37 rr_6ucj 1 30 'assign ( residue 13 and name HA ) 3.188977936 0.797244484 0.797244484 #intra' 34 39 34 114 rr_6ucj 1 31 'assign ( residue 13 and name HN ) and' 35 1 35 37 rr_6ucj 1 32 'assign ( (residue 13 and name HB#) or (residue 13 and name HB*) ) 2.7787972308 0.6946993077 0.6946993077 #intra' 35 39 35 149 rr_6ucj 1 33 'assign ( residue 14 and name HN ) and' 36 1 36 37 rr_6ucj 1 34 'assign ( residue 14 and name HA ) 3.4073286774 0.8518321694 0.8518321694 #intra' 36 39 36 117 rr_6ucj 1 35 'assign ( residue 14 and name HN ) and' 37 1 37 37 rr_6ucj 1 36 'assign ( residue 14 and name HB* ) 4.0409597816 1.0102399454 1.0102399454 #intra' 37 39 37 118 rr_6ucj 1 37 'assign ( residue 14 and name HN ) and' 38 1 38 37 rr_6ucj 1 38 'assign ( residue 14 and name HB* ) 3.9443255522 0.9860813881 0.9860813881 #intra' 38 39 38 118 rr_6ucj 1 39 'assign ( residue 15 and name HN ) and' 39 1 39 37 rr_6ucj 1 40 ; assign ( (residue 15 and name HG2#) or (residue 15 and name HG2*) ) 3.4485053186 1.1621263296 1.1621263296 #intra terminal methyl #assign ( residue 15 and name HN ) and assign ( residue 15 and name HB ) 3.4244469504 0.8561117376 0.8561117376 #intra overlap with water ; 39 39 40 38 rr_6ucj 1 41 'assign ( residue 15 and name HB ) 3.4244469504 0.8561117376 0.8561117376 #intra overlap with water' 40 40 40 137 rr_6ucj 1 42 'assign ( residue 15 and name HN ) and' 41 1 41 37 rr_6ucj 1 43 'assign ( residue 15 and name HA ) 3.3297980449 0.8324495112 0.8324495112 #intra' 41 39 41 117 rr_6ucj 1 44 'assign ( residue 16 and name HN ) and' 42 1 42 37 rr_6ucj 1 45 'assign ( (residue 16 and name HB#) or (residue 16 and name HB*) ) 2.5197399732 0.9299349933 0.9299349933 #intra terminal methyl' 42 39 42 165 rr_6ucj 1 46 'assign ( residue 16 and name HN ) and' 43 1 43 37 rr_6ucj 1 47 'assign ( residue 16 and name HA ) 3.2140080897 0.8035020224 0.8035020224 #intra' 43 39 43 117 rr_6ucj 1 48 'assign ( residue 17 and name HN ) and' 44 1 44 37 rr_6ucj 1 49 'assign ( residue 17 and name HB ) 2.8598034334 0.7149508583 0.7149508583 #intra' 44 39 44 117 rr_6ucj 1 50 'assign ( residue 17 and name HN ) and' 45 1 45 37 rr_6ucj 1 51 'assign ( residue 17 and name HA ) 3.0954371254 0.7738592814 0.7738592814 #intra' 45 39 45 117 rr_6ucj 1 52 'assign ( residue 17 and name HN ) and' 46 1 46 37 rr_6ucj 1 53 'assign ( (residue 17 and name HG2#) or (residue 17 and name HG2*) ) 3.5198865048 1.1799716262 1.1799716262 #intra terminal methyl' 46 39 46 167 rr_6ucj 1 54 'assign ( residue 18 and name HN ) and' 47 1 47 37 rr_6ucj 1 55 'assign ( (residue 18 and name HB#) or (residue 18 and name HB*) ) 3.0583657539 0.7645914385 0.7645914385 #intra' 47 39 47 149 rr_6ucj 1 56 'assign ( residue 18 and name HN ) and' 48 1 48 37 rr_6ucj 1 57 'assign ( residue 18 and name HA ) 3.4386924176 0.8596731044 0.8596731044 #intra' 48 39 48 117 rr_6ucj 1 58 'assign ( residue 19 and name HN ) and' 49 1 49 37 rr_6ucj 1 59 'assign ( (residue 19 and name HB#) or (residue 19 and name HB*) ) 2.3326772299 0.8831693075 0.8831693075 #intra terminal methyl' 49 39 49 165 rr_6ucj 1 60 'assign ( residue 20 and name HN ) and' 50 1 50 37 rr_6ucj 1 61 'assign ( (residue 20 and name HG2#) or (residue 20 and name HG2*) ) 2.9984276779 1.0496069195 1.0496069195 #intra terminal methyl' 50 39 50 167 rr_6ucj 1 62 'assign ( residue 20 and name HN ) and' 51 1 51 37 rr_6ucj 1 63 'assign ( residue 20 and name HB ) 3.3651795968 0.8412948992 0.8412948992 #intra' 51 39 51 117 rr_6ucj 1 64 'assign ( residue 20 and name HN ) and' 52 1 52 37 rr_6ucj 1 65 'assign ( residue 20 and name HA ) 2.8952280198 0.723807005 0.723807005 #intra' 52 39 52 115 rr_6ucj 1 66 'assign ( residue 21 and name HN ) and' 53 1 53 37 rr_6ucj 1 67 'assign ( residue 21 and name HG2 ) 3.7766755482 0.944168887 0.944168887 #intra' 53 39 53 116 rr_6ucj 1 68 'assign ( residue 21 and name HN ) and' 54 1 54 37 rr_6ucj 1 69 'assign ( residue 21 and name HG1 ) 3.2869260223 0.8217315056 0.8217315056 #intra' 54 39 54 118 rr_6ucj 1 70 'assign ( residue 21 and name HN ) and' 55 1 55 37 rr_6ucj 1 71 'assign ( residue 21 and name HB2 ) 2.9564987335 0.7391246834 0.7391246834 #intra' 55 39 55 118 rr_6ucj 1 72 'assign ( residue 21 and name HN ) and' 56 1 56 37 rr_6ucj 1 73 'assign ( residue 21 and name HB1 ) 2.8554786121 0.713869653 0.713869653 #intra' 56 39 56 116 rr_6ucj 1 74 'assign ( residue 21 and name HN ) and' 57 1 57 37 rr_6ucj 1 75 'assign ( residue 21 and name HA ) 2.809906059 0.7024765147 0.7024765147 #intra' 57 39 57 116 rr_6ucj 1 76 'assign ( residue 22 and name HN ) and' 58 1 58 37 rr_6ucj 1 77 'assign ( residue 22 and name HB1 ) 3.089066572 0.772266643 0.772266643 #intra' 58 39 58 115 rr_6ucj 1 78 'assign ( residue 22 and name HN ) and' 59 1 59 37 rr_6ucj 1 79 'assign ( (residue 22 and name HG#) or (residue 22 and name HG*) ) 3.7688118283 0.9422029571 0.9422029571 #intra' 59 39 59 149 rr_6ucj 1 80 'assign ( residue 22 and name HN ) and' 60 1 60 37 rr_6ucj 1 81 'assign ( residue 22 and name HB2 ) 2.9223688147 0.7305922037 0.7305922037 #intra' 60 39 60 118 rr_6ucj 1 82 'assign ( residue 23 and name HN ) and' 61 1 61 37 rr_6ucj 1 83 'assign ( (residue 23 and name HB#) or (residue 23 and name HB*) or (residue 23 and name HG) ) 2.5041473926 0.6260368482 0.6260368482 #intra' 61 39 61 177 rr_6ucj 1 84 'assign ( residue 23 and name HN ) and' 62 1 62 37 rr_6ucj 1 85 'assign ( residue 23 and name HA ) 2.7709412858 0.6927353214 0.6927353214 #intra' 62 39 62 117 rr_6ucj 1 86 'assign ( residue 23 and name HN ) and' 63 1 63 37 rr_6ucj 1 87 'assign ( (residue 23 and name HD1#) or (residue 23 and name HD2#) ) 4.0405667026 1.3101416756 1.3101416756 #intra terminal methyl' 63 39 63 167 rr_6ucj 1 88 'assign ( residue 24 and name HN ) and' 64 1 64 37 rr_6ucj 1 89 'assign ( (residue 24 and name HB#) or (residue 24 and name HB*) ) 2.3624008527 0.8906002132 0.8906002132 #intra terminal methyl' 64 39 64 165 rr_6ucj 1 90 'assign ( residue 24 and name HN ) and' 65 1 65 37 rr_6ucj 1 91 'assign ( residue 24 and name HA ) 2.7857178604 0.6964294651 0.6964294651 #intra' 65 39 65 117 rr_6ucj 1 92 'assign ( residue 25 and name HN ) and' 66 1 66 37 rr_6ucj 1 93 'assign ( residue 25 and name HB2 ) 2.7436411482 0.685910287 0.685910287 #intra' 66 39 66 116 rr_6ucj 1 94 'assign ( residue 25 and name HN ) and' 67 1 67 37 rr_6ucj 1 95 'assign ( residue 25 and name HB1 ) 2.589601875 0.6474004687 0.6474004687 #intra' 67 39 67 117 rr_6ucj 1 96 'assign ( residue 25 and name HN ) and' 68 1 68 37 rr_6ucj 1 97 'assign ( residue 25 and name HA ) 2.7361110761 0.684027769 0.684027769 #intra' 68 39 68 115 rr_6ucj 1 98 'assign ( residue 26 and name HN ) and' 69 1 69 37 rr_6ucj 1 99 'assign ( residue 26 and name HA ) 2.6749145749 0.6687286437 0.6687286437 #intra' 69 39 69 117 rr_6ucj 1 100 'assign ( residue 26 and name HN ) and' 70 1 70 37 rr_6ucj 1 101 'assign ( residue 26 and name HB2 ) 2.6993817586 0.6748454397 0.6748454397 #intra' 70 39 70 118 rr_6ucj 1 102 'assign ( residue 26 and name HN ) and' 71 1 71 37 rr_6ucj 1 103 'assign ( residue 26 and name HB1 ) 2.6196058755 0.6549014689 0.6549014689 #intra' 71 39 71 118 rr_6ucj 1 104 'assign ( residue 26 and name HN ) and' 72 1 72 37 rr_6ucj 1 105 'assign (( residue 26 and name HD#) or (residue 26 and name HD*) ) 3.6209352613 0.9052338153 0.9052338153 #intra' 72 39 72 149 rr_6ucj 1 106 'assign ( residue 27 and name HN ) and' 73 1 73 37 rr_6ucj 1 107 'assign ( residue 27 and name HA ) 3.2490050714 0.8122512679 0.8122512679 #intra' 73 39 73 117 rr_6ucj 1 108 'assign ( residue 27 and name HN ) and' 74 1 74 37 rr_6ucj 1 109 'assign ( residue 27 and name HG ) 3.3974328473 0.8493582118 0.8493582118 #intra' 74 39 74 117 rr_6ucj 1 110 'assign ( residue 27 and name HN ) and' 75 1 75 37 rr_6ucj 1 111 'assign ( (residue 27 and name HD1#) or (residue 27 and name HD2#) ) 3.0937356247 1.0734339062 1.0734339062 #intra terminal methyl' 75 39 75 167 rr_6ucj 1 112 'assign ( residue 28 and name HN ) and' 76 1 76 37 rr_6ucj 1 113 'assign ( (residue 28 and name HG2#) or (residue 28 and name HG1#) ) 3.4464539318 1.161613483 1.161613483 #intra terminal methyl' 76 39 76 165 rr_6ucj 1 114 'assign ( residue 28 and name HN ) and' 77 1 77 37 rr_6ucj 1 115 'assign ( (residue 28 and name HG1#) or (residue 28 and name HG2#) ) 2.7610352857 0.9902588214 0.9902588214 #intra terminal methyl' 77 39 77 167 rr_6ucj 1 116 'assign ( residue 28 and name HN ) and' 78 1 78 37 rr_6ucj 1 117 'assign ( residue 28 and name HB ) 2.6815943647 0.6703985912 0.6703985912 #intra' 78 39 78 117 rr_6ucj 1 118 'assign ( residue 28 and name HN ) and' 79 1 79 37 rr_6ucj 1 119 'assign ( residue 28 and name HA ) 2.9452511577 0.7363127894 0.7363127894 #intra' 79 39 79 117 rr_6ucj 1 120 'assign ( residue 29 and name HN ) and' 80 1 80 37 rr_6ucj 1 121 'assign ( residue 29 and name HB2 ) 2.9670419952 0.7417604988 0.7417604988 #intra' 80 39 80 118 rr_6ucj 1 122 'assign ( residue 29 and name HN ) and' 81 1 81 37 rr_6ucj 1 123 'assign ( residue 29 and name HD1 ) 4.488572355 1.1221430888 1.1221430888 #intra' 81 39 81 117 rr_6ucj 1 124 'assign ( residue 29 and name HN ) and' 82 1 82 37 rr_6ucj 1 125 'assign ( residue 29 and name HA ) 2.8195712083 0.7048928021 0.7048928021 #intra' 82 39 82 117 rr_6ucj 1 126 'assign ( residue 29 and name HN ) and' 83 1 83 37 rr_6ucj 1 127 'assign ( residue 29 and name HB1 ) 3.2384321342 0.8096080336 0.8096080336 #intra' 83 39 83 118 rr_6ucj 1 128 'assign ( residue 30 and name HN ) and' 84 1 84 37 rr_6ucj 1 129 'assign ( (residue 30 and name HB#) or (residue 30 and name HB*) ) 2.5697732368 0.6424433092 0.6424433092 #intra' 84 39 84 149 rr_6ucj 1 130 'assign ( residue 30 and name HN ) and' 85 1 85 37 rr_6ucj 1 131 'assign ( residue 30 and name HA ) 2.8701652469 0.7175413117 0.7175413117 #intra' 85 39 85 117 rr_6ucj 1 132 'assign ( residue 31 and name HN ) and' 86 1 86 37 rr_6ucj 1 133 'assign ( (residue 31 and name HB#) or (residue 31 and name HB*) ) 2.6134133669 0.6533533417 0.6533533417 #intra' 86 39 86 149 rr_6ucj 1 134 'assign ( residue 31 and name HN ) and' 87 1 87 37 rr_6ucj 1 135 'assign ( residue 31 and name HA ) 2.7074587431 0.6768646858 0.6768646858 #intra' 87 39 87 117 rr_6ucj 1 136 'assign ( residue 32 and name HN ) and' 88 1 88 37 rr_6ucj 1 137 'assign ( residue 32 and name HD2* ) 4.492438637 1.1231096593 1.1231096593 #intra' 88 39 88 118 rr_6ucj 1 138 'assign ( residue 32 and name HN ) and' 89 1 89 37 rr_6ucj 1 139 'assign ( (residue 32 and name HB#) or (residue 32 and name HB*) ) 2.2998106465 0.5749526616 0.5749526616 #intra' 89 39 89 149 rr_6ucj 1 140 'assign ( residue 32 and name HN ) and' 90 1 90 37 rr_6ucj 1 141 'assign ( residue 32 and name HA ) 2.4599451481 0.614986287 0.614986287 #intra' 90 39 90 115 rr_6ucj 1 142 'assign ( residue 33 and name HN ) and' 91 1 91 37 rr_6ucj 1 143 ; assign ( residue 33 and name HD2* ) 5.0147211464 1.2536802866 1.2536802866 #intra #assign ( residue 33 and name HN ) and assign ( residue 33 and name HA ) 2.4523093381 0.6130773345 0.6130773345 #intra water peak overlap ; 91 39 92 38 rr_6ucj 1 144 'assign ( residue 33 and name HA ) 2.4523093381 0.6130773345 0.6130773345 #intra water peak overlap' 92 40 92 137 rr_6ucj 1 145 'assign ( residue 33 and name HN ) and' 93 1 93 37 rr_6ucj 1 146 'assign ( (residue 33 and name HB#) or (residue 33 and name HB*) ) 2.9400209426 0.7350052357 0.7350052357 #intra' 93 39 93 149 rr_6ucj 1 147 'assign ( residue 33 and name HN ) and' 94 1 94 37 rr_6ucj 1 148 'assign ( residue 33 and name HD2* ) 4.2207969455 1.0551992364 1.0551992364 #intra' 94 39 94 119 rr_6ucj 1 149 'assign ( residue 34 and name HN ) and' 95 1 95 37 rr_6ucj 1 150 'assign ( (residue 34 and name HB#) or (residue 34 and name HB*) ) 2.131192526 0.5327981315 0.5327981315 #intra' 95 39 95 148 rr_6ucj 1 151 'assign ( residue 34 and name HN ) and' 96 1 96 37 rr_6ucj 1 152 'assign ( residue 34 and name HA ) 2.5268687411 0.6317171853 0.6317171853 #intra' 96 39 96 117 rr_6ucj 1 153 'assign ( residue 34 and name HN ) and' 97 1 97 37 rr_6ucj 1 154 'assign ( (residue 34 and name HD#) or (residue 34 and name HD*) ) 3.51334713 0.8783367825 0.8783367825 #intra' 97 39 97 147 rr_6ucj 1 155 'assign ( residue 35 and name HN ) and' 98 1 98 37 rr_6ucj 1 156 'assign ( residue 35 and name HA* ) 2.3555654944 0.5888913736 0.5888913736 #intra' 98 39 98 118 rr_6ucj 1 157 'assign ( residue 35 and name HN ) and' 99 1 99 37 rr_6ucj 1 158 'assign ( residue 35 and name HA* ) 2.5538546842 0.6384636711 0.6384636711 #intra' 99 39 99 118 rr_6ucj 1 159 'assign ( residue 36 and name HN ) and' 100 1 100 37 rr_6ucj 1 160 'assign ( (residue 36 and name HB#) or (residue 36 and name HB*) ) 2.0047414507 0.8011853627 0.8011853627 #intra terminal methyl' 100 39 100 165 rr_6ucj 1 161 'assign ( residue 36 and name HN ) and' 101 1 101 37 rr_6ucj 1 162 'assign ( residue 36 and name HA ) 2.3690176359 0.592254409 0.592254409 #intra' 101 39 101 115 rr_6ucj 1 163 'assign ( residue 37 and name HN ) and' 102 1 102 37 rr_6ucj 1 164 'assign ( (residue 37 and name HG2#) or (residue 37 and name HG2*) ) 2.902566253 1.0256415632 1.0256415632 #intra terminal methyl' 102 39 102 166 rr_6ucj 1 165 'assign ( residue 37 and name HN ) and' 103 1 103 37 rr_6ucj 1 166 'assign ( residue 37 and name HG1* ) 2.6992322106 0.6748080527 0.6748080527 #intra' 103 39 103 119 rr_6ucj 1 167 'assign ( residue 37 and name HN ) and' 104 1 104 37 rr_6ucj 1 168 'assign ( residue 37 and name HB ) 2.2582875811 0.5645718953 0.5645718953 #intra' 104 39 104 117 rr_6ucj 1 169 'assign ( residue 37 and name HN ) and' 105 1 105 37 rr_6ucj 1 170 'assign ( (residue 37 and name HD1#) or (residue 37 and name HD1*) ) 2.8336920908 1.0084230227 1.0084230227 #intra terminal methyl' 105 39 105 167 rr_6ucj 1 171 'assign ( residue 37 and name HN ) and' 106 1 106 37 rr_6ucj 1 172 'assign ( residue 37 and name HG1* ) 3.2202099597 0.8050524899 0.8050524899 #intra' 106 39 106 119 rr_6ucj 1 173 'assign ( residue 37 and name HN ) and' 107 1 107 37 rr_6ucj 1 174 ; assign ( residue 37 and name HA ) 2.5949078393 0.6487269598 0.6487269598 #intra #assign ( residue 38 and name HN ) and assign ( residue 38 and name HG ) 2.9292675675 0.7323168919 0.7323168919 #intra too much overlap with L38 HB# ; 107 39 108 38 rr_6ucj 1 175 'assign ( residue 38 and name HG ) 2.9292675675 0.7323168919 0.7323168919 #intra too much overlap with L38 HB#' 108 40 108 148 rr_6ucj 1 176 'assign ( residue 38 and name HN ) and' 109 1 109 37 rr_6ucj 1 177 'assign ( (residue 38 and name HB#) or (residue 38 and name HB*) or (residue 38 and name HG) ) 2.4171326484 0.9042831621 0.9042831621 #intra linear combination' 109 39 109 196 rr_6ucj 1 178 'assign ( residue 38 and name HN ) and' 110 1 110 37 rr_6ucj 1 179 'assign ( residue 38 and name HA ) 2.67615645 0.6690391125 0.6690391125 #intra' 110 39 110 115 rr_6ucj 1 180 'assign ( residue 39 and name HN ) and' 111 1 111 37 rr_6ucj 1 181 ; assign ( residue 39 and name HA ) 2.4816445395 0.6204111349 0.6204111349 #intra #assign ( residue 40 and name HN ) and assign ( (residue 40 and name HB#) or (residue 40 and name HB*) ) 2.5846415646 0.6461603911 0.6461603911 #intra "S2 < 0.6" ; 111 39 112 38 rr_6ucj 1 182 ; assign ( (residue 40 and name HB#) or (residue 40 and name HB*) ) 2.5846415646 0.6461603911 0.6461603911 #intra "S2 < 0.6" #assign ( residue 40 and name HN ) and assign ( residue 40 and name HA ) 2.5842895004 0.6460723751 0.6460723751 #intra "S2 < 0.6" ; 112 40 113 38 rr_6ucj 1 183 ; assign ( residue 40 and name HA ) 2.5842895004 0.6460723751 0.6460723751 #intra "S2 < 0.6" #assign ( residue 41 and name HN ) and assign ( residue 41 and name HA ) 2.8051618331 0.7012904583 0.7012904583 #intra "S2 < 0.6" ; 113 40 114 38 rr_6ucj 1 184 ; assign ( residue 41 and name HA ) 2.8051618331 0.7012904583 0.7012904583 #intra "S2 < 0.6" #assign ( residue 41 and name HN ) and assign ( (residue 41 and name HG2#) or (residue 41 and name HG2*) ) 2.5421090813 0.6355272703 0.6355272703 #intra "S2 < 0.6" ; 114 40 115 38 rr_6ucj 1 185 ; assign ( (residue 41 and name HG2#) or (residue 41 and name HG2*) ) 2.5421090813 0.6355272703 0.6355272703 #intra "S2 < 0.6" #assign ( residue 41 and name HN ) and assign ( residue 41 and name HB ) 2.6556866529 0.6639216632 0.6639216632 #intra "S2 < 0.6" ; 115 40 116 38 rr_6ucj 1 186 ; assign ( residue 41 and name HB ) 2.6556866529 0.6639216632 0.6639216632 #intra "S2 < 0.6" #assign ( residue 42 and name HN ) and assign ( residue 42 and name HD2* ) 5.3212178816 1.3303044704 1.3303044704 #intra "S2 < 0.6" ; 116 40 117 38 rr_6ucj 1 187 ; assign ( residue 42 and name HD2* ) 5.3212178816 1.3303044704 1.3303044704 #intra "S2 < 0.6" #assign ( residue 42 and name HN ) and assign ( residue 42 and name HB2 ) 3.024712831 0.7561782077 0.7561782077 #intra "S2 < 0.6" ; 117 40 118 38 rr_6ucj 1 188 ; assign ( residue 42 and name HB2 ) 3.024712831 0.7561782077 0.7561782077 #intra "S2 < 0.6" #assign ( residue 42 and name HN ) and assign ( residue 42 and name HB1 ) 2.6120381102 0.6530095276 0.6530095276 #intra "S2 < 0.6" ; 118 40 119 38 rr_6ucj 1 189 ; assign ( residue 42 and name HB1 ) 2.6120381102 0.6530095276 0.6530095276 #intra "S2 < 0.6" #assign ( residue 42 and name HN ) and assign ( residue 42 and name HA ) 2.3537913197 0.5884478299 0.5884478299 #intra "S2 < 0.6" ; 119 40 120 38 rr_6ucj 1 190 ; assign ( residue 42 and name HA ) 2.3537913197 0.5884478299 0.5884478299 #intra "S2 < 0.6" #assign ( residue 43 and name HN ) and assign ( (residue 43 and name HG#) or (residue 43 and name HG*) ) 2.0990425629 0.5247606407 0.5247606407 #intra "S2 < 0.6" ; 120 40 121 38 rr_6ucj 1 191 ; assign ( (residue 43 and name HG#) or (residue 43 and name HG*) ) 2.0990425629 0.5247606407 0.5247606407 #intra "S2 < 0.6" #assign ( residue 43 and name HN ) and assign ( residue 43 and name HB ) 2.3152164513 0.5788041128 0.5788041128 #intra "S2 < 0.6" ; 121 40 122 38 rr_6ucj 1 192 ; assign ( residue 43 and name HB ) 2.3152164513 0.5788041128 0.5788041128 #intra "S2 < 0.6" #assign ( residue 43 and name HN ) and assign ( residue 43 and name HA ) 2.4129167071 0.6032291768 0.6032291768 #intra "S2 < 0.6" ; 122 40 123 38 rr_6ucj 1 193 ; assign ( residue 43 and name HA ) 2.4129167071 0.6032291768 0.6032291768 #intra "S2 < 0.6" #assign ( residue 45 and name HN ) and assign ( residue 45 and name HA ) 2.4878939543 0.6219734886 0.6219734886 #intra "S2 < 0.6" ; 123 40 124 38 rr_6ucj 1 194 ; assign ( residue 45 and name HA ) 2.4878939543 0.6219734886 0.6219734886 #intra "S2 < 0.6" #assign ( residue 46 and name HN ) and assign ( residue 46 and name HA ) 2.3770794123 0.5942698531 0.5942698531 #intra "S2 < 0.6" ; 124 40 125 38 rr_6ucj 1 195 ; assign ( residue 46 and name HA ) 2.3770794123 0.5942698531 0.5942698531 #intra "S2 < 0.6" #assign ( residue 46 and name HN ) and assign ( (residue 46 and name HB#) or (residue 46 and name HB*) ) 2.3618466099 0.5904616525 0.5904616525 #intra "S2 < 0.6" ; 125 40 126 38 rr_6ucj 1 196 ; assign ( (residue 46 and name HB#) or (residue 46 and name HB*) ) 2.3618466099 0.5904616525 0.5904616525 #intra "S2 < 0.6" #assign ( residue 47 and name HN ) and assign ( (residue 47 and name HG2#) or (residue 47 and name HG2*) ) 2.903423608 0.725855902 0.725855902 #intra "S2 < 0.6" ; 126 40 127 38 rr_6ucj 1 197 ; assign ( (residue 47 and name HG2#) or (residue 47 and name HG2*) ) 2.903423608 0.725855902 0.725855902 #intra "S2 < 0.6" #assign ( residue 47 and name HN ) and assign ( residue 47 and name HB ) 2.4970608885 0.6242652221 0.6242652221 #intra "S2 < 0.6" ; 127 40 128 38 rr_6ucj 1 198 ; assign ( residue 47 and name HB ) 2.4970608885 0.6242652221 0.6242652221 #intra "S2 < 0.6" #assign ( residue 47 and name HN ) and assign ( residue 47 and name HA ) 2.554452365 0.6386130913 0.6386130913 #intra "S2 < 0.6" ; 128 40 129 38 rr_6ucj 1 199 ; assign ( residue 47 and name HA ) 2.554452365 0.6386130913 0.6386130913 #intra "S2 < 0.6" #assign ( residue 48 and name HN ) and assign ( (residue 48 and name HD#) or (residue 48 and name HD*) ) 3.0806851587 0.7701712897 0.7701712897 #intra "S2 < 0.6" ; 129 40 130 38 rr_6ucj 1 200 ; assign ( (residue 48 and name HD#) or (residue 48 and name HD*) ) 3.0806851587 0.7701712897 0.7701712897 #intra "S2 < 0.6" #assign ( residue 48 and name HN ) and assign ( residue 48 and name HB1 ) 2.6644796033 0.6661199008 0.6661199008 #intra "S2 < 0.6" ; 130 40 131 38 rr_6ucj 1 201 ; assign ( residue 48 and name HB1 ) 2.6644796033 0.6661199008 0.6661199008 #intra "S2 < 0.6" #assign ( residue 48 and name HN ) and assign ( residue 48 and name HB2 ) 2.4079057892 0.6019764473 0.6019764473 #intra "S2 < 0.6" ; 131 40 132 38 rr_6ucj 1 202 ; assign ( residue 48 and name HB2 ) 2.4079057892 0.6019764473 0.6019764473 #intra "S2 < 0.6" #assign ( residue 48 and name HN ) and assign ( residue 48 and name HA ) 2.4750161503 0.6187540376 0.6187540376 #intra "S2 < 0.6" ; 132 40 133 38 rr_6ucj 1 203 ; assign ( residue 48 and name HA ) 2.4750161503 0.6187540376 0.6187540376 #intra "S2 < 0.6" #assign ( residue 49 and name HN ) and assign ( (residue 49 and name HA#) or (residue 49 and name HA*) ) 2.1257061816 0.5314265454 0.5314265454 #intra "S2 < 0.6" ; 133 40 134 38 rr_6ucj 1 204 ; assign ( (residue 49 and name HA#) or (residue 49 and name HA*) ) 2.1257061816 0.5314265454 0.5314265454 #intra "S2 < 0.6" #assign ( residue 50 and name HN ) and assign ( residue 50 and name HG1 ) 3.4731119905 0.8682779976 0.8682779976 #intra "S2 < 0.6" ; 134 40 135 38 rr_6ucj 1 205 ; assign ( residue 50 and name HG1 ) 3.4731119905 0.8682779976 0.8682779976 #intra "S2 < 0.6" #assign ( residue 50 and name HN ) and assign ( (residue 50 and name HD#) or (residue 50 and name HD*) ) 3.6426464653 0.9106616163 0.9106616163 #intra "S2 < 0.6" ; 135 40 136 38 rr_6ucj 1 206 ; assign ( (residue 50 and name HD#) or (residue 50 and name HD*) ) 3.6426464653 0.9106616163 0.9106616163 #intra "S2 < 0.6" #assign ( residue 50 and name HN ) and assign ( residue 50 and name HG2 ) 3.7355515262 0.9338878816 0.9338878816 #intra "S2 < 0.6" ; 136 40 137 38 rr_6ucj 1 207 ; assign ( residue 50 and name HG2 ) 3.7355515262 0.9338878816 0.9338878816 #intra "S2 < 0.6" #assign ( residue 50 and name HN ) and assign ( residue 50 and name HA ) 2.7763049742 0.6940762436 0.6940762436 #intra "S2 < 0.6" ; 137 40 138 38 rr_6ucj 1 208 'assign ( residue 50 and name HA ) 2.7763049742 0.6940762436 0.6940762436 #intra "S2 < 0.6"' 138 40 138 129 rr_6ucj 1 209 'assign ( residue 51 and name HN ) and' 139 1 139 37 rr_6ucj 1 210 'assign ( residue 51 and name HA ) 2.2858069173 0.5714517293 0.5714517293 #intra' 139 39 139 117 rr_6ucj 1 211 'assign ( residue 51 and name HN ) and' 140 1 140 37 rr_6ucj 1 212 'assign ( (residue 51 and name HD#) or (residue 51 and name HD*) ) 4.7717681135 1.1929420284 1.1929420284 #intra' 140 39 140 149 rr_6ucj 1 213 'assign ( residue 51 and name HN ) and' 141 1 141 37 rr_6ucj 1 214 'assign ( (residue 51 and name HG#) or (residue 51 and name HG*) ) 3.3497292668 0.8374323167 0.8374323167 #intra' 141 39 141 149 rr_6ucj 1 215 'assign ( residue 51 and name HN ) and' 142 1 142 37 rr_6ucj 1 216 'assign ( (residue 51 and name HB#) or (residue 51 and name HB*) ) 2.1785761736 0.5446440434 0.5446440434 #intra' 142 39 142 149 rr_6ucj 1 217 'assign ( residue 52 and name HN ) and' 143 1 143 37 rr_6ucj 1 218 'assign ( residue 52 and name HA ) 2.665379613 0.6663449033 0.6663449033 #intra' 143 39 143 116 rr_6ucj 1 219 'assign ( residue 52 and name HN ) and' 144 1 144 37 rr_6ucj 1 220 'assign ( (residue 52 and name HB#) or (residue 52 and name HB*) ) 2.5798145875 0.6449536469 0.6449536469 #intra' 144 39 144 149 rr_6ucj 1 221 'assign ( residue 53 and name HN ) and' 145 1 145 37 rr_6ucj 1 222 'assign ( (residue 53 and name HB#) or (residue 53 and name HB*) ) 2.2708922072 0.5677230518 0.5677230518 #intra' 145 39 145 149 rr_6ucj 1 223 'assign ( residue 53 and name HN ) and' 146 1 146 37 rr_6ucj 1 224 'assign ( residue 53 and name HA ) 2.8450933819 0.7112733455 0.7112733455 #intra' 146 39 146 117 rr_6ucj 1 225 'assign ( residue 54 and name HN ) and' 147 1 147 37 rr_6ucj 1 226 'assign ( (residue 54 and name HB) or (residue 55 and name HB*) or (residue 55 and name HB#) or (residue 56 and name HB) ) 2.3796278017 0.8949069504 0.8949069504 #intra linear combination' 147 39 147 224 rr_6ucj 1 227 'assign ( residue 54 and name HN ) and' 148 1 148 37 rr_6ucj 1 228 'assign ( (residue 54 and name HG#) or (residue 54 and name HG*) or (residue 56 and name HG*) or (residue 56 and name HG#) ) 2.4350826264 1.0087706566 1.0087706566 #intra terminal methyl & linear combination' 148 39 148 244 rr_6ucj 1 229 'assign ( residue 54 and name HN ) and' 149 1 149 37 rr_6ucj 1 230 'assign ( residue 54 and name HA ) 2.7208194492 0.6802048623 0.6802048623 #intra' 149 39 149 117 rr_6ucj 1 231 'assign ( residue 54 and name HN ) and' 150 1 150 37 rr_6ucj 1 232 'assign ( (residue 54 and name HG#) or (residue 54 and name HG*) or (residue 56 and name HG*) or (residue 56 and name HG#) ) 3.2751724675 1.1187931169 1.1187931169 #intra terminal methyl & linear combination' 150 39 150 244 rr_6ucj 1 233 'assign ( residue 55 and name HN ) and' 151 1 151 37 rr_6ucj 1 234 'assign ( (residue 55 and name HB#) or (residue 55 and name HB*) ) 2.35540342 0.588850855 0.588850855 #intra' 151 39 151 145 rr_6ucj 1 235 'assign ( residue 55 and name HN ) and' 152 1 152 37 rr_6ucj 1 236 'assign ( residue 55 and name HA ) 2.7726641751 0.6931660438 0.6931660438 #intra' 152 39 152 117 rr_6ucj 1 237 'assign ( residue 55 and name HN ) and' 153 1 153 37 rr_6ucj 1 238 'assign ( (residue 55 and name HG#) or (residue 55 and name HG*) ) 2.9959286633 0.7489821658 0.7489821658 #intra' 153 39 153 149 rr_6ucj 1 239 'assign ( residue 56 and name HN ) and' 154 1 154 37 rr_6ucj 1 240 'assign ( (residue 56 and name HG#) or (residue 56 and name HG*) or (residue 54 and name HG#) or (residue 54 and name HG*) ) 2.6307183301 1.0576795825 1.0576795825 #intra terminal methyl & linear combination' 154 39 154 244 rr_6ucj 1 241 'assign ( residue 56 and name HN ) and' 155 1 155 37 rr_6ucj 1 242 'assign ( (residue 56 and name HG#) or (residue 56 and name HG*) or (residue 54 and name HG#) or (residue 54 and name HG*) ) 3.4158819435 1.2539704859 1.2539704859 #intra terminal methyl & linear combination' 155 39 155 244 rr_6ucj 1 243 'assign ( residue 56 and name HN ) and' 156 1 156 37 rr_6ucj 1 244 'assign ( (residue 56 and name HB) or (residue 54 and name HB) or (residue 55 and name HB#) or (residue 55 and name HB*) ) 2.4718196385 0.9179549096 0.9179549096 #intra linear combination' 156 39 156 224 rr_6ucj 1 245 'assign ( residue 56 and name HN ) and' 157 1 157 37 rr_6ucj 1 246 'assign ( residue 56 and name HA ) 2.8942733697 0.7235683424 0.7235683424 #intra' 157 39 157 117 rr_6ucj 1 247 'assign ( residue 57 and name HN ) and' 158 1 158 37 rr_6ucj 1 248 'assign ( (residue 57 and name HD#) or (residue 57 and name HD*) ) 3.5496999063 1.1874249766 1.1874249766 #intra terminal methyl' 158 39 158 165 rr_6ucj 1 249 'assign ( residue 57 and name HN ) and' 159 1 159 37 rr_6ucj 1 250 'assign ( residue 57 and name HA ) 2.8618101873 0.7154525468 0.7154525468 #intra' 159 39 159 117 rr_6ucj 1 251 'assign ( residue 57 and name HN ) and' 160 1 160 37 rr_6ucj 1 252 'assign ( (residue 57 and name HB#) or (residue 57 and name HB*) or (residue 58 and name HD*) or (residue 62 and name HG) ) 3.2410994641 0.810274866 0.810274866 #intra' 160 39 160 204 rr_6ucj 1 253 'assign ( residue 58 and name HN ) and' 161 1 161 37 rr_6ucj 1 254 'assign ( residue 58 and name HD* ) 4.2031961651 1.0507990413 1.0507990413 #intra' 161 39 161 118 rr_6ucj 1 255 'assign ( residue 58 and name HN ) and' 162 1 162 37 rr_6ucj 1 256 'assign ( (residue 58 and name HG#) or (residue 58 and name HG*) ) 3.4824513965 0.8706128491 0.8706128491 #intra' 162 39 162 149 rr_6ucj 1 257 'assign ( residue 58 and name HN ) and' 163 1 163 37 rr_6ucj 1 258 'assign ( (residue 58 and name HB#) or (residue 58 and name HB*) ) 2.7351789592 0.6837947398 0.6837947398 #intra' 163 39 163 149 rr_6ucj 1 259 'assign ( residue 58 and name HN ) and' 164 1 164 37 rr_6ucj 1 260 'assign ( residue 58 and name HA ) 2.7898358409 0.6974589602 0.6974589602 #intra' 164 39 164 117 rr_6ucj 1 261 'assign ( residue 58 and name HN ) and' 165 1 165 37 rr_6ucj 1 262 'assign ( (residue 58 and name HD*) or (residue 57 and name HB*) ) 3.2041503897 0.8010375974 0.8010375974 #intra' 165 39 165 149 rr_6ucj 1 263 'assign ( residue 59 and name HN ) and' 166 1 166 37 rr_6ucj 1 264 'assign ( residue 59 and name HA ) 3.2124901244 0.8031225311 0.8031225311 #intra' 166 39 166 117 rr_6ucj 1 265 'assign ( residue 59 and name HN ) and' 167 1 167 37 rr_6ucj 1 266 'assign ( (residue 59 and name HG#) or (residue 59 and name HG*) ) 3.8087322285 0.9521830571 0.9521830571 #intra' 167 39 167 149 rr_6ucj 1 267 'assign ( residue 59 and name HN ) and' 168 1 168 37 rr_6ucj 1 268 'assign ( (residue 59 and name HB#) or (residue 59 and name HB*) ) 2.8284558519 0.707113963 0.707113963 #intra' 168 39 168 147 rr_6ucj 1 269 'assign ( residue 60 and name HN ) and' 169 1 169 37 rr_6ucj 1 270 'assign ( residue 60 and name HG* ) 3.7691953618 0.9422988404 0.9422988404 #intra' 169 39 169 118 rr_6ucj 1 271 'assign ( residue 60 and name HN ) and' 170 1 170 37 rr_6ucj 1 272 'assign ( (residue 60 and name HB#) or (residue 60 and name HB*) ) 2.6031931284 0.6507982821 0.6507982821 #intra' 170 39 170 149 rr_6ucj 1 273 'assign ( residue 60 and name HN ) and' 171 1 171 37 rr_6ucj 1 274 'assign ( residue 60 and name HA ) 2.7722758513 0.6930689628 0.6930689628 #intra' 171 39 171 117 rr_6ucj 1 275 'assign ( residue 60 and name HN ) and' 172 1 172 37 rr_6ucj 1 276 'assign ( residue 60 and name HG* ) 3.6012999032 0.9003249758 0.9003249758 #intra' 172 39 172 118 rr_6ucj 1 277 'assign ( residue 62 and name HN ) and' 173 1 173 37 rr_6ucj 1 278 'assign ( (residue 62 and name HB#) or (residue 62 and name HB*) ) 2.4550779464 0.6137694866 0.6137694866 #intra' 173 39 173 149 rr_6ucj 1 279 'assign ( residue 62 and name HN ) and' 174 1 174 37 rr_6ucj 1 280 'assign ( residue 62 and name HA ) 2.8481007232 0.7120251808 0.7120251808 #intra' 174 39 174 117 rr_6ucj 1 281 'assign ( residue 62 and name HN ) and' 175 1 175 37 rr_6ucj 1 282 'assign ( (residue 62 and name HD2#) or (residue 62 and name HD1#) ) 3.808921316 1.252230329 1.252230329 #intra terminal methyl' 175 39 175 164 rr_6ucj 1 283 'assign ( residue 62 and name HN ) and' 176 1 176 37 rr_6ucj 1 284 'assign ( (residue 62 and name HD1#) or (residue 62 and name HD2#) ) 4.0212618821 1.3053154705 1.3053154705 #intra terminal methyl' 176 39 176 167 rr_6ucj 1 285 'assign ( residue 62 and name HN ) and' 177 1 177 37 rr_6ucj 1 286 'assign ( residue 62 and name HG ) 3.2779779405 0.8194944851 0.8194944851 #intra' 177 39 177 117 rr_6ucj 1 287 'assign ( residue 63 and name HN ) and' 178 1 178 37 rr_6ucj 1 288 'assign ( (residue 63 and name HB#) or (residue 63 and name HB*) ) 2.5295138064 0.6323784516 0.6323784516 #intra' 178 39 178 149 rr_6ucj 1 289 'assign ( residue 63 and name HN ) and' 179 1 179 37 rr_6ucj 1 290 ; assign ( residue 63 and name HA ) 2.6933884467 0.6733471117 0.6733471117 #intra #assign ( residue 64 and name HN ) and assign ( residue 64 and name HB1 ) 2.6818667718 0.6704666929 0.6704666929 #intra "S2 < 0.6" ; 179 39 180 38 rr_6ucj 1 291 ; assign ( residue 64 and name HB1 ) 2.6818667718 0.6704666929 0.6704666929 #intra "S2 < 0.6" #assign ( residue 64 and name HN ) and assign ( residue 64 and name HA ) 2.7223362939 0.6805840735 0.6805840735 #intra "S2 < 0.6" ; 180 40 181 38 rr_6ucj 1 292 ; assign ( residue 64 and name HA ) 2.7223362939 0.6805840735 0.6805840735 #intra "S2 < 0.6" #assign ( residue 64 and name HN ) and assign ( residue 64 and name HB2 ) 3.0845220324 0.7711305081 0.7711305081 #intra "S2 < 0.6" ; 181 40 182 38 rr_6ucj 1 293 ; assign ( residue 64 and name HB2 ) 3.0845220324 0.7711305081 0.7711305081 #intra "S2 < 0.6" #assign ( residue 64 and name HN ) and assign ( (residue 64 and name HE#) or (residue 64 and name HE*) ) 4.8072787376 1.2018196844 1.2018196844 #intra "S2 < 0.6" ; 182 40 183 38 rr_6ucj 1 294 ; assign ( (residue 64 and name HE#) or (residue 64 and name HE*) ) 4.8072787376 1.2018196844 1.2018196844 #intra "S2 < 0.6" #assign ( residue 64 and name HN ) and assign ( (residue 64 and name HD#) or (residue 64 and name HD*) ) 2.989765812 0.747441453 0.747441453 #intra "S2 < 0.6" ; 183 40 184 38 rr_6ucj 1 295 ; assign ( (residue 64 and name HD#) or (residue 64 and name HD*) ) 2.989765812 0.747441453 0.747441453 #intra "S2 < 0.6" #assign ( residue 65 and name HN ) and assign ( (residue 65 and name HB#) or (residue 65 and name HB*) ) 3.2776126974 0.8194031743 0.8194031743 #intra "S2 < 0.6" ; 184 40 185 38 rr_6ucj 1 296 ; assign ( (residue 65 and name HB#) or (residue 65 and name HB*) ) 3.2776126974 0.8194031743 0.8194031743 #intra "S2 < 0.6" #assign ( residue 65 and name HN ) and assign ( residue 65 and name HA ) 2.8020889183 0.7005222296 0.7005222296 #intra "S2 < 0.6" ; 185 40 186 38 rr_6ucj 1 297 ; assign ( residue 65 and name HA ) 2.8020889183 0.7005222296 0.7005222296 #intra "S2 < 0.6" #assign ( residue 65 and name HN ) and assign ( (residue 65 and name HD#) or (residue 65 and name HD*) ) 3.3778023971 0.8444505993 0.8444505993 #intra "S2 < 0.6" ; 186 40 187 38 rr_6ucj 1 298 ; assign ( (residue 65 and name HD#) or (residue 65 and name HD*) ) 3.3778023971 0.8444505993 0.8444505993 #intra "S2 < 0.6" #assign ( residue 65 and name HN ) and assign ( (residue 65 and name HG) or (residue 62 and name HB*) or (residue 68 and name HB*) ) 2.2949606226 0.5737401557 0.5737401557 #intra "S2 < 0.6" ; 187 40 188 38 rr_6ucj 1 299 ; assign ( (residue 65 and name HG) or (residue 62 and name HB*) or (residue 68 and name HB*) ) 2.2949606226 0.5737401557 0.5737401557 #intra "S2 < 0.6" #assign ( residue 67 and name HN ) and assign ( (residue 67 and name HB#) or (residue 67 and name HB*) ) 2.2956464634 0.5739116159 0.5739116159 #intra "S2 < 0.6" ; 188 40 189 38 rr_6ucj 1 300 ; assign ( (residue 67 and name HB#) or (residue 67 and name HB*) ) 2.2956464634 0.5739116159 0.5739116159 #intra "S2 < 0.6" #assign ( residue 67 and name HN ) and assign ( residue 67 and name HG ) 2.2956464634 0.5739116159 0.5739116159 #intra "S2 < 0.6" ; 189 40 190 38 rr_6ucj 1 301 ; assign ( residue 67 and name HG ) 2.2956464634 0.5739116159 0.5739116159 #intra "S2 < 0.6" #assign ( residue 67 and name HN ) and assign ( residue 67 and name HA ) 2.6599668686 0.6649917171 0.6649917171 #intra "S2 < 0.6" ; 190 40 191 38 rr_6ucj 1 302 ; assign ( residue 67 and name HA ) 2.6599668686 0.6649917171 0.6649917171 #intra "S2 < 0.6" #assign ( residue 67 and name HN ) and assign ( (residue 67 and name HD1#) or (residue 67 and name HD2#) ) 3.8490989865 0.9622747466 0.9622747466 #intra "S2 < 0.6" ; 191 40 192 38 rr_6ucj 1 303 ; assign ( (residue 67 and name HD1#) or (residue 67 and name HD2#) ) 3.8490989865 0.9622747466 0.9622747466 #intra "S2 < 0.6" #assign ( residue 68 and name HN ) and assign ( residue 68 and name HA ) 2.0566563132 0.5141640783 0.5141640783 #intra "S2 < 0.6" ; 192 40 193 38 rr_6ucj 1 304 ; assign ( residue 68 and name HA ) 2.0566563132 0.5141640783 0.5141640783 #intra "S2 < 0.6" #assign ( residue 68 and name HN ) and assign ( residue 68 and name HB2 ) 2.7471737806 0.6867934452 0.6867934452 #intra "S2 < 0.6" ; 193 40 194 38 rr_6ucj 1 305 ; assign ( residue 68 and name HB2 ) 2.7471737806 0.6867934452 0.6867934452 #intra "S2 < 0.6" #assign ( residue 68 and name HN ) and assign ( (residue 68 and name HG#) or (residue 68 and name HG*) ) 3.6587801403 0.9146950351 0.9146950351 #intra "S2 < 0.6" ; 194 40 195 38 rr_6ucj 1 306 ; assign ( (residue 68 and name HG#) or (residue 68 and name HG*) ) 3.6587801403 0.9146950351 0.9146950351 #intra "S2 < 0.6" #assign ( residue 68 and name HN ) and assign ( (residue 68 and name HD#) or (residue 68 and name HD*) ) 3.2064169742 0.8016042435 0.8016042435 #intra "S2 < 0.6" ; 195 40 196 38 rr_6ucj 1 307 ; assign ( (residue 68 and name HD#) or (residue 68 and name HD*) ) 3.2064169742 0.8016042435 0.8016042435 #intra "S2 < 0.6" #assign ( residue 68 and name HN ) and assign ( residue 68 and name HB1 ) 3.0124062099 0.7531015525 0.7531015525 #intra "S2 < 0.6" ; 196 40 197 38 rr_6ucj 1 308 ; assign ( residue 68 and name HB1 ) 3.0124062099 0.7531015525 0.7531015525 #intra "S2 < 0.6" #assign ( residue 69 and name HN ) and assign ( (residue 69 and name HD#) or (residue 69 and name HD*) ) 4.3835283239 1.095882081 1.095882081 #intra "S2 < 0.6" ; 197 40 198 38 rr_6ucj 1 309 ; assign ( (residue 69 and name HD#) or (residue 69 and name HD*) ) 4.3835283239 1.095882081 1.095882081 #intra "S2 < 0.6" #assign ( residue 69 and name HN ) and assign ( residue 69 and name HB2 ) 2.7806595489 0.6951648872 0.6951648872 #intra "S2 < 0.6" ; 198 40 199 38 rr_6ucj 1 310 ; assign ( residue 69 and name HB2 ) 2.7806595489 0.6951648872 0.6951648872 #intra "S2 < 0.6" #assign ( residue 69 and name HN ) and assign ( residue 69 and name HA ) 1.9661430433 0.4915357608 0.4915357608 #intra "S2 < 0.6" ; 199 40 200 38 rr_6ucj 1 311 ; assign ( residue 69 and name HA ) 1.9661430433 0.4915357608 0.4915357608 #intra "S2 < 0.6" #assign ( residue 69 and name HN ) and assign ( residue 69 and name HB1 ) 3.0106479512 0.7526619878 0.7526619878 #intra "S2 < 0.6" ; 200 40 201 38 rr_6ucj 1 312 ; assign ( residue 69 and name HB1 ) 3.0106479512 0.7526619878 0.7526619878 #intra "S2 < 0.6" #assign ( residue 69 and name HN ) and assign ( (residue 69 and name HG#) or (residue 69 and name HG*) ) 3.4480602129 0.8620150532 0.8620150532 #intra "S2 < 0.6" ; 201 40 202 38 rr_6ucj 1 313 ; assign ( (residue 69 and name HG#) or (residue 69 and name HG*) ) 3.4480602129 0.8620150532 0.8620150532 #intra "S2 < 0.6" #assign ( residue 70 and name HN ) and assign ( (residue 70 and name HD#) or (residue 70 and name HD*) ) 3.9408775709 0.9852193927 0.9852193927 #intra "S2 < 0.6" ; 202 40 203 38 rr_6ucj 1 314 ; assign ( (residue 70 and name HD#) or (residue 70 and name HD*) ) 3.9408775709 0.9852193927 0.9852193927 #intra "S2 < 0.6" #assign ( residue 70 and name HN ) and assign ( (residue 70 and name HG#) or (residue 70 and name HG*) ) 4.1962538081 1.049063452 1.049063452 #intra "S2 < 0.6" ; 203 40 204 38 rr_6ucj 1 315 ; assign ( (residue 70 and name HG#) or (residue 70 and name HG*) ) 4.1962538081 1.049063452 1.049063452 #intra "S2 < 0.6" #assign ( residue 70 and name HN ) and assign ( residue 70 and name HB2 ) 2.8609607649 0.7152401912 0.7152401912 #intra "S2 < 0.6" ; 204 40 205 38 rr_6ucj 1 316 ; assign ( residue 70 and name HB2 ) 2.8609607649 0.7152401912 0.7152401912 #intra "S2 < 0.6" #assign ( residue 70 and name HN ) and assign ( residue 70 and name HA ) 1.9645093482 0.491127337 0.491127337 #intra "S2 < 0.6" ; 205 40 206 38 rr_6ucj 1 317 ; assign ( residue 70 and name HA ) 1.9645093482 0.491127337 0.491127337 #intra "S2 < 0.6" #assign ( residue 70 and name HN ) and assign ( residue 70 and name HB1 ) 3.2183109665 0.8045777416 0.8045777416 #intra "S2 < 0.6" ; 206 40 207 38 rr_6ucj 1 318 ; assign ( residue 70 and name HB1 ) 3.2183109665 0.8045777416 0.8045777416 #intra "S2 < 0.6" #assign ( residue 71 and name HN ) and assign ( residue 71 and name HB2 ) 3.8457650616 0.9614412654 0.9614412654 #intra "S2 < 0.6" ; 207 40 208 38 rr_6ucj 1 319 ; assign ( residue 71 and name HB2 ) 3.8457650616 0.9614412654 0.9614412654 #intra "S2 < 0.6" #assign ( residue 71 and name HN ) and assign ( residue 71 and name HA ) 2.3851827771 0.5962956943 0.5962956943 #intra "S2 < 0.6" ; 208 40 209 38 rr_6ucj 1 320 ; assign ( residue 71 and name HA ) 2.3851827771 0.5962956943 0.5962956943 #intra "S2 < 0.6" #assign ( residue 71 and name HN ) and assign ( residue 71 and name HB1 ) 3.9345685569 0.9836421392 0.9836421392 #intra "S2 < 0.6" ; 209 40 210 38 rr_6ucj 1 321 ; assign ( residue 71 and name HB1 ) 3.9345685569 0.9836421392 0.9836421392 #intra "S2 < 0.6" #assign ( residue 72 and name HN ) and assign ( (residue 72 and name HB#) or (residue 72 and name HB*) ) 4.7177459199 1.17943648 1.17943648 #intra "S2 < 0.6" ; 210 40 211 38 rr_6ucj 1 322 ; assign ( (residue 72 and name HB#) or (residue 72 and name HB*) ) 4.7177459199 1.17943648 1.17943648 #intra "S2 < 0.6" #assign ( residue 72 and name HN ) and assign ( residue 72 and name HA ) 2.9105826117 0.7276456529 0.7276456529 #intra "S2 < 0.6" ; 211 40 212 38 rr_6ucj 1 323 ; assign ( residue 72 and name HA ) 2.9105826117 0.7276456529 0.7276456529 #intra "S2 < 0.6" #sequential #assign (residue 4 and name HN ) and assign (residue 3 and name HA ) 2.904878637 0.7262196592 0.7262196592 #seq "S2 < 0.6" ; 212 40 215 36 rr_6ucj 1 324 ; assign (residue 3 and name HA ) 2.904878637 0.7262196592 0.7262196592 #seq "S2 < 0.6" #assign (residue 5 and name HN ) and assign (residue 4 and name HB2 ) 4.8421539389 1.2105384847 1.2105384847 #seq "S2 < 0.6" ; 215 38 216 36 rr_6ucj 1 325 ; assign (residue 4 and name HB2 ) 4.8421539389 1.2105384847 1.2105384847 #seq "S2 < 0.6" #assign (residue 5 and name HN ) and assign (residue 6 and name HA ) 4.4317287278 1.1079321819 1.1079321819 #seq "S2 < 0.6" ; 216 38 217 36 rr_6ucj 1 326 ; assign (residue 6 and name HA ) 4.4317287278 1.1079321819 1.1079321819 #seq "S2 < 0.6" #assign (residue 5 and name HN ) and assign (residue 4 and name HA ) 2.6135432654 0.6533858164 0.6533858164 #seq "S2 < 0.6" ; 217 38 218 36 rr_6ucj 1 327 ; assign (residue 4 and name HA ) 2.6135432654 0.6533858164 0.6533858164 #seq "S2 < 0.6" #assign (residue 6 and name HN ) and assign (residue 5 and name HA ) 3.1738708076 0.7934677019 0.7934677019 #seq "S2 < 0.6" ; 218 38 219 36 rr_6ucj 1 328 ; assign (residue 5 and name HA ) 3.1738708076 0.7934677019 0.7934677019 #seq "S2 < 0.6" #assign (residue 7 and name HN ) and assign ((residue 8 and name HB) or (residue 9 and name HB1) ) 4.1106250136 1.0276562534 1.0276562534 #seq "S2 < 0.6" ; 219 38 220 36 rr_6ucj 1 329 ; assign ((residue 8 and name HB) or (residue 9 and name HB1) ) 4.1106250136 1.0276562534 1.0276562534 #seq "S2 < 0.6" #assign (residue 7 and name HN ) and assign (residue 6 and name HB2 ) 4.8991968946 1.2247992236 1.2247992236 #seq "S2 < 0.6" ; 220 38 221 36 rr_6ucj 1 330 ; assign (residue 6 and name HB2 ) 4.8991968946 1.2247992236 1.2247992236 #seq "S2 < 0.6" #assign (residue 7 and name HN ) and assign (residue 6 and name HB1 ) 5.0999608981 1.2749902245 1.2749902245 #seq "S2 < 0.6" ; 221 38 222 36 rr_6ucj 1 331 ; assign (residue 6 and name HB1 ) 5.0999608981 1.2749902245 1.2749902245 #seq "S2 < 0.6" #assign (residue 7 and name HN ) and assign (residue 6 and name HA ) 4.1989226371 1.0497306593 1.0497306593 #seq water peak overlap "S2 < 0.6" ; 222 38 223 36 rr_6ucj 1 332 ; assign (residue 6 and name HA ) 4.1989226371 1.0497306593 1.0497306593 #seq water peak overlap "S2 < 0.6" #assign (residue 8 and name HN ) and assign (residue 7 and name HA ) 2.1442033687 0.5360508422 0.5360508422 #seq "S2 < 0.6" ; 223 38 224 36 rr_6ucj 1 333 ; assign (residue 7 and name HA ) 2.1442033687 0.5360508422 0.5360508422 #seq "S2 < 0.6" #assign (residue 8 and name HN ) and assign (residue 9 and name HB2 ) 4.5334911154 1.1333727788 1.1333727788 #seq "S2 < 0.6" ; 224 38 225 36 rr_6ucj 1 334 ; assign (residue 9 and name HB2 ) 4.5334911154 1.1333727788 1.1333727788 #seq "S2 < 0.6" #assign (residue 8 and name HN ) and assign (residue 9 and name HN ) 4.1211857264 1.0302964316 1.0302964316 #seq "S2 < 0.6" ; 225 38 226 36 rr_6ucj 1 335 ; assign (residue 9 and name HN ) 4.1211857264 1.0302964316 1.0302964316 #seq "S2 < 0.6" #assign (residue 8 and name HN ) and assign ((residue 7 and name HB#) or (residue 7 and name HB*) ) 4.6448571265 1.1612142816 1.1612142816 #seq "S2 < 0.6" ; 226 38 227 36 rr_6ucj 1 336 ; assign ((residue 7 and name HB#) or (residue 7 and name HB*) ) 4.6448571265 1.1612142816 1.1612142816 #seq "S2 < 0.6" #assign (residue 9 and name HN ) and assign (residue 8 and name HN ) 3.1731387303 0.7932846826 0.7932846826 #seq "S2 < 0.6" ; 227 38 228 36 rr_6ucj 1 337 ; assign (residue 8 and name HN ) 3.1731387303 0.7932846826 0.7932846826 #seq "S2 < 0.6" #assign (residue 9 and name HN ) and assign (residue 8 and name HA ) 2.0359528258 0.5089882065 0.5089882065 #seq "S2 < 0.6" ; 228 38 229 36 rr_6ucj 1 338 ; assign (residue 8 and name HA ) 2.0359528258 0.5089882065 0.5089882065 #seq "S2 < 0.6" #assign (residue 9 and name HN ) and assign ((residue 8 and name HG#) or (residue 8 and name HG*) ) 3.5982394903 0.8995598726 0.8995598726 #seq "S2 < 0.6" ; 229 38 230 36 rr_6ucj 1 339 ; assign ((residue 8 and name HG#) or (residue 8 and name HG*) ) 3.5982394903 0.8995598726 0.8995598726 #seq "S2 < 0.6" #assign (residue 12 and name HN ) and assign (residue 13 and name HN ) 3.6458561971 0.9114640493 0.9114640493 #seq "S2 < 0.6" ; 230 38 231 37 rr_6ucj 1 340 ; assign (residue 13 and name HN ) 3.6458561971 0.9114640493 0.9114640493 #seq "S2 < 0.6" #assign (residue 12 and name HN ) and assign ((residue 11 and name HA) or (residue 12 and name HA) ) 2.0810743202 0.5202685801 0.5202685801 #seq "S2 < 0.6" ; 231 39 232 37 rr_6ucj 1 341 'assign ((residue 11 and name HA) or (residue 12 and name HA) ) 2.0810743202 0.5202685801 0.5202685801 #seq "S2 < 0.6"' 232 39 232 155 rr_6ucj 1 342 'assign (residue 13 and name HN ) and' 233 1 233 36 rr_6ucj 1 343 'assign (residue 12 and name HA ) 2.2632445541 0.5658111385 0.5658111385 #seq' 233 38 233 113 rr_6ucj 1 344 'assign (residue 13 and name HN ) and' 234 1 234 36 rr_6ucj 1 345 'assign ((residue 12 and name HB#) or (residue 12 and name HB*) ) 3.7594486344 0.9398621586 0.9398621586 #seq' 234 38 234 145 rr_6ucj 1 346 'assign (residue 13 and name HN ) and' 235 1 235 36 rr_6ucj 1 347 'assign (residue 12 and name HN ) 4.1028240782 1.0257060196 1.0257060196 #seq' 235 38 235 113 rr_6ucj 1 348 'assign (residue 14 and name HN ) and' 236 1 236 36 rr_6ucj 1 349 'assign (residue 13 and name HA ) 2.5234039692 0.6308509923 0.6308509923 #seq' 236 38 236 113 rr_6ucj 1 350 'assign (residue 14 and name HN ) and' 237 1 237 36 rr_6ucj 1 351 'assign ((residue 15 and name HG2#) or (residue 15 and name HG2*) ) 5.0713288756 1.5678322189 1.5678322189 #seq terminal methyl' 237 38 237 163 rr_6ucj 1 352 'assign (residue 14 and name HN ) and' 238 1 238 36 rr_6ucj 1 353 'assign ((residue 13 and name HB#) or (residue 13 and name HB*) ) 4.0116715655 1.0029178914 1.0029178914 #seq' 238 38 238 145 rr_6ucj 1 354 'assign (residue 14 and name HN ) and' 239 1 239 36 rr_6ucj 1 355 ; assign (residue 15 and name HN ) 3.2396000273 0.8099000068 0.8099000068 #seq #assign (residue 14 and name HN ) and assign (residue 15 and name HB ) 2.576546621 0.6441366553 0.6441366553 #seq overlap with water ; 239 38 240 37 rr_6ucj 1 356 'assign (residue 15 and name HB ) 2.576546621 0.6441366553 0.6441366553 #seq overlap with water' 240 39 240 132 rr_6ucj 1 357 'assign (residue 15 and name HN ) and' 241 1 241 36 rr_6ucj 1 358 'assign (residue 14 and name HA ) 3.2100759603 0.8025189901 0.8025189901 #seq' 241 38 241 113 rr_6ucj 1 359 'assign (residue 15 and name HN ) and' 242 1 242 36 rr_6ucj 1 360 'assign (residue 14 and name HN ) 3.1861737814 0.7965434454 0.7965434454 #seq' 242 38 242 113 rr_6ucj 1 361 'assign (residue 15 and name HN ) and' 243 1 243 36 rr_6ucj 1 362 'assign (residue 16 and name HN ) 4.855465328 1.213866332 1.213866332 #seq' 243 38 243 110 rr_6ucj 1 363 'assign (residue 15 and name HN ) and' 244 1 244 36 rr_6ucj 1 364 'assign ((residue 14 and name HB1) or (residue 14 and name HB2) ) 4.5970741559 1.149268539 1.149268539 #seq' 244 38 244 143 rr_6ucj 1 365 'assign (residue 15 and name HN ) and' 245 1 245 36 rr_6ucj 1 366 'assign ((residue 14 and name HB1) or (residue 14 and name HB2) ) 5.0812268794 1.2703067199 1.2703067199 #seq' 245 38 245 145 rr_6ucj 1 367 'assign (residue 16 and name HN ) and' 246 1 246 36 rr_6ucj 1 368 'assign ((residue 15 and name HG2#) or (residue 15 and name HG2*) ) 3.7686255761 1.242156394 1.242156394 #seq terminal methyl' 246 38 246 161 rr_6ucj 1 369 'assign (residue 16 and name HN ) and' 247 1 247 36 rr_6ucj 1 370 'assign (residue 15 and name HN ) 4.6713928031 1.1678482008 1.1678482008 #seq' 247 38 247 113 rr_6ucj 1 371 'assign (residue 16 and name HN ) and' 248 1 248 36 rr_6ucj 1 372 ; assign (residue 17 and name HN ) 3.4621806181 0.8655451545 0.8655451545 #seq #assign (residue 16 and name HN ) and assign (residue 15 and name HB ) 2.9034142801 0.72585357 0.72585357 #seq overlap with water ; 248 38 249 37 rr_6ucj 1 373 'assign (residue 15 and name HB ) 2.9034142801 0.72585357 0.72585357 #seq overlap with water' 249 39 249 129 rr_6ucj 1 374 'assign (residue 16 and name HN ) and' 250 1 250 36 rr_6ucj 1 375 'assign (residue 15 and name HA ) 2.6296831171 0.6574207793 0.6574207793 #seq' 250 38 250 113 rr_6ucj 1 376 'assign (residue 17 and name HN ) and' 251 1 251 36 rr_6ucj 1 377 'assign ((residue 18 and name HB#) or (residue 18 and name HB*) ) 4.922727939 1.2306819848 1.2306819848 #seq' 251 38 251 144 rr_6ucj 1 378 'assign (residue 17 and name HN ) and' 252 1 252 36 rr_6ucj 1 379 'assign (residue 18 and name HA ) 4.5183613636 1.1295903409 1.1295903409 #seq' 252 38 252 113 rr_6ucj 1 380 'assign (residue 17 and name HN ) and' 253 1 253 36 rr_6ucj 1 381 'assign (residue 18 and name HN ) 3.2857032099 0.8214258025 0.8214258025 #seq' 253 38 253 113 rr_6ucj 1 382 'assign (residue 17 and name HN ) and' 254 1 254 36 rr_6ucj 1 383 'assign (residue 16 and name HN ) 3.1475338277 0.7868834569 0.7868834569 #seq' 254 38 254 113 rr_6ucj 1 384 'assign (residue 17 and name HN ) and' 255 1 255 36 rr_6ucj 1 385 'assign ((residue 16 and name HB#) or (residue 16 and name HB*) ) 2.8508163097 1.0127040774 1.0127040774 #seq terminal methyl' 255 38 255 161 rr_6ucj 1 386 'assign (residue 18 and name HN ) and' 256 1 256 36 rr_6ucj 1 387 'assign (residue 19 and name HA ) 4.4440687814 1.1110171954 1.1110171954 #seq' 256 38 256 113 rr_6ucj 1 388 'assign (residue 18 and name HN ) and' 257 1 257 36 rr_6ucj 1 389 'assign (residue 17 and name HB ) 3.7053607737 0.9263401934 0.9263401934 #seq' 257 38 257 113 rr_6ucj 1 390 'assign (residue 18 and name HN ) and' 258 1 258 36 rr_6ucj 1 391 'assign ((residue 19 and name HB#) or (residue 19 and name HB*) ) 4.5479409338 1.4369852334 1.4369852334 #seq terminal methyl' 258 38 258 161 rr_6ucj 1 392 'assign (residue 18 and name HN ) and' 259 1 259 36 rr_6ucj 1 393 'assign (residue 19 and name HN ) 3.0878114505 0.7719528626 0.7719528626 #seq' 259 38 259 113 rr_6ucj 1 394 'assign (residue 18 and name HN ) and' 260 1 260 36 rr_6ucj 1 395 'assign (residue 17 and name HN ) 3.211256553 0.8028141383 0.8028141383 #seq' 260 38 260 112 rr_6ucj 1 396 'assign (residue 19 and name HN ) and' 261 1 261 36 rr_6ucj 1 397 'assign ((residue 20 and name HG2#) or (residue 20 and name HG2*) ) 4.9083074092 1.5270768523 1.5270768523 #seq terminal methyl' 261 38 261 163 rr_6ucj 1 398 'assign (residue 19 and name HN ) and' 262 1 262 36 rr_6ucj 1 399 'assign ((residue 18 and name HB#) or (residue 18 and name HB*) ) 2.9770827411 0.7442706853 0.7442706853 #seq' 262 38 262 145 rr_6ucj 1 400 'assign (residue 19 and name HN ) and' 263 1 263 36 rr_6ucj 1 401 'assign (residue 18 and name HA ) 3.4445365494 0.8611341373 0.8611341373 #seq' 263 38 263 113 rr_6ucj 1 402 'assign (residue 19 and name HN ) and' 264 1 264 36 rr_6ucj 1 403 'assign (residue 20 and name HA ) 7.058443716 1.764610929 1.764610929 #seq' 264 38 264 110 rr_6ucj 1 404 'assign (residue 19 and name HN ) and' 265 1 265 36 rr_6ucj 1 405 'assign (residue 18 and name HN ) 3.376099879 0.8440249697 0.8440249697 #seq' 265 38 265 112 rr_6ucj 1 406 'assign (residue 20 and name HN ) and' 266 1 266 36 rr_6ucj 1 407 'assign ((residue 19 and name HB#) or (residue 19 and name HB*) ) 2.9806008321 1.045150208 1.045150208 #seq terminal methyl' 266 38 266 159 rr_6ucj 1 408 'assign (residue 20 and name HN ) and' 267 1 267 36 rr_6ucj 1 409 'assign ((residue 21 and name HA) or (residue 19 and name HA) ) 3.2170972165 0.8042743041 0.8042743041 #seq' 267 38 267 143 rr_6ucj 1 410 'assign (residue 20 and name HN ) and' 268 1 268 36 rr_6ucj 1 411 'assign (residue 21 and name HN ) 3.026077359 0.7565193397 0.7565193397 #seq' 268 38 268 112 rr_6ucj 1 412 'assign (residue 21 and name HN ) and' 269 1 269 36 rr_6ucj 1 413 'assign ((residue 20 and name HG2#) or (residue 20 and name HG2*) ) 3.8650587459 1.2662646865 1.2662646865 #seq terminal methyl' 269 38 269 163 rr_6ucj 1 414 'assign (residue 21 and name HN ) and' 270 1 270 36 rr_6ucj 1 415 'assign (residue 20 and name HB ) 3.3676453128 0.8419113282 0.8419113282 #seq' 270 38 270 113 rr_6ucj 1 416 'assign (residue 21 and name HN ) and' 271 1 271 36 rr_6ucj 1 417 'assign (residue 20 and name HA ) 3.8263611128 0.9565902782 0.9565902782 #seq' 271 38 271 113 rr_6ucj 1 418 'assign (residue 21 and name HN ) and' 272 1 272 36 rr_6ucj 1 419 'assign ((residue 22 and name HD#) or (residue 22 and name HD*) or (residue 18 and name HB*)) 4.8255739354 1.2063934839 1.2063934839 #seq' 272 38 272 173 rr_6ucj 1 420 'assign (residue 21 and name HN ) and' 273 1 273 36 rr_6ucj 1 421 'assign ((residue 22 and name HG#) or (residue 22 and name HG*) ) 5.0081857587 1.2520464397 1.2520464397 #seq' 273 38 273 145 rr_6ucj 1 422 'assign (residue 21 and name HN ) and' 274 1 274 36 rr_6ucj 1 423 'assign (residue 20 and name HN ) 2.9750531792 0.7437632948 0.7437632948 #seq' 274 38 274 113 rr_6ucj 1 424 'assign (residue 21 and name HN ) and' 275 1 275 36 rr_6ucj 1 425 'assign (residue 22 and name HN ) 2.9650040781 0.7412510195 0.7412510195 #seq' 275 38 275 113 rr_6ucj 1 426 'assign (residue 22 and name HN ) and' 276 1 276 36 rr_6ucj 1 427 'assign ((residue 23 and name HA) or ( residue 22 and name HA) ) 2.9987992932 0.7496998233 0.7496998233 #seq' 276 38 276 144 rr_6ucj 1 428 'assign (residue 22 and name HN ) and' 277 1 277 36 rr_6ucj 1 429 'assign (residue 23 and name HN ) 3.0679635141 0.7669908785 0.7669908785 #seq' 277 38 277 113 rr_6ucj 1 430 'assign (residue 22 and name HN ) and' 278 1 278 36 rr_6ucj 1 431 'assign ((residue 21 and name HB1) or (residue 21 and name HB2) ) 3.6862755062 0.9215688765 0.9215688765 #seq' 278 38 278 145 rr_6ucj 1 432 'assign (residue 22 and name HN ) and' 279 1 279 36 rr_6ucj 1 433 'assign ((residue 21 and name HB1) or (residue 21 and name HB2) ) 3.7251427406 0.9312856852 0.9312856852 #seq' 279 38 279 145 rr_6ucj 1 434 'assign (residue 22 and name HN ) and' 280 1 280 36 rr_6ucj 1 435 'assign (residue 21 and name HA ) 3.3705880889 0.8426470222 0.8426470222 #seq' 280 38 280 113 rr_6ucj 1 436 'assign (residue 22 and name HN ) and' 281 1 281 36 rr_6ucj 1 437 'assign ((residue 23 and name HG) or (residue 23 and name HB*) ) 3.7688118283 0.9422029571 0.9422029571 #seq' 281 38 281 144 rr_6ucj 1 438 'assign (residue 23 and name HN ) and' 282 1 282 36 rr_6ucj 1 439 'assign ((residue 24 and name HB#) or (residue 24 and name HB*) ) 4.2488374473 1.3622093618 1.3622093618 #seq terminal methyl' 282 38 282 161 rr_6ucj 1 440 'assign (residue 23 and name HN ) and' 283 1 283 36 rr_6ucj 1 441 'assign ((residue 22 and name HB1) or (residue 22 and name HB2) ) 3.6591527298 0.9147881825 0.9147881825 #seq' 283 38 283 145 rr_6ucj 1 442 'assign (residue 23 and name HN ) and' 284 1 284 36 rr_6ucj 1 443 'assign (residue 22 and name HA ) 2.7709412858 0.6927353214 0.6927353214 #seq' 284 38 284 113 rr_6ucj 1 444 'assign (residue 23 and name HN ) and' 285 1 285 36 rr_6ucj 1 445 'assign ((residue 22 and name HB1) or (residue 22 and name HB2) ) 2.7273410746 0.6818352687 0.6818352687 #seq' 285 38 285 145 rr_6ucj 1 446 'assign (residue 23 and name HN ) and' 286 1 286 36 rr_6ucj 1 447 'assign (residue 24 and name HN ) 3.0481240019 0.7620310005 0.7620310005 #seq' 286 38 286 113 rr_6ucj 1 448 'assign (residue 23 and name HN ) and' 287 1 287 36 rr_6ucj 1 449 'assign (residue 22 and name HN ) 3.1804585693 0.7951146423 0.7951146423 #seq' 287 38 287 113 rr_6ucj 1 450 'assign (residue 24 and name HN ) and' 288 1 288 36 rr_6ucj 1 451 'assign (residue 23 and name HA ) 3.6274098041 0.906852451 0.906852451 #seq' 288 38 288 111 rr_6ucj 1 452 'assign (residue 24 and name HN ) and' 289 1 289 36 rr_6ucj 1 453 'assign (residue 23 and name HN ) 3.0191576781 0.7547894195 0.7547894195 #seq' 289 38 289 113 rr_6ucj 1 454 'assign (residue 24 and name HN ) and' 290 1 290 36 rr_6ucj 1 455 'assign (residue 25 and name HN ) 2.6694092155 0.6673523039 0.6673523039 #seq' 290 38 290 113 rr_6ucj 1 456 'assign (residue 24 and name HN ) and' 291 1 291 36 rr_6ucj 1 457 'assign ((residue 23 and name HG ) or (residue 23 and name HB# ) or (residue 23 and name HB*)) 3.0845656907 0.7711414227 0.7711414227 #seq' 291 38 291 174 rr_6ucj 1 458 'assign (residue 25 and name HN ) and' 292 1 292 36 rr_6ucj 1 459 'assign (residue 26 and name HN ) 2.9079780016 0.7269945004 0.7269945004 #seq' 292 38 292 113 rr_6ucj 1 460 'assign (residue 25 and name HN ) and' 293 1 293 36 rr_6ucj 1 461 'assign ((residue 24 and name HB#) or (residue 24 and name HB*) ) 2.6877117539 0.9719279385 0.9719279385 #seq terminal methyl' 293 38 293 161 rr_6ucj 1 462 'assign (residue 25 and name HN ) and' 294 1 294 36 rr_6ucj 1 463 'assign (residue 24 and name HA ) 3.5165569142 0.8791392286 0.8791392286 #seq' 294 38 294 113 rr_6ucj 1 464 'assign (residue 25 and name HN ) and' 295 1 295 36 rr_6ucj 1 465 'assign (residue 24 and name HN ) 2.866154182 0.7165385455 0.7165385455 #seq' 295 38 295 112 rr_6ucj 1 466 'assign (residue 26 and name HN ) and' 296 1 296 36 rr_6ucj 1 467 'assign (residue 25 and name HN ) 2.8850485382 0.7212621345 0.7212621345 #seq' 296 38 296 113 rr_6ucj 1 468 'assign (residue 26 and name HN ) and' 297 1 297 36 rr_6ucj 1 469 'assign (residue 27 and name HN ) 2.9798217327 0.7449554332 0.7449554332 #seq' 297 38 297 113 rr_6ucj 1 470 'assign (residue 26 and name HN ) and' 298 1 298 36 rr_6ucj 1 471 'assign ((residue 25 and name HB1) or (residue 25 and name HB2) ) 3.3835152418 0.8458788105 0.8458788105 #seq' 298 38 298 145 rr_6ucj 1 472 'assign (residue 26 and name HN ) and' 299 1 299 36 rr_6ucj 1 473 'assign ((residue 27 and name HD#) or (residue 27 and name HD*) ) 4.4760279566 1.4190069892 1.4190069892 #seq terminal methyl' 299 38 299 161 rr_6ucj 1 474 'assign (residue 26 and name HN ) and' 300 1 300 36 rr_6ucj 1 475 'assign ((residue 27 and name HB1) or (residue 27 and name HB2) ) 4.4046629626 1.1011657407 1.1011657407 #seq' 300 38 300 145 rr_6ucj 1 476 'assign (residue 26 and name HN ) and' 301 1 301 36 rr_6ucj 1 477 'assign ((residue 25 and name HB1) or (residue 25 and name HB2) ) 3.370820143 0.8427050357 0.8427050357 #seq' 301 38 301 144 rr_6ucj 1 478 'assign (residue 26 and name HN ) and' 302 1 302 36 rr_6ucj 1 479 'assign (residue 25 and name HA ) 2.8682892033 0.7170723008 0.7170723008 #seq' 302 38 302 113 rr_6ucj 1 480 'assign (residue 26 and name HN ) and' 303 1 303 36 rr_6ucj 1 481 'assign ((residue 27 and name HB1) or (residue 27 and name HB2) ) 4.3666364917 1.0916591229 1.0916591229 #seq' 303 38 303 145 rr_6ucj 1 482 'assign (residue 27 and name HN ) and' 304 1 304 36 rr_6ucj 1 483 'assign (residue 28 and name HN ) 3.3976954158 0.849423854 0.849423854 #seq' 304 38 304 111 rr_6ucj 1 484 'assign (residue 27 and name HN ) and' 305 1 305 36 rr_6ucj 1 485 'assign (residue 26 and name HN ) 3.3010805844 0.8252701461 0.8252701461 #seq' 305 38 305 113 rr_6ucj 1 486 'assign (residue 27 and name HN ) and' 306 1 306 36 rr_6ucj 1 487 'assign (residue 26 and name HA ) 3.8015058793 0.9503764698 0.9503764698 #seq' 306 38 306 113 rr_6ucj 1 488 'assign (residue 27 and name HN ) and' 307 1 307 36 rr_6ucj 1 489 'assign ((residue 28 and name HG1#) or (residue 28 and name HG1*) or (residue 27 and name HD*) ) 4.0022229918 1.4005557479 1.4005557479 #seq terminal methyl & linear combination' 307 38 307 213 rr_6ucj 1 490 'assign (residue 27 and name HN ) and' 308 1 308 36 rr_6ucj 1 491 'assign ((residue 26 and name HB1) or (residue 26 and name HB2) ) 3.6168142273 0.9042035568 0.9042035568 #seq' 308 38 308 145 rr_6ucj 1 492 'assign (residue 27 and name HN ) and' 309 1 309 36 rr_6ucj 1 493 'assign (residue 28 and name HA ) 4.5226860811 1.1306715203 1.1306715203 #seq' 309 38 309 113 rr_6ucj 1 494 'assign (residue 27 and name HN ) and' 310 1 310 36 rr_6ucj 1 495 'assign ((residue 26 and name HB1) or (residue 26 and name HB2) ) 3.9811063026 0.9952765757 0.9952765757 #seq' 310 38 310 145 rr_6ucj 1 496 'assign (residue 27 and name HN ) and' 311 1 311 36 rr_6ucj 1 497 'assign ((residue 26 and name HD#) or (residue 26 and name HD*) ) 4.2106206729 1.0526551682 1.0526551682 #seq' 311 38 311 145 rr_6ucj 1 498 'assign (residue 28 and name HN ) and' 312 1 312 36 rr_6ucj 1 499 'assign (residue 29 and name HN ) 2.9944458225 0.7486114556 0.7486114556 #seq' 312 38 312 113 rr_6ucj 1 500 'assign (residue 28 and name HN ) and' 313 1 313 36 rr_6ucj 1 501 'assign (residue 27 and name HN ) 3.3301499417 0.8325374854 0.8325374854 #seq' 313 38 313 113 rr_6ucj 1 502 'assign (residue 28 and name HN ) and' 314 1 314 36 rr_6ucj 1 503 'assign (residue 27 and name HA ) 3.8961083769 0.9740270942 0.9740270942 #seq' 314 38 314 113 rr_6ucj 1 504 'assign (residue 28 and name HN ) and' 315 1 315 36 rr_6ucj 1 505 'assign (residue 27 and name HG ) 3.7102070746 0.9275517687 0.9275517687 #seq' 315 38 315 113 rr_6ucj 1 506 'assign (residue 28 and name HN ) and' 316 1 316 36 rr_6ucj 1 507 'assign ((residue 27 and name HD#) or (residue 27 and name HD*) ) 3.9006667895 1.2751666974 1.2751666974 #seq terminal methyl' 316 38 316 161 rr_6ucj 1 508 'assign (residue 28 and name HN ) and' 317 1 317 36 rr_6ucj 1 509 ; assign ((residue 27 and name HB1) or (residue 27 and name HB2) ) 3.5419553396 0.8854888349 0.8854888349 #seq #assign (residue 28 and name HN ) and assign (residue 29 and name HA ) 4.7627008447 1.1906752112 1.1906752112 #seq same chemical shift as water ; 317 38 318 37 rr_6ucj 1 510 'assign (residue 29 and name HA ) 4.7627008447 1.1906752112 1.1906752112 #seq same chemical shift as water' 318 39 318 143 rr_6ucj 1 511 'assign (residue 29 and name HN ) and' 319 1 319 36 rr_6ucj 1 512 'assign (residue 28 and name HN ) 2.9570724356 0.7392681089 0.7392681089 #seq' 319 38 319 113 rr_6ucj 1 513 'assign (residue 29 and name HN ) and' 320 1 320 36 rr_6ucj 1 514 'assign ((residue 28 and name HG1#) or (residue 28 and name HG2#) ) 3.8911214688 1.2727803672 1.2727803672 #seq terminal methyl' 320 38 320 163 rr_6ucj 1 515 'assign (residue 29 and name HN ) and' 321 1 321 36 rr_6ucj 1 516 'assign ((residue 28 and name HG1#) or (residue 28 and name HG2#) ) 3.8075982533 1.2518995633 1.2518995633 #seq terminal methyl' 321 38 321 163 rr_6ucj 1 517 'assign (residue 29 and name HN ) and' 322 1 322 36 rr_6ucj 1 518 'assign (residue 28 and name HB ) 3.318725549 0.8296813873 0.8296813873 #seq' 322 38 322 112 rr_6ucj 1 519 'assign (residue 29 and name HN ) and' 323 1 323 36 rr_6ucj 1 520 'assign (residue 28 and name HA ) 3.2937097101 0.8234274275 0.8234274275 #seq' 323 38 323 113 rr_6ucj 1 521 'assign (residue 30 and name HN ) and' 324 1 324 36 rr_6ucj 1 522 'assign ((residue 29 and name HB1) or (residue 29 and name HB2) ) 3.6733982362 0.918349559 0.918349559 #seq' 324 38 324 143 rr_6ucj 1 523 'assign (residue 30 and name HN ) and' 325 1 325 36 rr_6ucj 1 524 'assign (residue 31 and name HN ) 2.9229952385 0.7307488096 0.7307488096 #seq' 325 38 325 113 rr_6ucj 1 525 'assign (residue 30 and name HN ) and' 326 1 326 36 rr_6ucj 1 526 'assign (residue 29 and name HA ) 2.5699646168 0.6424911542 0.6424911542 #seq' 326 38 326 113 rr_6ucj 1 527 'assign (residue 30 and name HN ) and' 327 1 327 36 rr_6ucj 1 528 'assign ((residue 29 and name HB1) or (residue 29 and name HB2) ) 3.5285388695 0.8821347174 0.8821347174 #seq' 327 38 327 145 rr_6ucj 1 529 'assign (residue 31 and name HN ) and' 328 1 328 36 rr_6ucj 1 530 'assign (residue 32 and name HN ) 2.8026282551 0.7006570638 0.7006570638 #seq' 328 38 328 113 rr_6ucj 1 531 'assign (residue 31 and name HN ) and' 329 1 329 36 rr_6ucj 1 532 'assign ((residue 30 and name HB#) or (residue 30 and name HB*) ) 3.1272350569 0.7818087642 0.7818087642 #seq' 329 38 329 145 rr_6ucj 1 533 'assign (residue 31 and name HN ) and' 330 1 330 36 rr_6ucj 1 534 'assign (residue 30 and name HA ) 2.4943650869 0.9235912717 0.9235912717 #seq HN overlap with S40 HN, increased error window 0.3A' 330 38 330 165 rr_6ucj 1 535 'assign (residue 31 and name HN ) and' 331 1 331 36 rr_6ucj 1 536 'assign ((residue 32 and name HB#) or (residue 32 and name HB*) ) 5.0882303855 1.2720575964 1.2720575964 #seq' 331 38 331 145 rr_6ucj 1 537 'assign (residue 31 and name HN ) and' 332 1 332 36 rr_6ucj 1 538 'assign (residue 30 and name HN ) 2.527215514 0.6318038785 0.6318038785 #seq' 332 38 332 112 rr_6ucj 1 539 'assign (residue 32 and name HN ) and' 333 1 333 36 rr_6ucj 1 540 'assign ((residue 31 and name HB#) or (residue 31 and name HB*) ) 3.4561273854 0.8640318463 0.8640318463 #seq' 333 38 333 145 rr_6ucj 1 541 'assign (residue 32 and name HN ) and' 334 1 334 36 rr_6ucj 1 542 'assign (residue 31 and name HN ) 3.0172673404 0.7543168351 0.7543168351 #seq' 334 38 334 113 rr_6ucj 1 543 'assign (residue 32 and name HN ) and' 335 1 335 36 rr_6ucj 1 544 'assign ((residue 33 and name HB#) or (residue 33 and name HB*) ) 5.7063760998 1.4265940249 1.4265940249 #seq' 335 38 335 145 rr_6ucj 1 545 'assign (residue 32 and name HN ) and' 336 1 336 36 rr_6ucj 1 546 'assign (residue 31 and name HA ) 2.5892169852 0.6473042463 0.6473042463 #seq' 336 38 336 113 rr_6ucj 1 547 'assign (residue 33 and name HN ) and' 337 1 337 36 rr_6ucj 1 548 'assign ((residue 34 and name HB#) or (residue 34 and name HB*) ) 4.3221828678 1.0805457169 1.0805457169 #seq' 337 38 337 145 rr_6ucj 1 549 'assign (residue 33 and name HN ) and' 338 1 338 36 rr_6ucj 1 550 'assign ((residue 32 and name HB#) or (residue 32 and name HB*) ) 2.3166565697 0.5791641424 0.5791641424 #seq' 338 38 338 145 rr_6ucj 1 551 'assign (residue 33 and name HN ) and' 339 1 339 36 rr_6ucj 1 552 'assign (residue 32 and name HA ) 2.4519276596 0.6129819149 0.6129819149 #seq' 339 38 339 113 rr_6ucj 1 553 'assign (residue 34 and name HN ) and' 340 1 340 36 rr_6ucj 1 554 'assign (residue 33 and name HA ) 2.4272151842 0.6068037961 0.6068037961 #seq' 340 38 340 113 rr_6ucj 1 555 'assign (residue 34 and name HN ) and' 341 1 341 36 rr_6ucj 1 556 'assign ((residue 35 and name HA1) or (residue 35 and name HA2) ) 4.4620894621 1.1155223655 1.1155223655 #seq' 341 38 341 145 rr_6ucj 1 557 'assign (residue 34 and name HN ) and' 342 1 342 36 rr_6ucj 1 558 'assign ((residue 33 and name HB#) or (residue 33 and name HB*) ) 3.7829756087 0.9457439022 0.9457439022 #seq' 342 38 342 145 rr_6ucj 1 559 'assign (residue 34 and name HN ) and' 343 1 343 36 rr_6ucj 1 560 'assign (residue 35 and name HN ) 2.649124478 0.6622811195 0.6622811195 #seq' 343 38 343 112 rr_6ucj 1 561 'assign (residue 35 and name HN ) and' 344 1 344 36 rr_6ucj 1 562 'assign ((residue 34 and name HB#) or (residue 34 and name HB*) ) 2.9312656288 0.7328164072 0.7328164072 #seq' 344 38 344 145 rr_6ucj 1 563 'assign (residue 35 and name HN ) and' 345 1 345 36 rr_6ucj 1 564 'assign ((residue 36 and name HB#) or (residue 36 and name HB*) ) 4.9071752486 1.5267938121 1.5267938121 #seq terminal methyl' 345 38 345 161 rr_6ucj 1 565 'assign (residue 35 and name HN ) and' 346 1 346 36 rr_6ucj 1 566 'assign (residue 36 and name HN ) 2.8401551045 0.7100387761 0.7100387761 #seq' 346 38 346 113 rr_6ucj 1 567 'assign (residue 35 and name HN ) and' 347 1 347 36 rr_6ucj 1 568 'assign (residue 34 and name HN ) 2.943899863 0.7359749658 0.7359749658 #seq' 347 38 347 112 rr_6ucj 1 569 'assign (residue 35 and name HN ) and' 348 1 348 36 rr_6ucj 1 570 'assign (residue 34 and name HA ) 3.1852294607 0.7963073652 0.7963073652 #seq' 348 38 348 113 rr_6ucj 1 571 'assign (residue 35 and name HN ) and' 349 1 349 36 rr_6ucj 1 572 'assign ((residue 34 and name HD#) or (residue 34 and name HD*) ) 4.8231857554 1.2057964388 1.2057964388 #seq' 349 38 349 145 rr_6ucj 1 573 'assign (residue 36 and name HN ) and' 350 1 350 36 rr_6ucj 1 574 'assign ((residue 37 and name HG2#) or (residue 37 and name HG2*) ) 4.6011307713 1.4502826928 1.4502826928 #seq terminal methyl' 350 38 350 163 rr_6ucj 1 575 'assign (residue 36 and name HN ) and' 351 1 351 36 rr_6ucj 1 576 'assign (residue 37 and name HG1* ) 4.4750239644 1.1187559911 1.1187559911 #seq' 351 38 351 115 rr_6ucj 1 577 'assign (residue 36 and name HN ) and' 352 1 352 36 rr_6ucj 1 578 'assign (residue 37 and name HB ) 4.7499564218 1.1874891054 1.1874891054 #seq' 352 38 352 113 rr_6ucj 1 579 'assign (residue 36 and name HN ) and' 353 1 353 36 rr_6ucj 1 580 'assign ((residue 35 and name HA1) or (residue 35 and name HA2) ) 2.903877595 0.7259693987 0.7259693987 #seq' 353 38 353 144 rr_6ucj 1 581 'assign (residue 36 and name HN ) and' 354 1 354 36 rr_6ucj 1 582 'assign (residue 37 and name HN ) 2.3026159259 0.5756539815 0.5756539815 #seq' 354 38 354 113 rr_6ucj 1 583 'assign (residue 36 and name HN ) and' 355 1 355 36 rr_6ucj 1 584 'assign ((residue 37 and name HD1#) or (residue 37 and name HD1*) ) 4.3739044083 1.3934761021 1.3934761021 #seq terminal methyl' 355 38 355 163 rr_6ucj 1 585 'assign (residue 36 and name HN ) and' 356 1 356 36 rr_6ucj 1 586 'assign (residue 37 and name HG1* ) 4.7782400279 1.194560007 1.194560007 #seq' 356 38 356 113 rr_6ucj 1 587 'assign (residue 36 and name HN ) and' 357 1 357 36 rr_6ucj 1 588 'assign (residue 35 and name HN ) 2.6672366492 0.6668091623 0.6668091623 #seq' 357 38 357 113 rr_6ucj 1 589 'assign (residue 36 and name HN ) and' 358 1 358 36 rr_6ucj 1 590 'assign ((residue 35 and name HA1) or (residue 35 and name HA2) ) 3.1127852364 0.7781963091 0.7781963091 #seq' 358 38 358 145 rr_6ucj 1 591 'assign (residue 37 and name HN ) and' 359 1 359 36 rr_6ucj 1 592 'assign ( (residue 38 and name HG) or (residue 38 and name HB*) or (residue 37 and name HG1*) ) 3.6537894164 0.9134473541 0.9134473541 #seq' 359 38 359 175 rr_6ucj 1 593 'assign (residue 37 and name HN ) and' 360 1 360 36 rr_6ucj 1 594 'assign ((residue 36 and name HB#) or (residue 36 and name HB*) ) 2.7000159489 0.6750039872 0.6750039872 #seq' 360 38 360 145 rr_6ucj 1 595 'assign (residue 37 and name HN ) and' 361 1 361 36 rr_6ucj 1 596 'assign (residue 36 and name HN ) 2.150160429 0.5375401073 0.5375401073 #seq' 361 38 361 112 rr_6ucj 1 597 'assign (residue 37 and name HN ) and' 362 1 362 36 rr_6ucj 1 598 'assign ((residue 38 and name HB#) or (residue 38 and name HB*) ) 3.6563167186 0.9140791796 0.9140791796 #seq' 362 38 362 145 rr_6ucj 1 599 'assign (residue 37 and name HN ) and' 363 1 363 36 rr_6ucj 1 600 'assign (residue 36 and name HA ) 2.8808687432 0.7202171858 0.7202171858 #seq' 363 38 363 113 rr_6ucj 1 601 'assign (residue 37 and name HN ) and' 364 1 364 36 rr_6ucj 1 602 'assign (residue 38 and name HN ) 2.3015428619 0.5753857155 0.5753857155 #seq' 364 38 364 113 rr_6ucj 1 603 'assign (residue 38 and name HN ) and' 365 1 365 36 rr_6ucj 1 604 'assign ((residue 37 and name HG1*) or ( residue 38 and name HG) or (reside 38 and name HB*) ) 2.5330702449 0.8332675612 0.8332675612 #seq linear combination' 365 38 365 193 rr_6ucj 1 605 'assign (residue 38 and name HN ) and' 366 1 366 36 rr_6ucj 1 606 'assign (residue 37 and name HB ) 2.8122551918 0.703063798 0.703063798 #seq' 366 38 366 111 rr_6ucj 1 607 'assign (residue 38 and name HN ) and' 367 1 367 36 rr_6ucj 1 608 'assign (residue 37 and name HN ) 2.5748433746 0.6437108437 0.6437108437 #seq' 367 38 367 113 rr_6ucj 1 609 'assign (residue 38 and name HN ) and' 368 1 368 36 rr_6ucj 1 610 'assign ((residue 37 and name HD1#) or (residue 37 and name HD1*) or (residue 37 and name HG2#) or (residue 37 and name HG2*) or (residue 38 and name HD#) or (residue 38 and name HD*) ) 2.964331214 1.1410828035 1.1410828035 #seq terminal methyl & linear combination' 368 38 368 301 rr_6ucj 1 611 'assign (residue 38 and name HN ) and' 369 1 369 36 rr_6ucj 1 612 'assign (residue 37 and name HG1* ) 4.6296668434 1.1574167109 1.1574167109 #seq' 369 38 369 115 rr_6ucj 1 613 'assign (residue 38 and name HN ) and' 370 1 370 36 rr_6ucj 1 614 'assign (residue 37 and name HA ) 3.148165538 0.7870413845 0.7870413845 #seq' 370 38 370 112 rr_6ucj 1 615 'assign (residue 38 and name HN ) and' 371 1 371 36 rr_6ucj 1 616 'assign (residue 39 and name HA ) 4.1194299722 1.0298574931 1.0298574931 #seq' 371 38 371 113 rr_6ucj 1 617 'assign (residue 39 and name HN ) and' 372 1 372 36 rr_6ucj 1 618 'assign ((residue 38 and name HG) or (residue 38 and name HB*) or (residue 37 and name HG1*) ) 3.2822879927 1.0205719982 1.0205719982 #seq linear combination' 372 38 372 193 rr_6ucj 1 619 'assign (residue 39 and name HN ) and' 373 1 373 36 rr_6ucj 1 620 'assign ((residue 38 and name HB#) or (residue 38 and name HB*) ) 3.2797860195 0.8199465049 0.8199465049 #seq' 373 38 373 145 rr_6ucj 1 621 'assign (residue 39 and name HN ) and' 374 1 374 36 rr_6ucj 1 622 'assign (residue 38 and name HA ) 2.6874109833 0.6718527458 0.6718527458 #seq' 374 38 374 113 rr_6ucj 1 623 'assign (residue 39 and name HN ) and' 375 1 375 36 rr_6ucj 1 624 ; assign ((residue 40 and name HB#) or (residue 40 and name HB*) or (residue 39 and name HB*) ) 2.641361723 0.6603404307 0.6603404307 #seq #assign (residue 39 and name HN ) and assign (residue 40 and name HN ) 2.4955954634 0.6238988658 0.6238988658 #seq ; 375 38 376 37 rr_6ucj 1 625 'assign (residue 40 and name HN ) 2.4955954634 0.6238988658 0.6238988658 #seq' 376 39 376 114 rr_6ucj 1 626 'assign (residue 39 and name HN ) and' 377 1 377 36 rr_6ucj 1 627 ; assign (residue 40 and name HA ) 5.0000343897 1.2500085974 1.2500085974 #seq #assign (residue 40 and name HN ) and assign (residue 41 and name HA ) 3.9031693357 0.9757923339 0.9757923339 #seq "S2 < 0.6" ; 377 38 378 37 rr_6ucj 1 628 ; assign (residue 41 and name HA ) 3.9031693357 0.9757923339 0.9757923339 #seq "S2 < 0.6" #assign (residue 40 and name HN ) and assign ((residue 41 and name HG2#) or (residue 41 and name HG2*) ) 4.533974234 1.1334935585 1.1334935585 #seq "S2 < 0.6" ; 378 39 379 37 rr_6ucj 1 629 ; assign ((residue 41 and name HG2#) or (residue 41 and name HG2*) ) 4.533974234 1.1334935585 1.1334935585 #seq "S2 < 0.6" #assign (residue 40 and name HN ) and assign (residue 41 and name HN ) 2.402591741 0.6006479353 0.6006479353 #seq "S2 < 0.6" ; 379 39 380 37 rr_6ucj 1 630 ; assign (residue 41 and name HN ) 2.402591741 0.6006479353 0.6006479353 #seq "S2 < 0.6" #assign (residue 40 and name HN ) and assign (residue 39 and name HA ) 2.4307678294 0.6076919574 0.6076919574 #seq "S2 < 0.6" ; 380 39 381 37 rr_6ucj 1 631 ; assign (residue 39 and name HA ) 2.4307678294 0.6076919574 0.6076919574 #seq "S2 < 0.6" #assign (residue 41 and name HN ) and assign ((residue 40 and name HB#) or (residue 40 and name HB*) or (residue 39 and name HB*) ) 3.4775203638 0.8693800909 0.8693800909 #seq "S2 < 0.6" ; 381 39 382 37 rr_6ucj 1 632 ; assign ((residue 40 and name HB#) or (residue 40 and name HB*) or (residue 39 and name HB*) ) 3.4775203638 0.8693800909 0.8693800909 #seq "S2 < 0.6" #assign (residue 41 and name HN ) and assign (residue 40 and name HN ) 2.514006705 0.6285016763 0.6285016763 #seq "S2 < 0.6" ; 382 39 383 37 rr_6ucj 1 633 ; assign (residue 40 and name HN ) 2.514006705 0.6285016763 0.6285016763 #seq "S2 < 0.6" #assign (residue 41 and name HN ) and assign (residue 42 and name HA ) 4.1440879916 1.0360219979 1.0360219979 #seq "S2 < 0.6" ; 383 39 384 37 rr_6ucj 1 634 ; assign (residue 42 and name HA ) 4.1440879916 1.0360219979 1.0360219979 #seq "S2 < 0.6" #assign (residue 41 and name HN ) and assign (residue 40 and name HA ) 2.5305817263 0.6326454316 0.6326454316 #seq "S2 < 0.6" ; 384 39 385 37 rr_6ucj 1 635 ; assign (residue 40 and name HA ) 2.5305817263 0.6326454316 0.6326454316 #seq "S2 < 0.6" #assign (residue 42 and name HN ) and assign (residue 41 and name HA ) 2.7096922422 0.6774230606 0.6774230606 #seq "S2 < 0.6" ; 385 39 386 37 rr_6ucj 1 636 ; assign (residue 41 and name HA ) 2.7096922422 0.6774230606 0.6774230606 #seq "S2 < 0.6" #assign (residue 42 and name HN ) and assign ((residue 43 and name HG#) or (residue 43 and name HG*) ) 4.1989504349 1.0497376087 1.0497376087 #seq "S2 < 0.6" ; 386 39 387 37 rr_6ucj 1 637 ; assign ((residue 43 and name HG#) or (residue 43 and name HG*) ) 4.1989504349 1.0497376087 1.0497376087 #seq "S2 < 0.6" #assign (residue 42 and name HN ) and assign (residue 43 and name HA ) 4.6290626913 1.1572656728 1.1572656728 #seq "S2 < 0.6" ; 387 39 388 37 rr_6ucj 1 638 ; assign (residue 43 and name HA ) 4.6290626913 1.1572656728 1.1572656728 #seq "S2 < 0.6" #assign (residue 42 and name HN ) and assign ((residue 41 and name HG2#) or (residue 41 and name HG2*) ) 3.2835801252 0.8208950313 0.8208950313 #seq "S2 < 0.6" ; 388 39 389 37 rr_6ucj 1 639 ; assign ((residue 41 and name HG2#) or (residue 41 and name HG2*) ) 3.2835801252 0.8208950313 0.8208950313 #seq "S2 < 0.6" #assign (residue 42 and name HN ) and assign (residue 41 and name HN ) 2.9225708419 0.7306427105 0.7306427105 #seq "S2 < 0.6" ; 389 39 390 37 rr_6ucj 1 640 ; assign (residue 41 and name HN ) 2.9225708419 0.7306427105 0.7306427105 #seq "S2 < 0.6" #assign (residue 42 and name HN ) and assign ((residue 41 and name HB) or (residue 39 and name HA) or (residue 45 and name HA) ) 2.1528211261 0.5382052815 0.5382052815 #seq "S2 < 0.6" ; 390 39 391 37 rr_6ucj 1 641 ; assign ((residue 41 and name HB) or (residue 39 and name HA) or (residue 45 and name HA) ) 2.1528211261 0.5382052815 0.5382052815 #seq "S2 < 0.6" #assign (residue 43 and name HN ) and assign (residue 42 and name HD22 ) 4.5227676907 1.1306919227 1.1306919227 #seq "S2 < 0.6" ; 391 39 392 37 rr_6ucj 1 642 ; assign (residue 42 and name HD22 ) 4.5227676907 1.1306919227 1.1306919227 #seq "S2 < 0.6" #assign (residue 43 and name HN ) and assign ((residue 44 and name HN ) or (residue 42 and name HN )) 2.3775436494 0.5943859124 0.5943859124 #seq "S2 < 0.6" ; 392 39 393 37 rr_6ucj 1 643 ; assign ((residue 44 and name HN ) or (residue 42 and name HN )) 2.3775436494 0.5943859124 0.5943859124 #seq "S2 < 0.6" #assign (residue 43 and name HN ) and assign ((residue 44 and name HA1) or (residue 40 and name HB*) or (residue 45 and name HB1) ) 4.4101679376 1.1025419844 1.1025419844 #seq "S2 < 0.6" ; 393 39 394 37 rr_6ucj 1 644 ; assign ((residue 44 and name HA1) or (residue 40 and name HB*) or (residue 45 and name HB1) ) 4.4101679376 1.1025419844 1.1025419844 #seq "S2 < 0.6" #assign (residue 43 and name HN ) and assign (residue 42 and name HB2 ) 3.5954144402 0.8988536101 0.8988536101 #seq "S2 < 0.6" ; 394 39 395 37 rr_6ucj 1 645 ; assign (residue 42 and name HB2 ) 3.5954144402 0.8988536101 0.8988536101 #seq "S2 < 0.6" #assign (residue 43 and name HN ) and assign (residue 42 and name HB1 ) 3.7780436233 0.9445109058 0.9445109058 #seq "S2 < 0.6" ; 395 39 396 37 rr_6ucj 1 646 ; assign (residue 42 and name HB1 ) 3.7780436233 0.9445109058 0.9445109058 #seq "S2 < 0.6" #assign (residue 43 and name HN ) and assign ((residue 42 and name HA) or (residue 46 and name HA) ) 2.1664043094 0.5416010773 0.5416010773 #seq "S2 < 0.6" ; 396 39 397 37 rr_6ucj 1 647 ; assign ((residue 42 and name HA) or (residue 46 and name HA) ) 2.1664043094 0.5416010773 0.5416010773 #seq "S2 < 0.6" #assign (residue 44 and name HN ) and assign ((residue 45 and name HB1) or ( residue 44 and name HA1 ) ) 1.9962277811 0.4990569453 0.4990569453 #seq "S2 < 0.6" ; 397 39 398 37 rr_6ucj 1 648 ; assign ((residue 45 and name HB1) or ( residue 44 and name HA1 ) ) 1.9962277811 0.4990569453 0.4990569453 #seq "S2 < 0.6" #assign (residue 44 and name HN ) and assign ((residue 43 and name HG#) or (residue 43 and name HG*) ) 2.8299041275 0.7074760319 0.7074760319 #seq "S2 < 0.6" ; 398 39 399 37 rr_6ucj 1 649 ; assign ((residue 43 and name HG#) or (residue 43 and name HG*) ) 2.8299041275 0.7074760319 0.7074760319 #seq "S2 < 0.6" #assign (residue 44 and name HN ) and assign (residue 43 and name HB ) 3.2137384041 0.803434601 0.803434601 #seq "S2 < 0.6" ; 399 39 400 37 rr_6ucj 1 650 ; assign (residue 43 and name HB ) 3.2137384041 0.803434601 0.803434601 #seq "S2 < 0.6" #assign (residue 44 and name HN ) and assign (residue 45 and name HA ) 5.0386708748 1.2596677187 1.2596677187 #seq "S2 < 0.6" ; 400 39 401 37 rr_6ucj 1 651 ; assign (residue 45 and name HA ) 5.0386708748 1.2596677187 1.2596677187 #seq "S2 < 0.6" #assign (residue 44 and name HN ) and assign ((residue 43 and name HA) or (residue 47 and name HA) ) 2.0689690417 0.5172422604 0.5172422604 #seq "S2 < 0.6" ; 401 39 402 37 rr_6ucj 1 652 ; assign ((residue 43 and name HA) or (residue 47 and name HA) ) 2.0689690417 0.5172422604 0.5172422604 #seq "S2 < 0.6" #assign (residue 44 and name HN ) and assign ((residue 45 and name HB2) or ( residue 44 and name HA3 ) ) 4.4926465916 1.1231616479 1.1231616479 #seq "S2 < 0.6" ; 402 39 403 37 rr_6ucj 1 653 ; assign ((residue 45 and name HB2) or ( residue 44 and name HA3 ) ) 4.4926465916 1.1231616479 1.1231616479 #seq "S2 < 0.6" #assign (residue 44 and name HN ) and assign (residue 43 and name HN ) 2.829265637 0.7073164092 0.7073164092 #seq "S2 < 0.6" ; 403 39 404 37 rr_6ucj 1 654 ; assign (residue 43 and name HN ) 2.829265637 0.7073164092 0.7073164092 #seq "S2 < 0.6" #assign (residue 44 and name HN ) and assign (residue 45 and name HN ) 2.9313943846 0.7328485962 0.7328485962 #seq "S2 < 0.6" ; 404 39 405 37 rr_6ucj 1 655 ; assign (residue 45 and name HN ) 2.9313943846 0.7328485962 0.7328485962 #seq "S2 < 0.6" #assign (residue 45 and name HN ) and assign ((residue 44 and name HA1) or (residue 45 and name HB1) ) 2.0565888326 0.5141472081 0.5141472081 #seq "S2 < 0.6" ; 405 39 406 37 rr_6ucj 1 656 ; assign ((residue 44 and name HA1) or (residue 45 and name HB1) ) 2.0565888326 0.5141472081 0.5141472081 #seq "S2 < 0.6" #assign (residue 45 and name HN ) and assign ((residue 46 and name HB#) or (residue 46 and name HB*) ) 4.7571579033 1.1892894758 1.1892894758 #seq "S2 < 0.6" ; 406 39 407 37 rr_6ucj 1 657 ; assign ((residue 46 and name HB#) or (residue 46 and name HB*) ) 4.7571579033 1.1892894758 1.1892894758 #seq "S2 < 0.6" #assign (residue 45 and name HN ) and assign ((residue 44 and name HA2) or (residue 45 and name HB2) ) 2.4126325526 0.6031581381 0.6031581381 #seq "S2 < 0.6" ; 407 39 408 37 rr_6ucj 1 658 ; assign ((residue 44 and name HA2) or (residue 45 and name HB2) ) 2.4126325526 0.6031581381 0.6031581381 #seq "S2 < 0.6" #assign (residue 45 and name HN ) and assign ((residue 46 and name HN) or (residue 44 and name HN) ) 2.2492149008 0.5623037252 0.5623037252 #seq "S2 < 0.6" ; 408 39 409 37 rr_6ucj 1 659 ; assign ((residue 46 and name HN) or (residue 44 and name HN) ) 2.2492149008 0.5623037252 0.5623037252 #seq "S2 < 0.6" #assign (residue 46 and name HN ) and assign (residue 45 and name HB1 ) 3.9206136604 0.9801534151 0.9801534151 #seq "S2 < 0.6" ; 409 39 410 37 rr_6ucj 1 660 ; assign (residue 45 and name HB1 ) 3.9206136604 0.9801534151 0.9801534151 #seq "S2 < 0.6" #assign (residue 46 and name HN ) and assign ((residue 47 and name HG2#) or (residue 47 and name HG2*) ) 4.9898329152 1.2474582288 1.2474582288 #seq "S2 < 0.6" ; 410 39 411 37 rr_6ucj 1 661 ; assign ((residue 47 and name HG2#) or (residue 47 and name HG2*) ) 4.9898329152 1.2474582288 1.2474582288 #seq "S2 < 0.6" #assign (residue 46 and name HN ) and assign (residue 45 and name HA ) 2.2386069284 0.5596517321 0.5596517321 #seq "S2 < 0.6" ; 411 39 412 37 rr_6ucj 1 662 ; assign (residue 45 and name HA ) 2.2386069284 0.5596517321 0.5596517321 #seq "S2 < 0.6" #assign (residue 46 and name HN ) and assign (residue 45 and name HB2 ) 3.3637478884 0.8409369721 0.8409369721 #seq "S2 < 0.6" ; 412 39 413 37 rr_6ucj 1 663 ; assign (residue 45 and name HB2 ) 3.3637478884 0.8409369721 0.8409369721 #seq "S2 < 0.6" #assign (residue 46 and name HN ) and assign ((residue 45 and name HN) or (residue 48 and name HN) ) 2.7157394392 0.6789348598 0.6789348598 #seq "S2 < 0.6" ; 413 39 414 37 rr_6ucj 1 664 ; assign ((residue 45 and name HN) or (residue 48 and name HN) ) 2.7157394392 0.6789348598 0.6789348598 #seq "S2 < 0.6" #assign (residue 46 and name HN ) and assign (residue 47 and name HA ) 4.7003719685 1.1750929921 1.1750929921 #seq "S2 < 0.6" ; 414 39 415 37 rr_6ucj 1 665 ; assign (residue 47 and name HA ) 4.7003719685 1.1750929921 1.1750929921 #seq "S2 < 0.6" #assign (residue 46 and name HN ) and assign (residue 47 and name HN ) 2.6286577428 0.6571644357 0.6571644357 #seq "S2 < 0.6" ; 415 39 416 37 rr_6ucj 1 666 ; assign (residue 47 and name HN ) 2.6286577428 0.6571644357 0.6571644357 #seq "S2 < 0.6" #assign (residue 47 and name HN ) and assign ((residue 46 and name HA) or (residue 42 and name HA) ) 2.1878235813 0.5469558953 0.5469558953 #seq "S2 < 0.6" ; 416 39 417 37 rr_6ucj 1 667 ; assign ((residue 46 and name HA) or (residue 42 and name HA) ) 2.1878235813 0.5469558953 0.5469558953 #seq "S2 < 0.6" #assign (residue 47 and name HN ) and assign ((residue 48 and name HD#) or (residue 48 and name HD*) ) 4.5572569427 1.1393142357 1.1393142357 #seq "S2 < 0.6" ; 417 39 418 37 rr_6ucj 1 668 ; assign ((residue 48 and name HD#) or (residue 48 and name HD*) ) 4.5572569427 1.1393142357 1.1393142357 #seq "S2 < 0.6" #assign (residue 47 and name HN ) and assign ((residue 46 and name HB#) or (residue 46 and name HB*) ) 3.0441340975 0.7610335244 0.7610335244 #seq "S2 < 0.6" ; 418 39 419 37 rr_6ucj 1 669 ; assign ((residue 46 and name HB#) or (residue 46 and name HB*) ) 3.0441340975 0.7610335244 0.7610335244 #seq "S2 < 0.6" #assign (residue 47 and name HN ) and assign (residue 48 and name HN ) 2.4894825432 0.6223706358 0.6223706358 #seq "S2 < 0.6" ; 419 39 420 37 rr_6ucj 1 670 ; assign (residue 48 and name HN ) 2.4894825432 0.6223706358 0.6223706358 #seq "S2 < 0.6" #assign (residue 47 and name HN ) and assign (residue 48 and name HB2 ) 5.3302117281 1.332552932 1.332552932 #seq "S2 < 0.6" ; 420 39 421 37 rr_6ucj 1 671 ; assign (residue 48 and name HB2 ) 5.3302117281 1.332552932 1.332552932 #seq "S2 < 0.6" #assign (residue 47 and name HN ) and assign (residue 46 and name HN ) 2.6335412253 0.6583853063 0.6583853063 #seq "S2 < 0.6" ; 421 39 422 37 rr_6ucj 1 672 ; assign (residue 46 and name HN ) 2.6335412253 0.6583853063 0.6583853063 #seq "S2 < 0.6" #assign (residue 47 and name HN ) and assign (residue 48 and name HA ) 4.9534379578 1.2383594894 1.2383594894 #seq "S2 < 0.6" ; 422 39 423 37 rr_6ucj 1 673 ; assign (residue 48 and name HA ) 4.9534379578 1.2383594894 1.2383594894 #seq "S2 < 0.6" #assign (residue 48 and name HN ) and assign ((residue 47 and name HG2#) or (residue 47 and name HG2*) ) 3.5127571426 0.8781892856 0.8781892856 #seq "S2 < 0.6" ; 423 39 424 37 rr_6ucj 1 674 ; assign ((residue 47 and name HG2#) or (residue 47 and name HG2*) ) 3.5127571426 0.8781892856 0.8781892856 #seq "S2 < 0.6" #assign (residue 48 and name HN ) and assign ((residue 49 and name HA#) or (residue 49 and name HA*) ) 4.2263332779 1.0565833195 1.0565833195 #seq "S2 < 0.6" ; 424 39 425 37 rr_6ucj 1 675 ; assign ((residue 49 and name HA#) or (residue 49 and name HA*) ) 4.2263332779 1.0565833195 1.0565833195 #seq "S2 < 0.6" #assign (residue 48 and name HN ) and assign ((residue 47 and name HB) or (residue 50 and name HA) ) 2.2940720349 0.5735180087 0.5735180087 #seq "S2 < 0.6" ; 425 39 426 37 rr_6ucj 1 676 ; assign ((residue 47 and name HB) or (residue 50 and name HA) ) 2.2940720349 0.5735180087 0.5735180087 #seq "S2 < 0.6" #assign (residue 48 and name HN ) and assign (residue 47 and name HA ) 2.7133540113 0.6783385028 0.6783385028 #seq "S2 < 0.6" ; 426 39 427 37 rr_6ucj 1 677 ; assign (residue 47 and name HA ) 2.7133540113 0.6783385028 0.6783385028 #seq "S2 < 0.6" #assign (residue 48 and name HN ) and assign (residue 47 and name HN ) 2.5494295827 0.6373573957 0.6373573957 #seq "S2 < 0.6" ; 427 39 428 37 rr_6ucj 1 678 ; assign (residue 47 and name HN ) 2.5494295827 0.6373573957 0.6373573957 #seq "S2 < 0.6" #assign (residue 49 and name HN ) and assign ((residue 48 and name HD#) or (residue 48 and name HD*) ) 4.183488437 1.0458721093 1.0458721093 #seq "S2 < 0.6" ; 428 39 429 37 rr_6ucj 1 679 ; assign ((residue 48 and name HD#) or (residue 48 and name HD*) ) 4.183488437 1.0458721093 1.0458721093 #seq "S2 < 0.6" #assign (residue 49 and name HN ) and assign (residue 48 and name HB1 ) 3.2678609214 0.8169652304 0.8169652304 #seq "S2 < 0.6" ; 429 39 430 37 rr_6ucj 1 680 ; assign (residue 48 and name HB1 ) 3.2678609214 0.8169652304 0.8169652304 #seq "S2 < 0.6" #assign (residue 49 and name HN ) and assign (residue 48 and name HN ) 2.8705027471 0.7176256868 0.7176256868 #seq "S2 < 0.6" ; 430 39 431 37 rr_6ucj 1 681 ; assign (residue 48 and name HN ) 2.8705027471 0.7176256868 0.7176256868 #seq "S2 < 0.6" #assign (residue 49 and name HN ) and assign (residue 48 and name HB2 ) 3.5494805665 0.8873701416 0.8873701416 #seq "S2 < 0.6" ; 431 39 432 37 rr_6ucj 1 682 ; assign (residue 48 and name HB2 ) 3.5494805665 0.8873701416 0.8873701416 #seq "S2 < 0.6" #assign (residue 49 and name HN ) and assign (residue 48 and name HA ) 2.255803577 0.5639508942 0.5639508942 #seq "S2 < 0.6" ; 432 39 433 37 rr_6ucj 1 683 ; assign (residue 48 and name HA ) 2.255803577 0.5639508942 0.5639508942 #seq "S2 < 0.6" #assign (residue 49 and name HN ) and assign (residue 50 and name HA ) 4.2907159519 1.072678988 1.072678988 #seq "S2 < 0.6" ; 433 39 434 37 rr_6ucj 1 684 ; assign (residue 50 and name HA ) 4.2907159519 1.072678988 1.072678988 #seq "S2 < 0.6" #assign (residue 50 and name HN ) and assign ((residue 49 and name HA#) or (residue 49 and name HA*) ) 2.5626214426 0.6406553607 0.6406553607 #seq "S2 < 0.6" ; 434 39 435 37 rr_6ucj 1 685 ; assign ((residue 49 and name HA#) or (residue 49 and name HA*) ) 2.5626214426 0.6406553607 0.6406553607 #seq "S2 < 0.6" #assign (residue 50 and name HN ) and assign (residue 49 and name HN ) 3.0311647674 0.7577911918 0.7577911918 #seq "S2 < 0.6" ; 435 39 436 37 rr_6ucj 1 686 ; assign (residue 49 and name HN ) 3.0311647674 0.7577911918 0.7577911918 #seq "S2 < 0.6" #assign (residue 50 and name HN ) and assign ((residue 51 and name HB#) or (residue 51 and name HB*) or ( residue 50 and name HB# ) or (residue 50 and name HB*) ) 2.5570668224 0.6392667056 0.6392667056 #seq ; 436 39 437 37 rr_6ucj 1 687 'assign ((residue 51 and name HB#) or (residue 51 and name HB*) or ( residue 50 and name HB# ) or (residue 50 and name HB*) ) 2.5570668224 0.6392667056 0.6392667056 #seq' 437 39 437 206 rr_6ucj 1 688 'assign (residue 51 and name HN ) and' 438 1 438 36 rr_6ucj 1 689 'assign (residue 50 and name HG1 ) 3.7005760311 0.9251440078 0.9251440078 #seq' 438 38 438 114 rr_6ucj 1 690 'assign (residue 51 and name HN ) and' 439 1 439 36 rr_6ucj 1 691 'assign (residue 52 and name HN ) 2.7298738771 0.6824684693 0.6824684693 #seq' 439 38 439 113 rr_6ucj 1 692 'assign (residue 51 and name HN ) and' 440 1 440 36 rr_6ucj 1 693 'assign ((residue 50 and name HG2) or (residue 53 and name HB#) or (residue 53 and name HB*) ) 3.2715655489 1.1178913872 1.1178913872 #seq terminal methyl' 440 38 440 190 rr_6ucj 1 694 'assign (residue 51 and name HN ) and' 441 1 441 36 rr_6ucj 1 695 'assign ((residue 50 and name HB#) or (residue 50 and name HB*) ) 2.1785761736 0.5446440434 0.5446440434 #seq' 441 38 441 145 rr_6ucj 1 696 'assign (residue 51 and name HN ) and' 442 1 442 36 rr_6ucj 1 697 'assign (residue 52 and name HA ) 5.2543335146 1.3135833786 1.3135833786 #seq' 442 38 442 113 rr_6ucj 1 698 'assign (residue 52 and name HN ) and' 443 1 443 36 rr_6ucj 1 699 'assign ((residue 53 and name HB#) or (residue 53 and name HB*) ) 4.2500853203 1.3625213301 1.3625213301 #seq terminal methyl' 443 38 443 161 rr_6ucj 1 700 'assign (residue 52 and name HN ) and' 444 1 444 36 rr_6ucj 1 701 'assign (residue 53 and name HA ) 4.7226819093 1.1806704773 1.1806704773 #seq' 444 38 444 113 rr_6ucj 1 702 'assign (residue 52 and name HN ) and' 445 1 445 36 rr_6ucj 1 703 'assign (residue 51 and name HA ) 2.6539127901 0.6634781975 0.6634781975 #seq' 445 38 445 113 rr_6ucj 1 704 'assign (residue 52 and name HN ) and' 446 1 446 36 rr_6ucj 1 705 'assign ((residue 51 and name HD#) or (residue 51 and name HD*) ) 5.03254471 1.2581361775 1.2581361775 #seq' 446 38 446 143 rr_6ucj 1 706 'assign (residue 52 and name HN ) and' 447 1 447 36 rr_6ucj 1 707 'assign ((residue 51 and name HG#) or (residue 51 and name HG*) ) 3.5963394113 0.8990848528 0.8990848528 #seq' 447 38 447 145 rr_6ucj 1 708 'assign (residue 52 and name HN ) and' 448 1 448 36 rr_6ucj 1 709 'assign ((residue 51 and name HB#) or (residue 51 and name HB*) ) 2.8648325624 0.7162081406 0.7162081406 #seq' 448 38 448 145 rr_6ucj 1 710 'assign (residue 53 and name HN ) and' 449 1 449 36 rr_6ucj 1 711 'assign (residue 52 and name HD2* ) 4.9050680967 1.2262670242 1.2262670242 #seq' 449 38 449 115 rr_6ucj 1 712 'assign (residue 53 and name HN ) and' 450 1 450 36 rr_6ucj 1 713 'assign (residue 52 and name HD2* ) 4.9952518657 1.2488129664 1.2488129664 #seq' 450 38 450 115 rr_6ucj 1 714 'assign (residue 53 and name HN ) and' 451 1 451 36 rr_6ucj 1 715 'assign ((residue 54 and name HG1#) or (residue 54 and name HG1*) ) 4.3387702722 1.384692568 1.384692568 #seq terminal methyl' 451 38 451 161 rr_6ucj 1 716 'assign (residue 53 and name HN ) and' 452 1 452 36 rr_6ucj 1 717 'assign (residue 54 and name HN ) 3.0078399884 0.7519599971 0.7519599971 #seq' 452 38 452 113 rr_6ucj 1 718 'assign (residue 53 and name HN ) and' 453 1 453 36 rr_6ucj 1 719 'assign (residue 52 and name HA ) 2.6392454217 0.6598113554 0.6598113554 #seq' 453 38 453 113 rr_6ucj 1 720 'assign (residue 53 and name HN ) and' 454 1 454 36 rr_6ucj 1 721 'assign ((residue 52 and name HB#) or (residue 52 and name HB*) ) 3.1153532354 0.7788383088 0.7788383088 #seq' 454 38 454 145 rr_6ucj 1 722 'assign (residue 54 and name HN ) and' 455 1 455 36 rr_6ucj 1 723 'assign ((residue 53 and name HB#) or (residue 53 and name HB*) ) 2.7014566682 0.975364167 0.975364167 #seq terminal methyl' 455 38 455 159 rr_6ucj 1 724 'assign (residue 54 and name HN ) and' 456 1 456 36 rr_6ucj 1 725 'assign (residue 55 and name HN ) 2.7158125719 0.678953143 0.678953143 #seq' 456 38 456 111 rr_6ucj 1 726 'assign (residue 54 and name HN ) and' 457 1 457 36 rr_6ucj 1 727 'assign (residue 53 and name HA ) 3.1710105755 0.7927526439 0.7927526439 #seq' 457 38 457 113 rr_6ucj 1 728 'assign (residue 55 and name HN ) and' 458 1 458 36 rr_6ucj 1 729 'assign ((residue 56 and name HG1# ) or (residue 56 and name HG1*) or (residue 54 and name HG1# ) or (residue 54 and name HG1*)) 3.6103046708 1.2025761677 1.2025761677 #seq terminal methyl' 458 38 458 224 rr_6ucj 1 730 'assign (residue 55 and name HN ) and' 459 1 459 36 rr_6ucj 1 731 'assign ((residue 54 and name HB) or (residue 56 and name HB )) 2.9122061037 0.7280515259 0.7280515259 #seq' 459 38 459 143 rr_6ucj 1 732 'assign (residue 55 and name HN ) and' 460 1 460 36 rr_6ucj 1 733 'assign (residue 56 and name HN ) 2.68262619 0.6706565475 0.6706565475 #seq' 460 38 460 111 rr_6ucj 1 734 'assign (residue 55 and name HN ) and' 461 1 461 36 rr_6ucj 1 735 'assign (residue 54 and name HA ) 3.2058789622 0.8014697406 0.8014697406 #seq' 461 38 461 113 rr_6ucj 1 736 'assign (residue 55 and name HN ) and' 462 1 462 36 rr_6ucj 1 737 'assign (residue 54 and name HN ) 2.6065015491 0.6516253873 0.6516253873 #seq' 462 38 462 113 rr_6ucj 1 738 'assign (residue 55 and name HN ) and' 463 1 463 36 rr_6ucj 1 739 'assign (residue 56 and name HA ) 6.307871148 1.576967787 1.576967787 #seq' 463 38 463 110 rr_6ucj 1 740 'assign (residue 55 and name HN ) and' 464 1 464 36 rr_6ucj 1 741 'assign ((residue 54 and name HG2#) or (residue 54 and name HG2*) ) 3.489797781 1.1724494453 1.1724494453 #seq terminal methyl' 464 38 464 162 rr_6ucj 1 742 'assign (residue 56 and name HN ) and' 465 1 465 36 rr_6ucj 1 743 'assign ((residue 55 and name HB#) or (residue 55 and name HB*) ) 2.879253289 0.7198133222 0.7198133222 #seq' 465 38 465 144 rr_6ucj 1 744 'assign (residue 56 and name HN ) and' 466 1 466 36 rr_6ucj 1 745 'assign (residue 55 and name HN ) 2.5582561507 0.6395640377 0.6395640377 #seq' 466 38 466 113 rr_6ucj 1 746 'assign (residue 56 and name HN ) and' 467 1 467 36 rr_6ucj 1 747 'assign ((residue 55 and name HA) or (residue 57 and name HA) ) 2.9068500689 0.7267125172 0.7267125172 #seq' 467 38 467 143 rr_6ucj 1 748 'assign (residue 56 and name HN ) and' 468 1 468 36 rr_6ucj 1 749 'assign ((residue 57 and name HD#) or (residue 57 and name HD*) ) 4.4960502559 1.424012564 1.424012564 #seq terminal methyl' 468 38 468 159 rr_6ucj 1 750 'assign (residue 56 and name HN ) and' 469 1 469 36 rr_6ucj 1 751 'assign (residue 57 and name HN ) 2.6279843242 0.6569960811 0.6569960811 #seq' 469 38 469 113 rr_6ucj 1 752 'assign (residue 56 and name HN ) and' 470 1 470 36 rr_6ucj 1 753 'assign ((residue 57 and name HG) or (residue 58 and name HB*) ) 4.3930168034 1.0982542009 1.0982542009 #seq' 470 38 470 144 rr_6ucj 1 754 'assign (residue 56 and name HN ) and' 471 1 471 36 rr_6ucj 1 755 'assign ((residue 57 and name HB#) or (residue 57 and name HB*) ) 5.0182581596 1.2545645399 1.2545645399 #seq' 471 38 471 145 rr_6ucj 1 756 'assign (residue 56 and name HN ) and' 472 1 472 36 rr_6ucj 1 757 'assign ((residue 55 and name HG#) or (residue 55 and name HG*) ) 5.2070769387 1.3017692347 1.3017692347 #seq' 472 38 472 145 rr_6ucj 1 758 'assign (residue 57 and name HN ) and' 473 1 473 36 rr_6ucj 1 759 'assign ((residue 56 and name HG1#) or (residue 56 and name HG1*) ) 3.5673592333 1.2918398083 1.2918398083 #seq terminal methyl' 473 38 473 163 rr_6ucj 1 760 'assign (residue 57 and name HN ) and' 474 1 474 36 rr_6ucj 1 761 'assign ((residue 56 and name HG2#) or (residue 56 and name HG2*) or (residue 57 and name HD1#) or (residue 57 and name HD1*) or (residue 62 and name HD1#) or (residue 62 and name HD1*) ) 3.6628631265 1.2157157816 1.2157157816 #seq terminal methyl' 474 38 474 283 rr_6ucj 1 762 'assign (residue 57 and name HN ) and' 475 1 475 36 rr_6ucj 1 763 'assign ((residue 58 and name HG#) or (residue 58 and name HG*) ) 4.8262081988 1.2065520497 1.2065520497 #seq' 475 38 475 145 rr_6ucj 1 764 'assign (residue 57 and name HN ) and' 476 1 476 36 rr_6ucj 1 765 'assign (residue 56 and name HN ) 2.8873818092 0.7218454523 0.7218454523 #seq' 476 38 476 113 rr_6ucj 1 766 'assign (residue 57 and name HN ) and' 477 1 477 36 rr_6ucj 1 767 'assign ((residue 58 and name HB#) or (residue 58 and name HB*) or (residue 57 and name HG) ) 2.9073014103 0.7268253526 0.7268253526 #seq' 477 38 477 173 rr_6ucj 1 768 'assign (residue 57 and name HN ) and' 478 1 478 36 rr_6ucj 1 769 'assign (residue 56 and name HA ) 3.7255343946 0.9313835986 0.9313835986 #seq' 478 38 478 113 rr_6ucj 1 770 'assign (residue 58 and name HN ) and' 479 1 479 36 rr_6ucj 1 771 'assign (residue 59 and name HN ) 3.1947333893 0.7986833473 0.7986833473 #seq' 479 38 479 113 rr_6ucj 1 772 'assign (residue 58 and name HN ) and' 480 1 480 36 rr_6ucj 1 773 'assign ((residue 57 and name HD#) or (residue 57 and name HD*) ) 4.9476032533 1.5369008133 1.5369008133 #seq terminal methyl' 480 38 480 161 rr_6ucj 1 774 'assign (residue 58 and name HN ) and' 481 1 481 36 rr_6ucj 1 775 'assign ((residue 57 and name HG) or (residue 58 and name HB*) ) 3.1437763586 0.7859440897 0.7859440897 #seq' 481 38 481 144 rr_6ucj 1 776 'assign (residue 59 and name HN ) and' 482 1 482 36 rr_6ucj 1 777 'assign (residue 60 and name HN ) 2.9825256319 0.745631408 0.745631408 #seq' 482 38 482 111 rr_6ucj 1 778 'assign (residue 59 and name HN ) and' 483 1 483 36 rr_6ucj 1 779 'assign (residue 58 and name HN ) 3.0627082331 0.7656770583 0.7656770583 #seq' 483 38 483 113 rr_6ucj 1 780 'assign (residue 59 and name HN ) and' 484 1 484 36 rr_6ucj 1 781 'assign (residue 58 and name HA ) 3.1902137413 0.7975534353 0.7975534353 #seq' 484 38 484 113 rr_6ucj 1 782 'assign (residue 59 and name HN ) and' 485 1 485 36 rr_6ucj 1 783 'assign (residue 58 and name HD* ) 4.9349116671 1.2337279168 1.2337279168 #seq' 485 38 485 114 rr_6ucj 1 784 'assign (residue 59 and name HN ) and' 486 1 486 36 rr_6ucj 1 785 'assign ((residue 60 and name HB#) or (residue 60 and name HB*) ) 4.8946311634 1.2236577908 1.2236577908 #seq' 486 38 486 145 rr_6ucj 1 786 'assign (residue 60 and name HN ) and' 487 1 487 36 rr_6ucj 1 787 'assign (residue 61 and name HD* ) 3.7009463917 0.9252365979 0.9252365979 #seq' 487 38 487 114 rr_6ucj 1 788 'assign (residue 60 and name HN ) and' 488 1 488 36 rr_6ucj 1 789 'assign (residue 59 and name HN ) 2.7556423676 0.6889105919 0.6889105919 #seq' 488 38 488 113 rr_6ucj 1 790 'assign (residue 60 and name HN ) and' 489 1 489 36 rr_6ucj 1 791 'assign (residue 61 and name HD* ) 3.2937101961 0.823427549 0.823427549 #seq' 489 38 489 112 rr_6ucj 1 792 'assign (residue 60 and name HN ) and' 490 1 490 36 rr_6ucj 1 793 'assign (residue 59 and name HA ) 3.0411458289 0.7602864572 0.7602864572 #seq' 490 38 490 113 rr_6ucj 1 794 'assign (residue 60 and name HN ) and' 491 1 491 36 rr_6ucj 1 795 'assign ((residue 61 and name HB*) or ( residue 59 and name HB*) ) 3.2346317109 0.8086579277 0.8086579277 #seq' 491 38 491 146 rr_6ucj 1 796 'assign (residue 60 and name HN ) and' 492 1 492 36 rr_6ucj 1 797 'assign ((residue 59 and name HB#) or (residue 59 and name HB*) ) 3.6044874062 0.9011218516 0.9011218516 #seq' 492 38 492 145 rr_6ucj 1 798 'assign (residue 62 and name HN ) and' 493 1 493 36 rr_6ucj 1 799 'assign (residue 61 and name HD* ) 4.0467887833 1.0116971958 1.0116971958 #seq' 493 38 493 114 rr_6ucj 1 800 'assign (residue 62 and name HN ) and' 494 1 494 36 rr_6ucj 1 801 'assign ((residue 63 and name HB#) or (residue 63 and name HB*) ) 5.3281402109 1.3320350527 1.3320350527 #seq' 494 38 494 145 rr_6ucj 1 802 'assign (residue 62 and name HN ) and' 495 1 495 36 rr_6ucj 1 803 'assign (residue 61 and name HA ) 2.6773346956 0.6693336739 0.6693336739 #seq' 495 38 495 113 rr_6ucj 1 804 'assign (residue 62 and name HN ) and' 496 1 496 36 rr_6ucj 1 805 'assign ((residue 61 and name HG#) or (residue 61 and name HG*) ) 3.8858087564 0.9714521891 0.9714521891 #seq' 496 38 496 145 rr_6ucj 1 806 'assign (residue 62 and name HN ) and' 497 1 497 36 rr_6ucj 1 807 'assign (residue 61 and name HB* ) 3.7719633392 0.9429908348 0.9429908348 #seq' 497 38 497 114 rr_6ucj 1 808 'assign (residue 62 and name HN ) and' 498 1 498 36 rr_6ucj 1 809 'assign (residue 63 and name HA ) 4.3684536284 1.0921134071 1.0921134071 #seq' 498 38 498 113 rr_6ucj 1 810 'assign (residue 62 and name HN ) and' 499 1 499 36 rr_6ucj 1 811 'assign (residue 61 and name HB* ) 4.5261665377 1.1315416344 1.1315416344 #seq' 499 38 499 114 rr_6ucj 1 812 'assign (residue 63 and name HN ) and' 500 1 500 36 rr_6ucj 1 813 'assign ((residue 62 and name HB#) or (residue 62 and name HB*) ) 3.5527267279 0.888181682 0.888181682 #seq' 500 38 500 143 rr_6ucj 1 814 'assign (residue 63 and name HN ) and' 501 1 501 36 rr_6ucj 1 815 'assign (residue 62 and name HA ) 2.7627415456 0.6906853864 0.6906853864 #seq' 501 38 501 113 rr_6ucj 1 816 'assign (residue 63 and name HN ) and' 502 1 502 36 rr_6ucj 1 817 'assign ((residue 62 and name HD2#) or (residue 62 and name HD2*) ) 4.5514028371 1.1378507093 1.1378507093 #seq' 502 38 502 147 rr_6ucj 1 818 'assign (residue 63 and name HN ) and' 503 1 503 36 rr_6ucj 1 819 'assign ((residue 64 and name HE#) or (residue 64 and name HE*) or (residue 64 and name HD#) or (residue 64 and name HD*) ) 5.2210176965 1.3052544241 1.3052544241 #seq' 503 38 503 203 rr_6ucj 1 820 'assign (residue 63 and name HN ) and' 504 1 504 36 rr_6ucj 1 821 'assign (residue 64 and name HN ) 2.7715373992 0.6928843498 0.6928843498 #seq' 504 38 504 113 rr_6ucj 1 822 'assign (residue 63 and name HN ) and' 505 1 505 36 rr_6ucj 1 823 ; assign (residue 62 and name HG ) 3.9270163311 0.9817540828 0.9817540828 #seq #assign (residue 64 and name HN ) and assign ((residue 65 and name HB#) or (residue 65 and name HB*) ) 4.377290324 1.094322581 1.094322581 #seq "S2 < 0.6" ; 505 38 506 37 rr_6ucj 1 824 ; assign ((residue 65 and name HB#) or (residue 65 and name HB*) ) 4.377290324 1.094322581 1.094322581 #seq "S2 < 0.6" #assign (residue 64 and name HN ) and assign (residue 65 and name HN ) 2.4290051425 0.6072512856 0.6072512856 #seq "S2 < 0.6" ; 506 39 507 37 rr_6ucj 1 825 ; assign (residue 65 and name HN ) 2.4290051425 0.6072512856 0.6072512856 #seq "S2 < 0.6" #assign (residue 64 and name HN ) and assign ((residue 65 and name HD#) or (residue 65 and name HD*) ) 4.3620779586 1.0905194896 1.0905194896 #seq "S2 < 0.6" ; 507 39 508 37 rr_6ucj 1 826 'assign ((residue 65 and name HD#) or (residue 65 and name HD*) ) 4.3620779586 1.0905194896 1.0905194896 #seq "S2 < 0.6"' 508 39 508 157 rr_6ucj 1 827 'assign (residue 64 and name HN ) and' 509 1 509 36 rr_6ucj 1 828 ; assign ((residue 63 and name HB#) or (residue 63 and name HB*) ) 3.3922839848 0.8480709962 0.8480709962 #seq #assign (residue 64 and name HN ) and assign ((residue 65 and name HG) or (residue 62 and name HB*) or (residue 68 and name HB2) ) 3.7770067601 0.94425169 0.94425169 #seq "S2 < 0.6" ; 509 38 510 37 rr_6ucj 1 829 'assign ((residue 65 and name HG) or (residue 62 and name HB*) or (residue 68 and name HB2) ) 3.7770067601 0.94425169 0.94425169 #seq "S2 < 0.6"' 510 39 510 181 rr_6ucj 1 830 'assign (residue 64 and name HN ) and' 511 1 511 36 rr_6ucj 1 831 ; assign (residue 63 and name HN ) 2.6177874811 0.6544468703 0.6544468703 #seq #assign (residue 65 and name HN ) and assign (residue 64 and name HB1 ) 3.849456864 0.962364216 0.962364216 #seq "S2 < 0.6" ; 511 38 512 37 rr_6ucj 1 832 ; assign (residue 64 and name HB1 ) 3.849456864 0.962364216 0.962364216 #seq "S2 < 0.6" #assign (residue 65 and name HN ) and assign ((residue 66 and name HA) or (residue 61 and name HA) or (residue 65 and name HA) ) 2.8499919665 0.7124979916 0.7124979916 #seq "S2 < 0.6" ; 512 39 513 37 rr_6ucj 1 833 ; assign ((residue 66 and name HA) or (residue 61 and name HA) or (residue 65 and name HA) ) 2.8499919665 0.7124979916 0.7124979916 #seq "S2 < 0.6" #assign (residue 65 and name HN ) and assign (residue 64 and name HB2 ) 3.8513371479 0.962834287 0.962834287 #seq "S2 < 0.6" ; 513 39 514 37 rr_6ucj 1 834 ; assign (residue 64 and name HB2 ) 3.8513371479 0.962834287 0.962834287 #seq "S2 < 0.6" #assign (residue 65 and name HN ) and assign (residue 66 and name HD* ) 4.1242240746 1.0310560187 1.0310560187 #seq "S2 < 0.6" ; 514 39 515 37 rr_6ucj 1 835 ; assign (residue 66 and name HD* ) 4.1242240746 1.0310560187 1.0310560187 #seq "S2 < 0.6" #assign (residue 65 and name HN ) and assign (residue 66 and name HD* ) 4.5714205358 1.142855134 1.142855134 #seq "S2 < 0.6" ; 515 39 516 37 rr_6ucj 1 836 ; assign (residue 66 and name HD* ) 4.5714205358 1.142855134 1.142855134 #seq "S2 < 0.6" #assign (residue 65 and name HN ) and assign (residue 64 and name HN ) 2.4879956357 0.6219989089 0.6219989089 #seq "S2 < 0.6" ; 516 39 517 37 rr_6ucj 1 837 ; assign (residue 64 and name HN ) 2.4879956357 0.6219989089 0.6219989089 #seq "S2 < 0.6" #assign (residue 65 and name HN ) and assign ((residue 64 and name HD#) or (residue 64 and name HD*) or (residue 64 and name HE#) or (residue 64 and name HE*) ) 4.7925085527 1.1981271382 1.1981271382 #seq "S2 < 0.6" ; 517 39 518 37 rr_6ucj 1 838 ; assign ((residue 64 and name HD#) or (residue 64 and name HD*) or (residue 64 and name HE#) or (residue 64 and name HE*) ) 4.7925085527 1.1981271382 1.1981271382 #seq "S2 < 0.6" #assign (residue 67 and name HN ) and assign (residue 66 and name HB* ) 3.9650335631 0.9912583908 0.9912583908 #seq "S2 < 0.6" ; 518 39 519 37 rr_6ucj 1 839 ; assign (residue 66 and name HB* ) 3.9650335631 0.9912583908 0.9912583908 #seq "S2 < 0.6" #assign (residue 67 and name HN ) and assign (residue 66 and name HB* ) 3.5386594869 0.8846648717 0.8846648717 #seq "S2 < 0.6" ; 519 39 520 37 rr_6ucj 1 840 ; assign (residue 66 and name HB* ) 3.5386594869 0.8846648717 0.8846648717 #seq "S2 < 0.6" #assign (residue 67 and name HN ) and assign ((residue 68 and name HB2) or ( residue 69 and name HB*) or (residue 70 and name HB*) ) 4.2260905532 1.0565226383 1.0565226383 #seq "S2 < 0.6" ; 520 39 521 37 rr_6ucj 1 841 ; assign ((residue 68 and name HB2) or ( residue 69 and name HB*) or (residue 70 and name HB*) ) 4.2260905532 1.0565226383 1.0565226383 #seq "S2 < 0.6" #assign (residue 67 and name HN ) and assign (residue 66 and name HD* ) 4.1897020148 1.0474255037 1.0474255037 #seq "S2 < 0.6" ; 521 39 522 37 rr_6ucj 1 842 ; assign (residue 66 and name HD* ) 4.1897020148 1.0474255037 1.0474255037 #seq "S2 < 0.6" #assign (residue 67 and name HN ) and assign (residue 68 and name HB1 ) 4.8155318675 1.2038829669 1.2038829669 #seq "S2 < 0.6" ; 522 39 523 37 rr_6ucj 1 843 ; assign (residue 68 and name HB1 ) 4.8155318675 1.2038829669 1.2038829669 #seq "S2 < 0.6" #assign (residue 67 and name HN ) and assign (residue 68 and name HN ) 2.9290379264 0.7322594816 0.7322594816 #seq "S2 < 0.6" ; 523 39 524 37 rr_6ucj 1 844 ; assign (residue 68 and name HN ) 2.9290379264 0.7322594816 0.7322594816 #seq "S2 < 0.6" #assign (residue 68 and name HN ) and assign (residue 67 and name HN ) 3.1404577392 0.7851144348 0.7851144348 #seq "S2 < 0.6" ; 524 39 525 37 rr_6ucj 1 845 ; assign (residue 67 and name HN ) 3.1404577392 0.7851144348 0.7851144348 #seq "S2 < 0.6" #assign (residue 71 and name HN ) and assign (residue 72 and name HN ) 4.0188904425 1.0047226106 1.0047226106 #seq "S2 < 0.6" ; 525 39 526 37 rr_6ucj 1 846 ; assign (residue 72 and name HN ) 4.0188904425 1.0047226106 1.0047226106 #seq "S2 < 0.6" #assign (residue 72 and name HN ) and assign (residue 71 and name HN ) 4.6351515803 1.1587878951 1.1587878951 #seq "S2 < 0.6" ; 526 39 527 37 rr_6ucj 1 847 ; assign (residue 71 and name HN ) 4.6351515803 1.1587878951 1.1587878951 #seq "S2 < 0.6" #medium #assign (residue 13 and name HN ) and assign (residue 15 and name HB ) 2.688321535 0.6720803837 0.6720803837 #med water peak overlap ; 527 39 530 37 rr_6ucj 1 848 'assign (residue 15 and name HB ) 2.688321535 0.6720803837 0.6720803837 #med water peak overlap' 530 39 530 132 rr_6ucj 1 849 'assign (residue 14 and name HN ) and' 531 1 531 36 rr_6ucj 1 850 'assign ((residue 18 and name HB#) or (residue 18 and name HB*) ) 4.7006542477 1.1751635619 1.1751635619 #med' 531 38 531 145 rr_6ucj 1 851 'assign (residue 14 and name HN ) and' 532 1 532 36 rr_6ucj 1 852 'assign (residue 12 and name HA ) 4.1723170188 1.0430792547 1.0430792547 #med' 532 38 532 113 rr_6ucj 1 853 'assign (residue 14 and name HN ) and' 533 1 533 36 rr_6ucj 1 854 'assign ((residue 12 and name HB#) or (residue 12 and name HB*) ) 4.8194626152 1.2048656538 1.2048656538 #med' 533 38 533 145 rr_6ucj 1 855 'assign (residue 14 and name HN ) and' 534 1 534 36 rr_6ucj 1 856 'assign (residue 12 and name HN ) 5.0737220385 1.2684305096 1.2684305096 #med' 534 38 534 113 rr_6ucj 1 857 'assign (residue 15 and name HN ) and' 535 1 535 36 rr_6ucj 1 858 'assign ((residue 18 and name HB#) or (residue 18 and name HB*) ) 3.5670547285 0.8917636821 0.8917636821 #med' 535 38 535 145 rr_6ucj 1 859 'assign (residue 15 and name HN ) and' 536 1 536 36 rr_6ucj 1 860 'assign (residue 18 and name HN ) 5.0929887873 1.2732471968 1.2732471968 #med' 536 38 536 113 rr_6ucj 1 861 'assign (residue 15 and name HN ) and' 537 1 537 36 rr_6ucj 1 862 'assign (residue 13 and name HA ) 4.1964513648 1.0491128412 1.0491128412 #med' 537 38 537 113 rr_6ucj 1 863 'assign (residue 15 and name HN ) and' 538 1 538 36 rr_6ucj 1 864 'assign ((residue 13 and name HB#) or (residue 13 and name HB*) ) 4.3157412247 1.0789353062 1.0789353062 #med' 538 38 538 145 rr_6ucj 1 865 'assign (residue 17 and name HN ) and' 539 1 539 36 rr_6ucj 1 866 ; assign ((residue 15 and name HG2#) or (residue 15 and name HG2*) ) 3.317982736 0.904495684 0.904495684 #med terminal methyl #assign (residue 17 and name HN ) and assign (residue 15 and name HB ) 2.5847386245 0.6461846561 0.6461846561 #med water peak overlap ; 539 38 540 37 rr_6ucj 1 867 'assign (residue 15 and name HB ) 2.5847386245 0.6461846561 0.6461846561 #med water peak overlap' 540 39 540 133 rr_6ucj 1 868 'assign (residue 17 and name HN ) and' 541 1 541 36 rr_6ucj 1 869 'assign (residue 15 and name HA ) 4.1927117824 1.0481779456 1.0481779456 #med' 541 38 541 113 rr_6ucj 1 870 'assign (residue 18 and name HN ) and' 542 1 542 36 rr_6ucj 1 871 ; assign (residue 15 and name HN ) 4.8891884883 1.2222971221 1.2222971221 #med #assign (residue 18 and name HN ) and assign (residue 15 and name HB ) 3.2610298492 0.8152574623 0.8152574623 #med overlap with water ; 542 38 543 37 rr_6ucj 1 872 'assign (residue 15 and name HB ) 3.2610298492 0.8152574623 0.8152574623 #med overlap with water' 543 39 543 133 rr_6ucj 1 873 'assign (residue 18 and name HN ) and' 544 1 544 36 rr_6ucj 1 874 'assign ((residue 16 and name HB#) or (residue 16 and name HB*) ) 4.8243565555 1.5060891389 1.5060891389 #med terminal methyl' 544 38 544 161 rr_6ucj 1 875 'assign (residue 19 and name HN ) and' 545 1 545 36 rr_6ucj 1 876 'assign ((residue 21 and name HA) or (residue 19 and name HA) ) 2.7512372812 0.6878093203 0.6878093203 #med' 545 38 545 143 rr_6ucj 1 877 'assign (residue 20 and name HN ) and' 546 1 546 36 rr_6ucj 1 878 'assign ((residue 23 and name HB#) or (residue 23 and name HB*) ) 5.0397417678 1.2599354419 1.2599354419 #med' 546 38 546 145 rr_6ucj 1 879 'assign (residue 20 and name HN ) and' 547 1 547 36 rr_6ucj 1 880 'assign (residue 18 and name HA ) 4.8977072313 1.2244268078 1.2244268078 #med' 547 38 547 113 rr_6ucj 1 881 'assign (residue 20 and name HN ) and' 548 1 548 36 rr_6ucj 1 882 'assign (residue 22 and name HN ) 4.2698307026 1.0674576756 1.0674576756 #med' 548 38 548 113 rr_6ucj 1 883 'assign (residue 21 and name HN ) and' 549 1 549 36 rr_6ucj 1 884 'assign (residue 18 and name HA ) 4.2108494901 1.0527123725 1.0527123725 #med' 549 38 549 113 rr_6ucj 1 885 'assign (residue 21 and name HN ) and' 550 1 550 36 rr_6ucj 1 886 'assign ((residue 19 and name HB#) or (residue 19 and name HB*) ) 4.8372841775 1.5093210444 1.5093210444 #med terminal methyl' 550 38 550 161 rr_6ucj 1 887 'assign (residue 22 and name HN ) and' 551 1 551 36 rr_6ucj 1 888 'assign ((residue 19 and name HB#) or (residue 19 and name HB*) ) 4.8763094525 1.5190773631 1.5190773631 #med terminal methyl' 551 38 551 161 rr_6ucj 1 889 'assign (residue 22 and name HN ) and' 552 1 552 36 rr_6ucj 1 890 'assign (residue 20 and name HA ) 4.8103023337 1.2025755834 1.2025755834 #med' 552 38 552 113 rr_6ucj 1 891 'assign (residue 22 and name HN ) and' 553 1 553 36 rr_6ucj 1 892 'assign (residue 24 and name HN ) 4.9984776954 1.2496194238 1.2496194238 #med' 553 38 553 113 rr_6ucj 1 893 'assign (residue 22 and name HN ) and' 554 1 554 36 rr_6ucj 1 894 'assign (residue 20 and name HN ) 3.9471616525 0.9867904131 0.9867904131 #med' 554 38 554 113 rr_6ucj 1 895 'assign (residue 23 and name HN ) and' 555 1 555 36 rr_6ucj 1 896 'assign (residue 20 and name HA ) 3.699383546 0.9248458865 0.9248458865 #med' 555 38 555 112 rr_6ucj 1 897 'assign (residue 24 and name HN ) and' 556 1 556 36 rr_6ucj 1 898 'assign (residue 26 and name HN ) 4.5500633382 1.1375158346 1.1375158346 #med' 556 38 556 113 rr_6ucj 1 899 'assign (residue 24 and name HN ) and' 557 1 557 36 rr_6ucj 1 900 'assign (residue 22 and name HA ) 3.6274098041 0.906852451 0.906852451 #med' 557 38 557 111 rr_6ucj 1 901 'assign (residue 24 and name HN ) and' 558 1 558 36 rr_6ucj 1 902 'assign (residue 20 and name HA ) 4.3747950598 1.0936987649 1.0936987649 #med' 558 38 558 113 rr_6ucj 1 903 'assign (residue 24 and name HN ) and' 559 1 559 36 rr_6ucj 1 904 'assign (residue 21 and name HA ) 3.6647880714 0.9161970179 0.9161970179 #med' 559 38 559 113 rr_6ucj 1 905 'assign (residue 24 and name HN ) and' 560 1 560 36 rr_6ucj 1 906 'assign ((residue 23 and name HD#) or (residue 23 and name HD*) ) 4.4105293235 1.1026323309 1.1026323309 #med' 560 38 560 145 rr_6ucj 1 907 'assign (residue 24 and name HN ) and' 561 1 561 36 rr_6ucj 1 908 'assign ((residue 22 and name HB2) or (reside 23 and name HB*) ) 3.2073396211 0.8018349053 0.8018349053 #med' 561 38 561 144 rr_6ucj 1 909 'assign (residue 24 and name HN ) and' 562 1 562 36 rr_6ucj 1 910 'assign (residue 22 and name HN ) 4.3606445709 1.0901611427 1.0901611427 #med' 562 38 562 113 rr_6ucj 1 911 'assign (residue 25 and name HN ) and' 563 1 563 36 rr_6ucj 1 912 'assign (residue 21 and name HA ) 4.4927855376 1.1231963844 1.1231963844 #med' 563 38 563 113 rr_6ucj 1 913 'assign (residue 25 and name HN ) and' 564 1 564 36 rr_6ucj 1 914 'assign ((residue 28 and name HG1#) or (residue 28 and name HG1*) or (residue 28 and name HG2#) or (residue 28 and name HG2*) ) 4.8496829102 1.5124207275 1.5124207275 #med terminal methyl' 564 38 564 223 rr_6ucj 1 915 'assign (residue 25 and name HN ) and' 565 1 565 36 rr_6ucj 1 916 'assign (residue 22 and name HA ) 3.4068889078 0.851722227 0.851722227 #med' 565 38 565 111 rr_6ucj 1 917 'assign (residue 25 and name HN ) and' 566 1 566 36 rr_6ucj 1 918 'assign (residue 23 and name HA ) 3.4068889078 0.851722227 0.851722227 #med' 566 38 566 111 rr_6ucj 1 919 'assign (residue 26 and name HN ) and' 567 1 567 36 rr_6ucj 1 920 'assign (residue 23 and name HA ) 3.4118328393 0.8529582098 0.8529582098 #med' 567 38 567 113 rr_6ucj 1 921 'assign (residue 26 and name HN ) and' 568 1 568 36 rr_6ucj 1 922 'assign ((residue 24 and name HB#) or (residue 24 and name HB*) ) 4.581665446 1.4454163615 1.4454163615 #med terminal methyl' 568 38 568 160 rr_6ucj 1 923 'assign (residue 26 and name HN ) and' 569 1 569 36 rr_6ucj 1 924 'assign ((residue 28 and name HG1#) or (residue 28 and name HG1*) or (residue 28 and name HG2#) or (residue 28 and name HG2*) ) 4.6093460025 1.4523365006 1.4523365006 #med terminal methyl' 569 38 569 223 rr_6ucj 1 925 'assign (residue 26 and name HN ) and' 570 1 570 36 rr_6ucj 1 926 'assign (residue 24 and name HN ) 4.153163602 1.0382909005 1.0382909005 #med' 570 38 570 112 rr_6ucj 1 927 'assign (residue 27 and name HN ) and' 571 1 571 36 rr_6ucj 1 928 'assign (residue 24 and name HA ) 3.5202870844 0.8800717711 0.8800717711 #med' 571 38 571 113 rr_6ucj 1 929 'assign (residue 28 and name HN ) and' 572 1 572 36 rr_6ucj 1 930 'assign (residue 24 and name HA ) 3.8895260393 0.9723815098 0.9723815098 #med' 572 38 572 113 rr_6ucj 1 931 'assign (residue 28 and name HN ) and' 573 1 573 36 rr_6ucj 1 932 'assign ((residue 25 and name HA ) or (residue 26 and name HA )) 3.5167022073 0.8791755518 0.8791755518 #med' 573 38 573 144 rr_6ucj 1 933 'assign (residue 28 and name HN ) and' 574 1 574 36 rr_6ucj 1 934 'assign (residue 29 and name HN ) 3.4999520378 0.8899880095 0.8899880095 #med' 574 38 574 113 rr_6ucj 1 935 'assign (residue 29 and name HN ) and' 575 1 575 36 rr_6ucj 1 936 'assign (residue 26 and name HA ) 3.788836083 0.9472090208 0.9472090208 #med' 575 38 575 112 rr_6ucj 1 937 'assign (residue 29 and name HN ) and' 576 1 576 36 rr_6ucj 1 938 'assign (residue 27 and name HA ) 4.084448693 1.0211121733 1.0211121733 #med' 576 38 576 112 rr_6ucj 1 939 'assign (residue 29 and name HN ) and' 577 1 577 36 rr_6ucj 1 940 'assign ((residue 31 and name HN) or (residue 26 and name HN) ) 3.7791594554 0.9447898639 0.9447898639 #med' 577 38 577 143 rr_6ucj 1 941 'assign (residue 30 and name HN ) and' 578 1 578 36 rr_6ucj 1 942 'assign (residue 26 and name HA ) 4.6785665301 1.1696416325 1.1696416325 #med' 578 38 578 113 rr_6ucj 1 943 'assign (residue 30 and name HN ) and' 579 1 579 36 rr_6ucj 1 944 'assign (residue 27 and name HA ) 3.8634417478 0.965860437 0.965860437 #med' 579 38 579 111 rr_6ucj 1 945 'assign (residue 30 and name HN ) and' 580 1 580 36 rr_6ucj 1 946 'assign ((residue 27 and name HD*) or (residue 27 and name HD1#) or (residue 27 and name HD2#) ) 4.9730123724 1.5432530931 1.5432530931 #med terminal methyl' 580 38 580 192 rr_6ucj 1 947 'assign (residue 30 and name HN ) and' 581 1 581 36 rr_6ucj 1 948 'assign (residue 28 and name HN ) 4.0671366823 1.0167841706 1.0167841706 #med' 581 38 581 113 rr_6ucj 1 949 'assign (residue 30 and name HN ) and' 582 1 582 36 rr_6ucj 1 950 'assign ((residue 28 and name HG2#) or (residue 28 and name HG2*) or (residue 28 and name HG1#) or (residue 28 and name HG1*) ) 4.7145089897 1.4786272474 1.4786272474 #med terminal methyl' 582 38 582 223 rr_6ucj 1 951 'assign (residue 30 and name HN ) and' 583 1 583 36 rr_6ucj 1 952 'assign ((residue 28 and name HG1#) or (residue 28 and name HG1*) or (residue 28 and name HG2#) or (residue 28 and name HG2*) ) 4.5083127377 1.4270781844 1.4270781844 #med terminal methyl' 583 38 583 223 rr_6ucj 1 953 'assign (residue 30 and name HN ) and' 584 1 584 36 rr_6ucj 1 954 'assign (residue 28 and name HB ) 4.8416976807 1.2104244202 1.2104244202 #med' 584 38 584 113 rr_6ucj 1 955 'assign (residue 30 and name HN ) and' 585 1 585 36 rr_6ucj 1 956 'assign (residue 28 and name HA ) 4.1543637306 1.0385909326 1.0385909326 #med' 585 38 585 113 rr_6ucj 1 957 'assign (residue 30 and name HN ) and' 586 1 586 36 rr_6ucj 1 958 'assign (residue 32 and name HN ) 4.4516973957 1.1129472942 1.1129472942 #med' 586 38 586 113 rr_6ucj 1 959 'assign (residue 31 and name HN ) and' 587 1 587 36 rr_6ucj 1 960 ; assign ((residue 29 and name HN) or (residue 30 and name HN) ) 2.731813431 0.6829533578 0.6829533578 #med #assign (residue 31 and name HN ) and assign (residue 29 and name HA ) 2.6291500543 0.6572875136 0.6572875136 #med same chemical shift as water ; 587 38 588 37 rr_6ucj 1 961 ; assign (residue 29 and name HA ) 2.6291500543 0.6572875136 0.6572875136 #med same chemical shift as water #assign (residue 32 and name HN ) and assign (residue 29 and name HA ) 3.0754679501 0.7688669875 0.7688669875 #med same chemical shift as water ; 588 39 589 37 rr_6ucj 1 962 'assign (residue 29 and name HA ) 3.0754679501 0.7688669875 0.7688669875 #med same chemical shift as water' 589 39 589 143 rr_6ucj 1 963 'assign (residue 32 and name HN ) and' 590 1 590 36 rr_6ucj 1 964 'assign ((residue 30 and name HB#) or (residue 30 and name HB*) ) 4.4172076819 1.1043019205 1.1043019205 #med' 590 38 590 145 rr_6ucj 1 965 'assign (residue 32 and name HN ) and' 591 1 591 36 rr_6ucj 1 966 'assign ((residue 34 and name HB#) or (residue 34 and name HB*) ) 4.9420171887 1.2355042972 1.2355042972 #med' 591 38 591 145 rr_6ucj 1 967 'assign (residue 32 and name HN ) and' 592 1 592 36 rr_6ucj 1 968 'assign (residue 30 and name HA ) 4.7714569659 1.1928642415 1.1928642415 #med' 592 38 592 113 rr_6ucj 1 969 'assign (residue 32 and name HN ) and' 593 1 593 36 rr_6ucj 1 970 'assign (residue 34 and name HN ) 3.0575841232 0.7643960308 0.7643960308 #med' 593 38 593 113 rr_6ucj 1 971 'assign (residue 33 and name HN ) and' 594 1 594 36 rr_6ucj 1 972 'assign ((residue 36 and name HB#) or (residue 36 and name HB*) ) 4.818641569 1.5046603923 1.5046603923 #med terminal methyl' 594 38 594 160 rr_6ucj 1 973 'assign (residue 33 and name HN ) and' 595 1 595 36 rr_6ucj 1 974 'assign ((residue 31 and name HB#) or (residue 31 and name HB*) ) 4.5316183733 1.1329045933 1.1329045933 #med' 595 38 595 145 rr_6ucj 1 975 'assign (residue 33 and name HN ) and' 596 1 596 36 rr_6ucj 1 976 'assign (residue 31 and name HA ) 4.5961880588 1.1490470147 1.1490470147 #med' 596 38 596 113 rr_6ucj 1 977 'assign (residue 34 and name HN ) and' 597 1 597 36 rr_6ucj 1 978 'assign ((residue 37 and name HD1#) or (residue 37 and name HD1*) or (residue 37 and name HG2#) or (residue 37 and name HG2*) ) 4.9183458949 1.5295864737 1.5295864737 #med terminal methyl' 597 38 597 223 rr_6ucj 1 979 'assign (residue 34 and name HN ) and' 598 1 598 36 rr_6ucj 1 980 'assign (residue 36 and name HN ) 5.00462146 1.251155365 1.251155365 #med' 598 38 598 109 rr_6ucj 1 981 'assign (residue 34 and name HN ) and' 599 1 599 36 rr_6ucj 1 982 'assign ((residue 32 and name HB#) or (residue 32 and name HB*) or (residue 33 and name HB*) ) 3.3487072407 0.8371768102 0.8371768102 #med' 599 38 599 174 rr_6ucj 1 983 'assign (residue 34 and name HN ) and' 600 1 600 36 rr_6ucj 1 984 'assign (residue 32 and name HA ) 4.7190751687 1.1797687922 1.1797687922 #med' 600 38 600 113 rr_6ucj 1 985 'assign (residue 35 and name HN ) and' 601 1 601 36 rr_6ucj 1 986 'assign (residue 33 and name HA ) 4.3090915185 1.0772728796 1.0772728796 #med' 601 38 601 113 rr_6ucj 1 987 'assign (residue 35 and name HN ) and' 602 1 602 36 rr_6ucj 1 988 'assign (residue 33 and name HN ) 4.9940587514 1.2485146879 1.2485146879 #med' 602 38 602 113 rr_6ucj 1 989 'assign (residue 36 and name HN ) and' 603 1 603 36 rr_6ucj 1 990 'assign (residue 33 and name HA ) 4.1242240746 1.0310560187 1.0310560187 #med' 603 38 603 113 rr_6ucj 1 991 'assign (residue 36 and name HN ) and' 604 1 604 36 rr_6ucj 1 992 'assign ((residue 32 and name HB#) or (residue 32 and name HB*) ) 4.7274122562 1.1818530641 1.1818530641 #med' 604 38 604 145 rr_6ucj 1 993 'assign (residue 36 and name HN ) and' 605 1 605 36 rr_6ucj 1 994 'assign ((residue 38 and name HB#) or (residue 38 and name HB*) ) 4.7361316948 1.1840329237 1.1840329237 #med' 605 38 605 145 rr_6ucj 1 995 'assign (residue 36 and name HN ) and' 606 1 606 36 rr_6ucj 1 996 'assign (residue 34 and name HN ) 3.8071987581 0.9517996895 0.9517996895 #med' 606 38 606 113 rr_6ucj 1 997 'assign (residue 36 and name HN ) and' 607 1 607 36 rr_6ucj 1 998 'assign (residue 34 and name HA ) 3.8316726821 0.9579181705 0.9579181705 #med' 607 38 607 113 rr_6ucj 1 999 'assign (residue 37 and name HN ) and' 608 1 608 36 rr_6ucj 1 1000 'assign (residue 34 and name HA ) 3.4136803642 0.853420091 0.853420091 #med' 608 38 608 111 rr_6ucj 1 1001 'assign (residue 38 and name HN ) and' 609 1 609 36 rr_6ucj 1 1002 'assign (residue 35 and name HA2 ) 4.5562987802 1.1390746951 1.1390746951 #med' 609 38 609 114 rr_6ucj 1 1003 'assign (residue 38 and name HN ) and' 610 1 610 36 rr_6ucj 1 1004 'assign ((residue 36 and name HB#) or (residue 36 and name HB*) ) 4.47939658 1.419849145 1.419849145 #med terminal methyl' 610 38 610 157 rr_6ucj 1 1005 'assign (residue 39 and name HN ) and' 611 1 611 36 rr_6ucj 1 1006 'assign (residue 35 and name HA2 ) 4.7853305461 1.1963326365 1.1963326365 #med' 611 38 611 114 rr_6ucj 1 1007 'assign (residue 39 and name HN ) and' 612 1 612 36 rr_6ucj 1 1008 'assign (residue 36 and name HB# ) 4.8159993455 1.5039998364 1.5039998364 #med terminal methyl' 612 38 612 130 rr_6ucj 1 1009 'assign (residue 39 and name HN ) and' 613 1 613 36 rr_6ucj 1 1010 'assign (residue 37 and name HB ) 4.8049952509 1.2012488127 1.2012488127 #med' 613 38 613 113 rr_6ucj 1 1011 'assign (residue 39 and name HN ) and' 614 1 614 36 rr_6ucj 1 1012 'assign ((residue 37 and name HD1# ) or (residue 37 and name HD1*) or (residue 37 and name HG2#) or (residue 37 and name HG2*) or (residue 38 and name HD*) or (residue 38 and name HD#)) 4.156158935 1.3390397337 1.3390397337 #med terminal methyl' 614 38 614 280 rr_6ucj 1 1013 'assign (residue 39 and name HN ) and' 615 1 615 36 rr_6ucj 1 1014 ; assign ((residue 37 and name HA) or ( residue 39 and name HB#) or (residue 39 and name HB*)) 2.5320977078 0.633024427 0.633024427 #med #assign (residue 40 and name HN ) and assign ((residue 37 and name HD1# ) or (residue 37 and name HD1*) or (residue 37 and name HG2*) or (residue 37 and name HG2# ) or ( residue 38 and name HD#) or (residue 38 and name HD*)) 4.0946747634 1.3236686908 1.3236686908 #med terminal methyl ; 615 38 616 37 rr_6ucj 1 1015 ; assign ((residue 37 and name HD1# ) or (residue 37 and name HD1*) or (residue 37 and name HG2*) or (residue 37 and name HG2# ) or ( residue 38 and name HD#) or (residue 38 and name HD*)) 4.0946747634 1.3236686908 1.3236686908 #med terminal methyl #assign (residue 40 and name HN ) and assign ((residue 37 and name HA) or ( residue 39 and name HB#) or (residue 39 and name HB*) ) 2.4957519662 0.6239379915 0.6239379915 #med ; 616 39 617 37 rr_6ucj 1 1016 ; assign ((residue 37 and name HA) or ( residue 39 and name HB#) or (residue 39 and name HB*) ) 2.4957519662 0.6239379915 0.6239379915 #med #assign (residue 40 and name HN ) and assign ((residue 38 and name HG) or (residue 38 and name HB*) ) 4.8462239548 1.2115559887 1.2115559887 #med ; 617 39 618 37 rr_6ucj 1 1017 ; assign ((residue 38 and name HG) or (residue 38 and name HB*) ) 4.8462239548 1.2115559887 1.2115559887 #med #assign (residue 40 and name HN ) and assign ((residue 42 and name HN) or (residue 44 and name HN) ) 4.4687525376 1.1171881344 1.1171881344 #med "S2 < 0.6" ; 618 39 619 37 rr_6ucj 1 1018 ; assign ((residue 42 and name HN) or (residue 44 and name HN) ) 4.4687525376 1.1171881344 1.1171881344 #med "S2 < 0.6" #assign (residue 40 and name HN ) and assign (residue 38 and name HA ) 3.7342911009 0.9335727752 0.9335727752 #med ; 619 39 620 37 rr_6ucj 1 1019 ; assign (residue 38 and name HA ) 3.7342911009 0.9335727752 0.9335727752 #med #assign (residue 40 and name HN ) and assign ((residue 38 and name HN) or (residue 39 and name HN) ) 2.4488708262 0.6122177065 0.6122177065 #med ; 620 39 621 37 rr_6ucj 1 1020 ; assign ((residue 38 and name HN) or (residue 39 and name HN) ) 2.4488708262 0.6122177065 0.6122177065 #med #assign (residue 41 and name HN ) and assign ((residue 37 and name HD1#) or (residue 37 and name HD1*) or (residue 37 and name HG2#) or (residue 37 and name HG2*) ) 4.8925351264 1.5231337816 1.5231337816 #med terminal methyl ; 621 39 622 37 rr_6ucj 1 1021 ; assign ((residue 37 and name HD1#) or (residue 37 and name HD1*) or (residue 37 and name HG2#) or (residue 37 and name HG2*) ) 4.8925351264 1.5231337816 1.5231337816 #med terminal methyl #assign (residue 41 and name HN ) and assign ((residue 38 and name HD*) or (residue 38 and name HD#) ) 4.9149213182 1.5287303295 1.5287303295 #med terminal methyl ; 622 39 623 37 rr_6ucj 1 1022 ; assign ((residue 38 and name HD*) or (residue 38 and name HD#) ) 4.9149213182 1.5287303295 1.5287303295 #med terminal methyl #assign (residue 41 and name HN ) and assign ((residue 39 and name HB#) or (residue 39 and name HB*) ) 3.5404634265 0.8851158566 0.8851158566 #med ; 623 39 624 37 rr_6ucj 1 1023 ; assign ((residue 39 and name HB#) or (residue 39 and name HB*) ) 3.5404634265 0.8851158566 0.8851158566 #med #assign (residue 42 and name HN ) and assign ((residue 44 and name HA1 ) or (residue 40 and name HB# ) or (residue 40 and name HB*)) 4.778532134 1.1946330335 1.1946330335 #med "S2 < 0.6" ; 624 39 625 37 rr_6ucj 1 1024 ; assign ((residue 44 and name HA1 ) or (residue 40 and name HB# ) or (residue 40 and name HB*)) 4.778532134 1.1946330335 1.1946330335 #med "S2 < 0.6" #assign (residue 42 and name HN ) and assign ((residue 40 and name HN) or ( residue 43 and name HN) ) 2.8595558051 0.7148889513 0.7148889513 #med "S2 < 0.6" ; 625 39 626 37 rr_6ucj 1 1025 ; assign ((residue 40 and name HN) or ( residue 43 and name HN) ) 2.8595558051 0.7148889513 0.7148889513 #med "S2 < 0.6" #assign (residue 42 and name HN ) and assign (residue 40 and name HA ) 4.6592898918 1.164822473 1.164822473 #med "S2 < 0.6" ; 626 39 627 37 rr_6ucj 1 1026 ; assign (residue 40 and name HA ) 4.6592898918 1.164822473 1.164822473 #med "S2 < 0.6" #assign (residue 43 and name HN ) and assign (residue 41 and name HA ) 3.6041314811 0.9010328703 0.9010328703 #med "S2 < 0.6" ; 627 39 628 37 rr_6ucj 1 1027 ; assign (residue 41 and name HA ) 3.6041314811 0.9010328703 0.9010328703 #med "S2 < 0.6" #assign (residue 43 and name HN ) and assign ((residue 41 and name HG2#) or (residue 41 and name HG2*) ) 4.076972081 1.0192430203 1.0192430203 #med "S2 < 0.6" ; 628 39 629 37 rr_6ucj 1 1028 ; assign ((residue 41 and name HG2#) or (residue 41 and name HG2*) ) 4.076972081 1.0192430203 1.0192430203 #med "S2 < 0.6" #assign (residue 43 and name HN ) and assign (residue 41 and name HB ) 3.7881772961 0.947044324 0.947044324 #med "S2 < 0.6" ; 629 39 630 37 rr_6ucj 1 1029 ; assign (residue 41 and name HB ) 3.7881772961 0.947044324 0.947044324 #med "S2 < 0.6" #assign (residue 44 and name HN ) and assign ((residue 47 and name HG2#) or (residue 47 and name HG2*) ) 4.9876986759 1.246924669 1.246924669 #med "S2 < 0.6" ; 630 39 631 37 rr_6ucj 1 1030 ; assign ((residue 47 and name HG2#) or (residue 47 and name HG2*) ) 4.9876986759 1.246924669 1.246924669 #med "S2 < 0.6" #assign (residue 44 and name HN ) and assign (residue 42 and name HA ) 4.4752069802 1.1188017451 1.1188017451 #med "S2 < 0.6" ; 631 39 632 37 rr_6ucj 1 1031 ; assign (residue 42 and name HA ) 4.4752069802 1.1188017451 1.1188017451 #med "S2 < 0.6" #assign (residue 45 and name HN ) and assign ((residue 42 and name HA) or ( residue 46 and name HA) ) 4.1383523008 1.0345880752 1.0345880752 #med "S2 < 0.6" ; 632 39 633 37 rr_6ucj 1 1032 ; assign ((residue 42 and name HA) or ( residue 46 and name HA) ) 4.1383523008 1.0345880752 1.0345880752 #med "S2 < 0.6" #assign (residue 45 and name HN ) and assign ((residue 43 and name HG#) or (residue 43 and name HG*)) 3.8646680046 0.9661670012 0.9661670012 #med "S2 < 0.6" ; 633 39 634 37 rr_6ucj 1 1033 ; assign ((residue 43 and name HG#) or (residue 43 and name HG*)) 3.8646680046 0.9661670012 0.9661670012 #med "S2 < 0.6" #assign (residue 45 and name HN ) and assign (residue 43 and name HA ) 3.7451721211 0.9362930303 0.9362930303 #med "S2 < 0.6" ; 634 39 635 37 rr_6ucj 1 1034 ; assign (residue 43 and name HA ) 3.7451721211 0.9362930303 0.9362930303 #med "S2 < 0.6" #assign (residue 45 and name HN ) and assign (residue 47 and name HN ) 3.3439960515 0.8359990129 0.8359990129 #med "S2 < 0.6" ; 635 39 636 37 rr_6ucj 1 1035 ; assign (residue 47 and name HN ) 3.3439960515 0.8359990129 0.8359990129 #med "S2 < 0.6" #assign (residue 46 and name HN ) and assign ((residue 48 and name HN) or (residue 45 and name HN) ) 4.2102431444 1.0525607861 1.0525607861 #med "S2 < 0.6" ; 636 39 637 37 rr_6ucj 1 1036 ; assign ((residue 48 and name HN) or (residue 45 and name HN) ) 4.2102431444 1.0525607861 1.0525607861 #med "S2 < 0.6" #assign (residue 46 and name HN ) and assign (residue 44 and name HA2 ) 3.2539768836 0.8134942209 0.8134942209 #med "S2 < 0.6" ; 637 39 638 37 rr_6ucj 1 1037 ; assign (residue 44 and name HA2 ) 3.2539768836 0.8134942209 0.8134942209 #med "S2 < 0.6" #assign (residue 47 and name HN ) and assign ((residue 44 and name HA2) or (residue 45 and name HB2) ) 4.6556732817 1.1639183204 1.1639183204 #med "S2 < 0.6" ; 638 39 639 37 rr_6ucj 1 1038 ; assign ((residue 44 and name HA2) or (residue 45 and name HB2) ) 4.6556732817 1.1639183204 1.1639183204 #med "S2 < 0.6" #assign (residue 47 and name HN ) and assign (residue 45 and name HA ) 4.423658484 1.105914621 1.105914621 #med "S2 < 0.6" ; 639 39 640 37 rr_6ucj 1 1039 ; assign (residue 45 and name HA ) 4.423658484 1.105914621 1.105914621 #med "S2 < 0.6" #assign (residue 47 and name HN ) and assign ((residue 49 and name HA#) or (residue 49 and name HA*) or (residue 45 and name HB1) ) 3.995217615 0.9988044038 0.9988044038 #med "S2 < 0.6" ; 640 39 641 37 rr_6ucj 1 1040 ; assign ((residue 49 and name HA#) or (residue 49 and name HA*) or (residue 45 and name HB1) ) 3.995217615 0.9988044038 0.9988044038 #med "S2 < 0.6" #assign (residue 47 and name HN ) and assign (residue 49 and name HN ) 4.1238185434 1.0309546358 1.0309546358 #med "S2 < 0.6" ; 641 39 642 37 rr_6ucj 1 1041 ; assign (residue 49 and name HN ) 4.1238185434 1.0309546358 1.0309546358 #med "S2 < 0.6" #assign (residue 47 and name HN ) and assign (residue 45 and name HN ) 4.0636793456 1.0159198364 1.0159198364 #med "S2 < 0.6" ; 642 39 643 37 rr_6ucj 1 1042 ; assign (residue 45 and name HN ) 4.0636793456 1.0159198364 1.0159198364 #med "S2 < 0.6" #assign (residue 48 and name HN ) and assign ((residue 44 and name HA2) or (residue 45 and name HB2) ) 4.6959627345 1.1739906836 1.1739906836 #med "S2 < 0.6" ; 643 39 644 37 rr_6ucj 1 1043 ; assign ((residue 44 and name HA2) or (residue 45 and name HB2) ) 4.6959627345 1.1739906836 1.1739906836 #med "S2 < 0.6" #assign (residue 48 and name HN ) and assign (residue 45 and name HA ) 5.1122785598 1.27806964 1.27806964 #med "S2 < 0.6" ; 644 39 645 37 rr_6ucj 1 1044 ; assign (residue 45 and name HA ) 5.1122785598 1.27806964 1.27806964 #med "S2 < 0.6" #assign (residue 48 and name HN ) and assign (residue 46 and name HA ) 4.6761820938 1.1690455235 1.1690455235 #med "S2 < 0.6" ; 645 39 646 37 rr_6ucj 1 1045 ; assign (residue 46 and name HA ) 4.6761820938 1.1690455235 1.1690455235 #med "S2 < 0.6" #assign (residue 48 and name HN ) and assign ((residue 46 and name HB#) or (residue 46 and name HB*) ) 4.4502276512 1.1125569128 1.1125569128 #med "S2 < 0.6" ; 646 39 647 37 rr_6ucj 1 1046 ; assign ((residue 46 and name HB#) or (residue 46 and name HB*) ) 4.4502276512 1.1125569128 1.1125569128 #med "S2 < 0.6" #assign (residue 48 and name HN ) and assign (residue 46 and name HN ) 4.8078695476 1.2019673869 1.2019673869 #med "S2 < 0.6" ; 647 39 648 37 rr_6ucj 1 1047 ; assign (residue 46 and name HN ) 4.8078695476 1.2019673869 1.2019673869 #med "S2 < 0.6" #assign (residue 49 and name HN ) and assign ((residue 46 and name HB#) or (residue 52 and name HB#) or (residue 46 and name HB*) or (residue 52 and name HB*) ) 3.8533354742 0.9633338686 0.9633338686 #med "S2 < 0.6" ; 648 39 649 37 rr_6ucj 1 1048 ; assign ((residue 46 and name HB#) or (residue 52 and name HB#) or (residue 46 and name HB*) or (residue 52 and name HB*) ) 3.8533354742 0.9633338686 0.9633338686 #med "S2 < 0.6" #assign (residue 49 and name HN ) and assign ((residue 47 and name HG2#) or (residue 47 and name HG2*) ) 4.7933651729 1.1983412932 1.1983412932 #med "S2 < 0.6" ; 649 39 650 37 rr_6ucj 1 1049 ; assign ((residue 47 and name HG2#) or (residue 47 and name HG2*) ) 4.7933651729 1.1983412932 1.1983412932 #med "S2 < 0.6" #assign (residue 49 and name HN ) and assign (residue 47 and name HN ) 4.6108148483 1.1527037121 1.1527037121 #med "S2 < 0.6" ; 650 39 651 37 rr_6ucj 1 1050 ; assign (residue 47 and name HN ) 4.6108148483 1.1527037121 1.1527037121 #med "S2 < 0.6" #assign (residue 50 and name HN ) and assign (residue 48 and name HA ) 4.8582380457 1.2145595114 1.2145595114 #med "S2 < 0.6" ; 651 39 652 37 rr_6ucj 1 1051 'assign (residue 48 and name HA ) 4.8582380457 1.2145595114 1.2145595114 #med "S2 < 0.6"' 652 39 652 125 rr_6ucj 1 1052 'assign (residue 51 and name HN ) and' 653 1 653 36 rr_6ucj 1 1053 'assign ((residue 53 and name HN) or (residue 52 and name HN) ) 2.7298738771 0.6824684693 0.6824684693 #med' 653 38 653 143 rr_6ucj 1 1054 'assign (residue 52 and name HN ) and' 654 1 654 36 rr_6ucj 1 1055 'assign ((residue 55 and name HG#) or (residue 55 and name HG*) ) 6.497039784 1.624259946 1.624259946 #med' 654 38 654 142 rr_6ucj 1 1056 'assign (residue 52 and name HN ) and' 655 1 655 36 rr_6ucj 1 1057 'assign ((residue 54 and name HG1#) or (residue 54 and name HG1*) or (residue 54 and name HG2#) or (residue 54 and name HG2*) ) 4.8233426406 1.5058356602 1.5058356602 #med terminal methyl' 655 38 655 223 rr_6ucj 1 1058 'assign (residue 52 and name HN ) and' 656 1 656 36 rr_6ucj 1 1059 'assign (residue 54 and name HN ) 4.8431648888 1.2107912222 1.2107912222 #med' 656 38 656 113 rr_6ucj 1 1060 'assign (residue 53 and name HN ) and' 657 1 657 36 rr_6ucj 1 1061 'assign (residue 55 and name HN ) 4.6274641642 1.156866041 1.156866041 #med' 657 38 657 111 rr_6ucj 1 1062 'assign (residue 53 and name HN ) and' 658 1 658 36 rr_6ucj 1 1063 'assign (residue 51 and name HA ) 3.9410165303 0.9852541326 0.9852541326 #med' 658 38 658 113 rr_6ucj 1 1064 'assign (residue 53 and name HN ) and' 659 1 659 36 rr_6ucj 1 1065 'assign ((residue 51 and name HB#) or (residue 51 and name HB*)) 4.8097938403 1.2024484601 1.2024484601 #med' 659 38 659 144 rr_6ucj 1 1066 'assign (residue 54 and name HN ) and' 660 1 660 36 rr_6ucj 1 1067 'assign (residue 51 and name HA ) 4.1631879745 1.0407969936 1.0407969936 #med' 660 38 660 113 rr_6ucj 1 1068 'assign (residue 54 and name HN ) and' 661 1 661 36 rr_6ucj 1 1069 'assign ((residue 57 and name HD#) or (residue 57 and name HD*)) 4.8753871705 1.5188467926 1.5188467926 #med terminal methyl' 661 38 661 160 rr_6ucj 1 1070 'assign (residue 54 and name HN ) and' 662 1 662 36 rr_6ucj 1 1071 'assign ((residue 52 and name HN) or (residue 53 and name HN) ) 2.6813744173 0.6703436043 0.6703436043 #med' 662 38 662 143 rr_6ucj 1 1072 'assign (residue 54 and name HN ) and' 663 1 663 36 rr_6ucj 1 1073 'assign (residue 52 and name HD2* ) 4.3508307361 1.087707684 1.087707684 #med' 663 38 663 113 rr_6ucj 1 1074 'assign (residue 54 and name HN ) and' 664 1 664 36 rr_6ucj 1 1075 'assign (residue 52 and name HA ) 4.3407319468 1.0851829867 1.0851829867 #med' 664 38 664 113 rr_6ucj 1 1076 'assign (residue 55 and name HN ) and' 665 1 665 36 rr_6ucj 1 1077 'assign ((residue 53 and name HB#) or (residue 53 and name HB*) ) 4.7485012027 1.4871253007 1.4871253007 #med terminal methyl' 665 38 665 161 rr_6ucj 1 1078 'assign (residue 55 and name HN ) and' 666 1 666 36 rr_6ucj 1 1079 'assign (residue 51 and name HA ) 4.9485691555 1.2371422889 1.2371422889 #med' 666 38 666 113 rr_6ucj 1 1080 'assign (residue 55 and name HN ) and' 667 1 667 36 rr_6ucj 1 1081 'assign (residue 52 and name HA ) 3.8662456504 0.9665614126 0.9665614126 #med' 667 38 667 113 rr_6ucj 1 1082 'assign (residue 55 and name HN ) and' 668 1 668 36 rr_6ucj 1 1083 'assign (residue 53 and name HN ) 4.4269435748 1.1067358937 1.1067358937 #med' 668 38 668 113 rr_6ucj 1 1084 'assign (residue 56 and name HN ) and' 669 1 669 36 rr_6ucj 1 1085 'assign (residue 52 and name HA ) 4.9391751584 1.2347937896 1.2347937896 #med' 669 38 669 113 rr_6ucj 1 1086 'assign (residue 56 and name HN ) and' 670 1 670 36 rr_6ucj 1 1087 'assign ((residue 52 and name HB#) or (residue 52 and name HB*) ) 5.0241754536 1.2560438634 1.2560438634 #med' 670 38 670 145 rr_6ucj 1 1088 'assign (residue 56 and name HN ) and' 671 1 671 36 rr_6ucj 1 1089 'assign ((residue 53 and name HB#) or (residue 53 and name HB*) ) 4.6731916728 1.4682979182 1.4682979182 #med terminal methyl' 671 38 671 161 rr_6ucj 1 1090 'assign (residue 56 and name HN ) and' 672 1 672 36 rr_6ucj 1 1091 'assign (residue 54 and name HA ) 4.8754966303 1.2188741576 1.2188741576 #med' 672 38 672 113 rr_6ucj 1 1092 'assign (residue 57 and name HN ) and' 673 1 673 36 rr_6ucj 1 1093 'assign ((residue 54 and name HB) or (residue 56 and name HB) ) 3.2048074683 0.8012018671 0.8012018671 #med' 673 38 673 143 rr_6ucj 1 1094 'assign (residue 57 and name HN ) and' 674 1 674 36 rr_6ucj 1 1095 'assign (residue 54 and name HA ) 3.9494640735 0.9873660184 0.9873660184 #med' 674 38 674 113 rr_6ucj 1 1096 'assign (residue 58 and name HN ) and' 675 1 675 36 rr_6ucj 1 1097 'assign ((residue 56 and name HG1#) or (residue 56 and name HG1*) or (residue 56 and name HG2#) or (residue 56 and name HG2*) ) 4.6784440177 1.4696110044 1.4696110044 #med terminal methyl' 675 38 675 223 rr_6ucj 1 1098 'assign (residue 58 and name HN ) and' 676 1 676 36 rr_6ucj 1 1099 'assign ((residue 56 and name HG2#) or (residue 56 and name HG2*) or (residue 56 and name HG1#) or (residue 56 and name HG1*) ) 4.3617554497 1.3904388624 1.3904388624 #med terminal methyl' 676 38 676 223 rr_6ucj 1 1100 'assign (residue 58 and name HN ) and' 677 1 677 36 rr_6ucj 1 1101 'assign (residue 56 and name HA ) 5.2983286681 1.324582167 1.324582167 #med' 677 38 677 111 rr_6ucj 1 1102 'assign (residue 59 and name HN ) and' 678 1 678 36 rr_6ucj 1 1103 'assign ((residue 61 and name HB*) or ( residue 59 and name HB*) or (residue 59 and name HB#) or (residue 58 and name HB*) or (residue 58 and name HB#) or (residue 57 and name HG)) 3.4294910645 3.429 0.8573727661 #med' 678 38 678 253 rr_6ucj 1 1104 'assign (residue 60 and name HN ) and' 679 1 679 36 rr_6ucj 1 1105 'assign ((residue 63 and name HB#) or (residue 63 and name HB*) ) 4.7961558331 1.1990389583 1.1990389583 #med' 679 38 679 145 rr_6ucj 1 1106 'assign (residue 60 and name HN ) and' 680 1 680 36 rr_6ucj 1 1107 'assign (residue 58 and name HA ) 3.4967510707 0.8741877677 0.8741877677 #med' 680 38 680 113 rr_6ucj 1 1108 'assign (residue 60 and name HN ) and' 681 1 681 36 rr_6ucj 1 1109 'assign ((residue 62 and name HD1#) or (residue 62 and name HD1*) or (residue 62 and name HD2*) or (residue 62 and name HD2#) or (residue 56 and name HG2#) or (residue 56 and name HG2*) ) 3.9456332359 1.286408309 1.286408309 #med terminal methyl' 681 38 681 281 rr_6ucj 1 1110 'assign (residue 60 and name HN ) and' 682 1 682 36 rr_6ucj 1 1111 'assign ((residue 62 and name HB#) or (residue 62 and name HB*) ) 4.8805623922 1.2201405981 1.2201405981 #med' 682 38 682 145 rr_6ucj 1 1112 'assign (residue 62 and name HN ) and' 683 1 683 36 rr_6ucj 1 1113 'assign ((residue 65 and name HB#) or (residue 65 and name HB*) ) 4.8410548837 1.2102637209 1.2102637209 #med' 683 38 683 145 rr_6ucj 1 1114 'assign (residue 62 and name HN ) and' 684 1 684 36 rr_6ucj 1 1115 'assign (residue 64 and name HB1 ) 4.7121297361 1.178032434 1.178032434 #med' 684 38 684 112 rr_6ucj 1 1116 'assign (residue 62 and name HN ) and' 685 1 685 36 rr_6ucj 1 1117 'assign (residue 60 and name HA ) 4.1874570283 1.0468642571 1.0468642571 #med' 685 38 685 113 rr_6ucj 1 1118 'assign (residue 62 and name HN ) and' 686 1 686 36 rr_6ucj 1 1119 'assign (residue 64 and name HN ) 4.8154067292 1.2038516823 1.2038516823 #med' 686 38 686 113 rr_6ucj 1 1120 'assign (residue 63 and name HN ) and' 687 1 687 36 rr_6ucj 1 1121 'assign (residue 65 and name HN ) 4.574742701 1.1436856753 1.1436856753 #med' 687 38 687 112 rr_6ucj 1 1122 'assign (residue 63 and name HN ) and' 688 1 688 36 rr_6ucj 1 1123 'assign ((residue 65 and name HD#) or (residue 65 and name HD*) ) 5.136378126 1.2840945315 1.2840945315 #med' 688 38 688 144 rr_6ucj 1 1124 'assign (residue 63 and name HN ) and' 689 1 689 36 rr_6ucj 1 1125 'assign (residue 61 and name HA ) 3.9672111989 0.9918027997 0.9918027997 #med' 689 38 689 113 rr_6ucj 1 1126 'assign (residue 63 and name HN ) and' 690 1 690 36 rr_6ucj 1 1127 'assign (residue 61 and name HB* ) 5.3234549094 1.3308637273 1.3308637273 #med' 690 38 690 114 rr_6ucj 1 1128 'assign (residue 64 and name HN ) and' 691 1 691 36 rr_6ucj 1 1129 'assign (residue 61 and name HA ) 2.9604137188 0.7401034297 0.7401034297 #med' 691 38 691 113 rr_6ucj 1 1130 'assign (residue 64 and name HN ) and' 692 1 692 36 rr_6ucj 1 1131 ; assign (residue 62 and name HA ) 3.7854908404 0.9463727101 0.9463727101 #med #assign (residue 64 and name HN ) and assign ((residue 66 and name HA) or (residue 61 and name HA) ) 2.7758979482 0.693974487 0.693974487 #med "S2 < 0.6" ; 692 38 693 37 rr_6ucj 1 1132 'assign ((residue 66 and name HA) or (residue 61 and name HA) ) 2.7758979482 0.693974487 0.693974487 #med "S2 < 0.6"' 693 39 693 153 rr_6ucj 1 1133 'assign (residue 64 and name HN ) and' 694 1 694 36 rr_6ucj 1 1134 'assign ((residue 62 and name HD2#) or (residue 62 and name HD2*) or (residue 62 and name HD1#) or (residue 62 and name HD1*) ) 4.2660967842 1.3665241961 1.3665241961 #med terminal methyl' 694 38 694 223 rr_6ucj 1 1135 'assign (residue 64 and name HN ) and' 695 1 695 36 rr_6ucj 1 1136 'assign (residue 62 and name HN ) 2.9960474392 0.7490118598 0.7490118598 #med' 695 38 695 113 rr_6ucj 1 1137 'assign (residue 65 and name HN ) and' 696 1 696 36 rr_6ucj 1 1138 'assign (residue 62 and name HA ) 4.627267936 1.156816984 1.156816984 #med' 696 38 696 110 rr_6ucj 1 1139 'assign (residue 65 and name HN ) and' 697 1 697 36 rr_6ucj 1 1140 'assign ((residue 63 and name HB#) or (residue 63 and name HB*) ) 5.1304290629 1.2826072657 1.2826072657 #med' 697 38 697 145 rr_6ucj 1 1141 'assign (residue 65 and name HN ) and' 698 1 698 36 rr_6ucj 1 1142 ; assign (residue 63 and name HN ) 4.9188461258 1.2297115315 1.2297115315 #med #assign (residue 67 and name HN ) and assign ((residue 65 and name HB#) or (residue 65 and name HB*) or (residue 68 and name HG#) or (residue 68 and name HG*) or (residue 69 and name HG#) or (residue 69 and name HG*) ) 4.4881869155 1.1220467289 1.1220467289 #med "S2 < 0.6" ; 698 38 699 37 rr_6ucj 1 1143 ; assign ((residue 65 and name HB#) or (residue 65 and name HB*) or (residue 68 and name HG#) or (residue 68 and name HG*) or (residue 69 and name HG#) or (residue 69 and name HG*) ) 4.4881869155 1.1220467289 1.1220467289 #med "S2 < 0.6" #assign (residue 67 and name HN ) and assign ((residue 65 and name HA) or (residue 66 and name HA) ) 2.291540739 0.5728851847 0.5728851847 #med "S2 < 0.6" ; 699 39 700 37 rr_6ucj 1 1144 ; assign ((residue 65 and name HA) or (residue 66 and name HA) ) 2.291540739 0.5728851847 0.5728851847 #med "S2 < 0.6" #assign (residue 68 and name HN ) and assign ((residue 65 and name HA) or (residue 66 and name HA) ) 2.9754727733 0.7438681933 0.7438681933 #med "S2 < 0.6" ; 700 39 701 37 rr_6ucj 1 1145 'assign ((residue 65 and name HA) or (residue 66 and name HA) ) 2.9754727733 0.7438681933 0.7438681933 #med "S2 < 0.6" #long' 701 39 703 5 rr_6ucj 1 1146 'assign (residue 13 and name HN ) and' 704 1 704 37 rr_6ucj 1 1147 'assign ((residue 18 and name HB#) or (residue 18 and name HB*)) 5.0946787899 1.2736696975 1.2736696975 #long' 704 39 704 157 rr_6ucj 1 1148 'assign (residue 18 and name HN ) and' 705 1 705 37 rr_6ucj 1 1149 'assign ((residue 13 and name HB#) or (residue 13 and name HB*)) 5.0406500595 1.2601625149 1.2601625149 #long' 705 39 705 157 rr_6ucj 1 1150 'assign (residue 19 and name HN ) and' 706 1 706 37 rr_6ucj 1 1151 'assign ((residue 13 and name HB#) or (residue 13 and name HB*)) 4.8121691996 1.2030422999 1.2030422999 #long' 706 39 706 157 rr_6ucj 1 1152 'assign (residue 31 and name HN ) and' 707 1 707 37 rr_6ucj 1 1153 'assign ((residue 26 and name HD*) or (residue 26 and name HE*) or (residue 26 and name HD#) or (residue 26 and name HE#) or (residue 26 and name HZ)) 4.7588284356 1.1897071089 1.1897071089 #long' 707 39 707 245 rr_6ucj 1 stop_ save_ save_CNS/XPLOR_distance_constraints_3 _Gen_dist_constraint_list.Sf_category general_distance_constraints _Gen_dist_constraint_list.Sf_framecode CNS/XPLOR_distance_constraints_3 _Gen_dist_constraint_list.Entry_ID rr_6ucj _Gen_dist_constraint_list.ID 1 _Gen_dist_constraint_list.Constraint_type 'hydrogen bond' _Gen_dist_constraint_list.Details 'Generated by Wattos' _Gen_dist_constraint_list.Constraint_file_ID 1 _Gen_dist_constraint_list.Block_ID 3 loop_ _Gen_dist_constraint_software.Software_ID _Gen_dist_constraint_software.Software_label _Gen_dist_constraint_software.Method_ID _Gen_dist_constraint_software.Method_label _Gen_dist_constraint_software.Entry_ID _Gen_dist_constraint_software.Gen_dist_constraint_list_ID . . . . rr_6ucj 2 stop_ loop_ _Gen_dist_constraint_parse_err.ID _Gen_dist_constraint_parse_err.Content _Gen_dist_constraint_parse_err.Begin_line _Gen_dist_constraint_parse_err.Begin_column _Gen_dist_constraint_parse_err.End_line _Gen_dist_constraint_parse_err.End_column _Gen_dist_constraint_parse_err.Entry_ID _Gen_dist_constraint_parse_err.Gen_dist_constraint_list_ID 1 '# Restraints file 5: D_1000244371_mr_P4.xplor-nih.V1' 1 1 1 52 rr_6ucj 2 2 'assi (acc and resi 16 and name O) (don and resi 20 and name HN)' 2 1 2 115 rr_6ucj 2 3 'assi (acc and resi 17 and name O) (don and resi 21 and name HN)' 3 1 3 115 rr_6ucj 2 4 'assi (acc and resi 18 and name O) (don and resi 22 and name HN)' 4 1 4 115 rr_6ucj 2 5 'assi (acc and resi 19 and name O) (don and resi 23 and name HN)' 5 1 5 115 rr_6ucj 2 6 'assi (acc and resi 20 and name O) (don and resi 24 and name HN)' 6 1 6 115 rr_6ucj 2 7 'assi (acc and resi 21 and name O) (don and resi 25 and name HN)' 7 1 7 115 rr_6ucj 2 8 'assi (acc and resi 22 and name O) (don and resi 26 and name HN)' 8 1 8 115 rr_6ucj 2 9 'assi (acc and resi 23 and name O) (don and resi 27 and name HN)' 9 1 9 115 rr_6ucj 2 10 'assi (acc and resi 24 and name O) (don and resi 28 and name HN)' 10 1 10 115 rr_6ucj 2 11 'assi (acc and resi 32 and name O) (don and resi 36 and name HN)' 11 1 11 115 rr_6ucj 2 12 'assi (acc and resi 33 and name O) (don and resi 37 and name HN)' 12 1 12 115 rr_6ucj 2 13 'assi (acc and resi 34 and name O) (don and resi 38 and name HN)' 13 1 13 115 rr_6ucj 2 14 'assi (acc and resi 35 and name O) (don and resi 39 and name HN)' 14 1 14 115 rr_6ucj 2 15 'assi (acc and resi 51 and name O) (don and resi 55 and name HN)' 15 1 15 115 rr_6ucj 2 16 'assi (acc and resi 52 and name O) (don and resi 56 and name HN)' 16 1 16 115 rr_6ucj 2 17 'assi (acc and resi 53 and name O) (don and resi 57 and name HN)' 17 1 17 115 rr_6ucj 2 18 'assi (acc and resi 54 and name O) (don and resi 58 and name HN)' 18 1 18 115 rr_6ucj 2 19 'assi (acc and resi 55 and name O) (don and resi 59 and name HN)' 19 1 19 115 rr_6ucj 2 20 'assi (acc and resi 61 and name O) (don and resi 64 and name HN)' 20 1 20 115 rr_6ucj 2 21 'assi (acc and resi 61 and name O) (don and resi 65 and name HN)' 21 1 21 115 rr_6ucj 2 stop_ save_ save_CNS/XPLOR_dihedral_4 _Torsion_angle_constraint_list.Sf_category torsion_angle_constraints _Torsion_angle_constraint_list.Sf_framecode CNS/XPLOR_dihedral_4 _Torsion_angle_constraint_list.Entry_ID rr_6ucj _Torsion_angle_constraint_list.ID 1 _Torsion_angle_constraint_list.Details 'Generated by Wattos' _Torsion_angle_constraint_list.Constraint_file_ID 1 _Torsion_angle_constraint_list.Block_ID 4 loop_ _Torsion_angle_constraint_software.Software_ID _Torsion_angle_constraint_software.Software_label _Torsion_angle_constraint_software.Method_ID _Torsion_angle_constraint_software.Method_label _Torsion_angle_constraint_software.Entry_ID _Torsion_angle_constraint_software.Torsion_angle_constraint_list_ID . . . . rr_6ucj 1 stop_ loop_ _Torsion_angle_constraint.ID _Torsion_angle_constraint.Torsion_angle_name _Torsion_angle_constraint.Assembly_atom_ID_1 _Torsion_angle_constraint.Entity_assembly_ID_1 _Torsion_angle_constraint.Entity_ID_1 _Torsion_angle_constraint.Comp_index_ID_1 _Torsion_angle_constraint.Seq_ID_1 _Torsion_angle_constraint.Comp_ID_1 _Torsion_angle_constraint.Atom_ID_1 _Torsion_angle_constraint.Atom_type_1 _Torsion_angle_constraint.Resonance_ID_1 _Torsion_angle_constraint.Assembly_atom_ID_2 _Torsion_angle_constraint.Entity_assembly_ID_2 _Torsion_angle_constraint.Entity_ID_2 _Torsion_angle_constraint.Comp_index_ID_2 _Torsion_angle_constraint.Seq_ID_2 _Torsion_angle_constraint.Comp_ID_2 _Torsion_angle_constraint.Atom_ID_2 _Torsion_angle_constraint.Atom_type_2 _Torsion_angle_constraint.Resonance_ID_2 _Torsion_angle_constraint.Assembly_atom_ID_3 _Torsion_angle_constraint.Entity_assembly_ID_3 _Torsion_angle_constraint.Entity_ID_3 _Torsion_angle_constraint.Comp_index_ID_3 _Torsion_angle_constraint.Seq_ID_3 _Torsion_angle_constraint.Comp_ID_3 _Torsion_angle_constraint.Atom_ID_3 _Torsion_angle_constraint.Atom_type_3 _Torsion_angle_constraint.Resonance_ID_3 _Torsion_angle_constraint.Assembly_atom_ID_4 _Torsion_angle_constraint.Entity_assembly_ID_4 _Torsion_angle_constraint.Entity_ID_4 _Torsion_angle_constraint.Comp_index_ID_4 _Torsion_angle_constraint.Seq_ID_4 _Torsion_angle_constraint.Comp_ID_4 _Torsion_angle_constraint.Atom_ID_4 _Torsion_angle_constraint.Atom_type_4 _Torsion_angle_constraint.Resonance_ID_4 _Torsion_angle_constraint.Angle_lower_bound_val _Torsion_angle_constraint.Angle_upper_bound_val _Torsion_angle_constraint.Source_experiment_ID _Torsion_angle_constraint.PDB_record_ID_1 _Torsion_angle_constraint.PDB_model_num_1 _Torsion_angle_constraint.PDB_strand_ID_1 _Torsion_angle_constraint.PDB_ins_code_1 _Torsion_angle_constraint.PDB_residue_no_1 _Torsion_angle_constraint.PDB_residue_name_1 _Torsion_angle_constraint.PDB_atom_name_1 _Torsion_angle_constraint.PDB_record_ID_2 _Torsion_angle_constraint.PDB_model_num_2 _Torsion_angle_constraint.PDB_strand_ID_2 _Torsion_angle_constraint.PDB_ins_code_2 _Torsion_angle_constraint.PDB_residue_no_2 _Torsion_angle_constraint.PDB_residue_name_2 _Torsion_angle_constraint.PDB_atom_name_2 _Torsion_angle_constraint.PDB_record_ID_3 _Torsion_angle_constraint.PDB_model_num_3 _Torsion_angle_constraint.PDB_strand_ID_3 _Torsion_angle_constraint.PDB_ins_code_3 _Torsion_angle_constraint.PDB_residue_no_3 _Torsion_angle_constraint.PDB_residue_name_3 _Torsion_angle_constraint.PDB_atom_name_3 _Torsion_angle_constraint.PDB_record_ID_4 _Torsion_angle_constraint.PDB_model_num_4 _Torsion_angle_constraint.PDB_strand_ID_4 _Torsion_angle_constraint.PDB_ins_code_4 _Torsion_angle_constraint.PDB_residue_no_4 _Torsion_angle_constraint.PDB_residue_name_4 _Torsion_angle_constraint.PDB_atom_name_4 _Torsion_angle_constraint.Auth_entity_assembly_ID_1 _Torsion_angle_constraint.Auth_asym_ID_1 _Torsion_angle_constraint.Auth_chain_ID_1 _Torsion_angle_constraint.Auth_seq_ID_1 _Torsion_angle_constraint.Auth_comp_ID_1 _Torsion_angle_constraint.Auth_atom_ID_1 _Torsion_angle_constraint.Auth_alt_ID_1 _Torsion_angle_constraint.Auth_atom_name_1 _Torsion_angle_constraint.Auth_entity_assembly_ID_2 _Torsion_angle_constraint.Auth_asym_ID_2 _Torsion_angle_constraint.Auth_chain_ID_2 _Torsion_angle_constraint.Auth_seq_ID_2 _Torsion_angle_constraint.Auth_comp_ID_2 _Torsion_angle_constraint.Auth_atom_ID_2 _Torsion_angle_constraint.Auth_alt_ID_2 _Torsion_angle_constraint.Auth_atom_name_2 _Torsion_angle_constraint.Auth_entity_assembly_ID_3 _Torsion_angle_constraint.Auth_asym_ID_3 _Torsion_angle_constraint.Auth_chain_ID_3 _Torsion_angle_constraint.Auth_seq_ID_3 _Torsion_angle_constraint.Auth_comp_ID_3 _Torsion_angle_constraint.Auth_atom_ID_3 _Torsion_angle_constraint.Auth_alt_ID_3 _Torsion_angle_constraint.Auth_atom_name_3 _Torsion_angle_constraint.Auth_entity_assembly_ID_4 _Torsion_angle_constraint.Auth_asym_ID_4 _Torsion_angle_constraint.Auth_chain_ID_4 _Torsion_angle_constraint.Auth_seq_ID_4 _Torsion_angle_constraint.Auth_comp_ID_4 _Torsion_angle_constraint.Auth_atom_ID_4 _Torsion_angle_constraint.Auth_alt_ID_4 _Torsion_angle_constraint.Auth_atom_name_4 _Torsion_angle_constraint.Entry_ID _Torsion_angle_constraint.Torsion_angle_constraint_list_ID 1 . . 1 1 2 2 PRO C C . . 1 1 3 3 ILE N N . . 1 1 3 3 ILE CA C . . 1 1 3 3 ILE C C . -167.05 -47.05 . . . A . 2 PRO C . . A . 3 ILE N . . A . 3 ILE CA . . A . 3 ILE C . . . 2 . C . . . . . 3 . N . . . . . 3 . CA . . . . . 3 . C . . rr_6ucj 1 2 . . 1 1 3 3 ILE C C . . 1 1 4 4 GLU N N . . 1 1 4 4 GLU CA C . . 1 1 4 4 GLU C C . -155.09 -35.09 . . . A . 3 ILE C . . A . 4 GLU N . . A . 4 GLU CA . . A . 4 GLU C . . . 3 . C . . . . . 4 . N . . . . . 4 . CA . . . . . 4 . C . . rr_6ucj 1 3 . . 1 1 4 4 GLU C C . . 1 1 5 5 SER N N . . 1 1 5 5 SER CA C . . 1 1 5 5 SER C C . -135.99 -15.99 . . . A . 4 GLU C . . A . 5 SER N . . A . 5 SER CA . . A . 5 SER C . . . 4 . C . . . . . 5 . N . . . . . 5 . CA . . . . . 5 . C . . rr_6ucj 1 4 . . 1 1 5 5 SER C C . . 1 1 6 6 HIS N N . . 1 1 6 6 HIS CA C . . 1 1 6 6 HIS C C . -163.26 -43.26 . . . A . 5 SER C . . A . 6 HIS N . . A . 6 HIS CA . . A . 6 HIS C . . . 5 . C . . . . . 6 . N . . . . . 6 . CA . . . . . 6 . C . . rr_6ucj 1 5 . . 1 1 6 6 HIS C C . . 1 1 7 7 GLN N N . . 1 1 7 7 GLN CA C . . 1 1 7 7 GLN C C . -136.29 -16.29 . . . A . 6 HIS C . . A . 7 GLN N . . A . 7 GLN CA . . A . 7 GLN C . . . 6 . C . . . . . 7 . N . . . . . 7 . CA . . . . . 7 . C . . rr_6ucj 1 6 . . 1 1 7 7 GLN C C . . 1 1 8 8 VAL N N . . 1 1 8 8 VAL CA C . . 1 1 8 8 VAL C C . -139.38 -19.38 . . . A . 7 GLN C . . A . 8 VAL N . . A . 8 VAL CA . . A . 8 VAL C . . . 7 . C . . . . . 8 . N . . . . . 8 . CA . . . . . 8 . C . . rr_6ucj 1 7 . . 1 1 8 8 VAL C C . . 1 1 9 9 GLU N N . . 1 1 9 9 GLU CA C . . 1 1 9 9 GLU C C . -149.81 -29.81 . . . A . 8 VAL C . . A . 9 GLU N . . A . 9 GLU CA . . A . 9 GLU C . . . 8 . C . . . . . 9 . N . . . . . 9 . CA . . . . . 9 . C . . rr_6ucj 1 8 . . 1 1 9 9 GLU C C . . 1 1 10 10 LYS N N . . 1 1 10 10 LYS CA C . . 1 1 10 10 LYS C C . -138.94 -18.94 . . . A . 9 GLU C . . A . 10 LYS N . . A . 10 LYS CA . . A . 10 LYS C . . . 9 . C . . . . . 10 . N . . . . . 10 . CA . . . . . 10 . C . . rr_6ucj 1 9 . . 1 1 10 10 LYS C C . . 1 1 11 11 ARG N N . . 1 1 11 11 ARG CA C . . 1 1 11 11 ARG C C . -145.13 -25.13 . . . A . 10 LYS C . . A . 11 ARG N . . A . 11 ARG CA . . A . 11 ARG C . . . 10 . C . . . . . 11 . N . . . . . 11 . CA . . . . . 11 . C . . rr_6ucj 1 10 . . 1 1 11 11 ARG C C . . 1 1 12 12 LYS N N . . 1 1 12 12 LYS CA C . . 1 1 12 12 LYS C C . -126.09 -6.09 . . . A . 11 ARG C . . A . 12 LYS N . . A . 12 LYS CA . . A . 12 LYS C . . . 11 . C . . . . . 12 . N . . . . . 12 . CA . . . . . 12 . C . . rr_6ucj 1 11 . . 1 1 12 12 LYS C C . . 1 1 13 13 CYS N N . . 1 1 13 13 CYS CA C . . 1 1 13 13 CYS C C . -209.19 30.57 . . . A . 12 LYS C . . A . 13 CYS N . . A . 13 CYS CA . . A . 13 CYS C . . . 12 . C . . . . . 13 . N . . . . . 13 . CA . . . . . 13 . C . . rr_6ucj 1 12 . . 1 1 13 13 CYS C C . . 1 1 14 14 ASN N N . . 1 1 14 14 ASN CA C . . 1 1 14 14 ASN C C . -126.39 -53.05 . . . A . 13 CYS C . . A . 14 ASN N . . A . 14 ASN CA . . A . 14 ASN C . . . 13 . C . . . . . 14 . N . . . . . 14 . CA . . . . . 14 . C . . rr_6ucj 1 13 . . 1 1 14 14 ASN C C . . 1 1 15 15 THR N N . . 1 1 15 15 THR CA C . . 1 1 15 15 THR C C . -151.09 -40.41 . . . A . 14 ASN C . . A . 15 THR N . . A . 15 THR CA . . A . 15 THR C . . . 14 . C . . . . . 15 . N . . . . . 15 . CA . . . . . 15 . C . . rr_6ucj 1 14 . . 1 1 15 15 THR C C . . 1 1 16 16 ALA N N . . 1 1 16 16 ALA CA C . . 1 1 16 16 ALA C C . -84.91 -44.91 . . . A . 15 THR C . . A . 16 ALA N . . A . 16 ALA CA . . A . 16 ALA C . . . 15 . C . . . . . 16 . N . . . . . 16 . CA . . . . . 16 . C . . rr_6ucj 1 15 . . 1 1 16 16 ALA C C . . 1 1 17 17 THR N N . . 1 1 17 17 THR CA C . . 1 1 17 17 THR C C . -88.53 -48.53 . . . A . 16 ALA C . . A . 17 THR N . . A . 17 THR CA . . A . 17 THR C . . . 16 . C . . . . . 17 . N . . . . . 17 . CA . . . . . 17 . C . . rr_6ucj 1 16 . . 1 1 17 17 THR C C . . 1 1 18 18 CYS N N . . 1 1 18 18 CYS CA C . . 1 1 18 18 CYS C C . -85.32 -45.32 . . . A . 17 THR C . . A . 18 CYS N . . A . 18 CYS CA . . A . 18 CYS C . . . 17 . C . . . . . 18 . N . . . . . 18 . CA . . . . . 18 . C . . rr_6ucj 1 17 . . 1 1 18 18 CYS C C . . 1 1 19 19 ALA N N . . 1 1 19 19 ALA CA C . . 1 1 19 19 ALA C C . -85.31 -45.31 . . . A . 18 CYS C . . A . 19 ALA N . . A . 19 ALA CA . . A . 19 ALA C . . . 18 . C . . . . . 19 . N . . . . . 19 . CA . . . . . 19 . C . . rr_6ucj 1 18 . . 1 1 19 19 ALA C C . . 1 1 20 20 THR N N . . 1 1 20 20 THR CA C . . 1 1 20 20 THR C C . -83.07 -43.07 . . . A . 19 ALA C . . A . 20 THR N . . A . 20 THR CA . . A . 20 THR C . . . 19 . C . . . . . 20 . N . . . . . 20 . CA . . . . . 20 . C . . rr_6ucj 1 19 . . 1 1 20 20 THR C C . . 1 1 21 21 GLN N N . . 1 1 21 21 GLN CA C . . 1 1 21 21 GLN C C . -82.61 -42.61 . . . A . 20 THR C . . A . 21 GLN N . . A . 21 GLN CA . . A . 21 GLN C . . . 20 . C . . . . . 21 . N . . . . . 21 . CA . . . . . 21 . C . . rr_6ucj 1 20 . . 1 1 21 21 GLN C C . . 1 1 22 22 ARG N N . . 1 1 22 22 ARG CA C . . 1 1 22 22 ARG C C . -83.65 -43.65 . . . A . 21 GLN C . . A . 22 ARG N . . A . 22 ARG CA . . A . 22 ARG C . . . 21 . C . . . . . 22 . N . . . . . 22 . CA . . . . . 22 . C . . rr_6ucj 1 21 . . 1 1 22 22 ARG C C . . 1 1 23 23 LEU N N . . 1 1 23 23 LEU CA C . . 1 1 23 23 LEU C C . -83.75 -43.75 . . . A . 22 ARG C . . A . 23 LEU N . . A . 23 LEU CA . . A . 23 LEU C . . . 22 . C . . . . . 23 . N . . . . . 23 . CA . . . . . 23 . C . . rr_6ucj 1 22 . . 1 1 23 23 LEU C C . . 1 1 24 24 ALA N N . . 1 1 24 24 ALA CA C . . 1 1 24 24 ALA C C . -83.46 -43.46 . . . A . 23 LEU C . . A . 24 ALA N . . A . 24 ALA CA . . A . 24 ALA C . . . 23 . C . . . . . 24 . N . . . . . 24 . CA . . . . . 24 . C . . rr_6ucj 1 23 . . 1 1 24 24 ALA C C . . 1 1 25 25 ASN N N . . 1 1 25 25 ASN CA C . . 1 1 25 25 ASN C C . -86.19 -46.19 . . . A . 24 ALA C . . A . 25 ASN N . . A . 25 ASN CA . . A . 25 ASN C . . . 24 . C . . . . . 25 . N . . . . . 25 . CA . . . . . 25 . C . . rr_6ucj 1 24 . . 1 1 25 25 ASN C C . . 1 1 26 26 PHE N N . . 1 1 26 26 PHE CA C . . 1 1 26 26 PHE C C . -86.22 -46.22 . . . A . 25 ASN C . . A . 26 PHE N . . A . 26 PHE CA . . A . 26 PHE C . . . 25 . C . . . . . 26 . N . . . . . 26 . CA . . . . . 26 . C . . rr_6ucj 1 25 . . 1 1 26 26 PHE C C . . 1 1 27 27 LEU N N . . 1 1 27 27 LEU CA C . . 1 1 27 27 LEU C C . -85.52 -45.52 . . . A . 26 PHE C . . A . 27 LEU N . . A . 27 LEU CA . . A . 27 LEU C . . . 26 . C . . . . . 27 . N . . . . . 27 . CA . . . . . 27 . C . . rr_6ucj 1 26 . . 1 1 27 27 LEU C C . . 1 1 28 28 VAL N N . . 1 1 28 28 VAL CA C . . 1 1 28 28 VAL C C . -95.90 -50.38 . . . A . 27 LEU C . . A . 28 VAL N . . A . 28 VAL CA . . A . 28 VAL C . . . 27 . C . . . . . 28 . N . . . . . 28 . CA . . . . . 28 . C . . rr_6ucj 1 27 . . 1 1 28 28 VAL C C . . 1 1 29 29 HIS N N . . 1 1 29 29 HIS CA C . . 1 1 29 29 HIS C C . -97.09 -49.55 . . . A . 28 VAL C . . A . 29 HIS N . . A . 29 HIS CA . . A . 29 HIS C . . . 28 . C . . . . . 29 . N . . . . . 29 . CA . . . . . 29 . C . . rr_6ucj 1 28 . . 1 1 29 29 HIS C C . . 1 1 30 30 SER N N . . 1 1 30 30 SER CA C . . 1 1 30 30 SER C C . -118.13 -34.45 . . . A . 29 HIS C . . A . 30 SER N . . A . 30 SER CA . . A . 30 SER C . . . 29 . C . . . . . 30 . N . . . . . 30 . CA . . . . . 30 . C . . rr_6ucj 1 29 . . 1 1 30 30 SER C C . . 1 1 31 31 SER N N . . 1 1 31 31 SER CA C . . 1 1 31 31 SER C C . -86.57 -46.57 . . . A . 30 SER C . . A . 31 SER N . . A . 31 SER CA . . A . 31 SER C . . . 30 . C . . . . . 31 . N . . . . . 31 . CA . . . . . 31 . C . . rr_6ucj 1 30 . . 1 1 31 31 SER C C . . 1 1 32 32 ASN N N . . 1 1 32 32 ASN CA C . . 1 1 32 32 ASN C C . -87.21 -47.19 . . . A . 31 SER C . . A . 32 ASN N . . A . 32 ASN CA . . A . 32 ASN C . . . 31 . C . . . . . 32 . N . . . . . 32 . CA . . . . . 32 . C . . rr_6ucj 1 31 . . 1 1 32 32 ASN C C . . 1 1 33 33 ASN N N . . 1 1 33 33 ASN CA C . . 1 1 33 33 ASN C C . -85.29 -45.29 . . . A . 32 ASN C . . A . 33 ASN N . . A . 33 ASN CA . . A . 33 ASN C . . . 32 . C . . . . . 33 . N . . . . . 33 . CA . . . . . 33 . C . . rr_6ucj 1 32 . . 1 1 33 33 ASN C C . . 1 1 34 34 PHE N N . . 1 1 34 34 PHE CA C . . 1 1 34 34 PHE C C . -81.51 -41.51 . . . A . 33 ASN C . . A . 34 PHE N . . A . 34 PHE CA . . A . 34 PHE C . . . 33 . C . . . . . 34 . N . . . . . 34 . CA . . . . . 34 . C . . rr_6ucj 1 33 . . 1 1 34 34 PHE C C . . 1 1 35 35 GLY N N . . 1 1 35 35 GLY CA C . . 1 1 35 35 GLY C C . -84.27 -44.27 . . . A . 34 PHE C . . A . 35 GLY N . . A . 35 GLY CA . . A . 35 GLY C . . . 34 . C . . . . . 35 . N . . . . . 35 . CA . . . . . 35 . C . . rr_6ucj 1 34 . . 1 1 35 35 GLY C C . . 1 1 36 36 ALA N N . . 1 1 36 36 ALA CA C . . 1 1 36 36 ALA C C . -83.15 -43.15 . . . A . 35 GLY C . . A . 36 ALA N . . A . 36 ALA CA . . A . 36 ALA C . . . 35 . C . . . . . 36 . N . . . . . 36 . CA . . . . . 36 . C . . rr_6ucj 1 35 . . 1 1 36 36 ALA C C . . 1 1 37 37 ILE N N . . 1 1 37 37 ILE CA C . . 1 1 37 37 ILE C C . -91.04 -51.04 . . . A . 36 ALA C . . A . 37 ILE N . . A . 37 ILE CA . . A . 37 ILE C . . . 36 . C . . . . . 37 . N . . . . . 37 . CA . . . . . 37 . C . . rr_6ucj 1 36 . . 1 1 37 37 ILE C C . . 1 1 38 38 LEU N N . . 1 1 38 38 LEU CA C . . 1 1 38 38 LEU C C . -84.95 -44.95 . . . A . 37 ILE C . . A . 38 LEU N . . A . 38 LEU CA . . A . 38 LEU C . . . 37 . C . . . . . 38 . N . . . . . 38 . CA . . . . . 38 . C . . rr_6ucj 1 37 . . 1 1 38 38 LEU C C . . 1 1 39 39 SER N N . . 1 1 39 39 SER CA C . . 1 1 39 39 SER C C . -109.83 -34.37 . . . A . 38 LEU C . . A . 39 SER N . . A . 39 SER CA . . A . 39 SER C . . . 38 . C . . . . . 39 . N . . . . . 39 . CA . . . . . 39 . C . . rr_6ucj 1 38 . . 1 1 39 39 SER C C . . 1 1 40 40 SER N N . . 1 1 40 40 SER CA C . . 1 1 40 40 SER C C . -137.78 -17.78 . . . A . 39 SER C . . A . 40 SER N . . A . 40 SER CA . . A . 40 SER C . . . 39 . C . . . . . 40 . N . . . . . 40 . CA . . . . . 40 . C . . rr_6ucj 1 39 . . 1 1 40 40 SER C C . . 1 1 41 41 THR N N . . 1 1 41 41 THR CA C . . 1 1 41 41 THR C C . -153.32 -33.32 . . . A . 40 SER C . . A . 41 THR N . . A . 41 THR CA . . A . 41 THR C . . . 40 . C . . . . . 41 . N . . . . . 41 . CA . . . . . 41 . C . . rr_6ucj 1 40 . . 1 1 41 41 THR C C . . 1 1 42 42 ASN N N . . 1 1 42 42 ASN CA C . . 1 1 42 42 ASN C C . -135.02 -15.02 . . . A . 41 THR C . . A . 42 ASN N . . A . 42 ASN CA . . A . 42 ASN C . . . 41 . C . . . . . 42 . N . . . . . 42 . CA . . . . . 42 . C . . rr_6ucj 1 41 . . 1 1 42 42 ASN C C . . 1 1 43 43 VAL N N . . 1 1 43 43 VAL CA C . . 1 1 43 43 VAL C C . -151.67 -31.67 . . . A . 42 ASN C . . A . 43 VAL N . . A . 43 VAL CA . . A . 43 VAL C . . . 42 . C . . . . . 43 . N . . . . . 43 . CA . . . . . 43 . C . . rr_6ucj 1 42 . . 1 1 43 43 VAL C C . . 1 1 44 44 GLY N N . . 1 1 44 44 GLY CA C . . 1 1 44 44 GLY C C . 28.42 148.42 . . . A . 43 VAL C . . A . 44 GLY N . . A . 44 GLY CA . . A . 44 GLY C . . . 43 . C . . . . . 44 . N . . . . . 44 . CA . . . . . 44 . C . . rr_6ucj 1 43 . . 1 1 44 44 GLY C C . . 1 1 45 45 SER N N . . 1 1 45 45 SER CA C . . 1 1 45 45 SER C C . -132.56 -12.56 . . . A . 44 GLY C . . A . 45 SER N . . A . 45 SER CA . . A . 45 SER C . . . 44 . C . . . . . 45 . N . . . . . 45 . CA . . . . . 45 . C . . rr_6ucj 1 44 . . 1 1 45 45 SER C C . . 1 1 46 46 ASN N N . . 1 1 46 46 ASN CA C . . 1 1 46 46 ASN C C . -128.50 -8.50 . . . A . 45 SER C . . A . 46 ASN N . . A . 46 ASN CA . . A . 46 ASN C . . . 45 . C . . . . . 46 . N . . . . . 46 . CA . . . . . 46 . C . . rr_6ucj 1 45 . . 1 1 46 46 ASN C C . . 1 1 47 47 THR N N . . 1 1 47 47 THR CA C . . 1 1 47 47 THR C C . -134.99 -14.99 . . . A . 46 ASN C . . A . 47 THR N . . A . 47 THR CA . . A . 47 THR C . . . 46 . C . . . . . 47 . N . . . . . 47 . CA . . . . . 47 . C . . rr_6ucj 1 46 . . 1 1 47 47 THR C C . . 1 1 48 48 TYR N N . . 1 1 48 48 TYR CA C . . 1 1 48 48 TYR C C . -163.60 -43.60 . . . A . 47 THR C . . A . 48 TYR N . . A . 48 TYR CA . . A . 48 TYR C . . . 47 . C . . . . . 48 . N . . . . . 48 . CA . . . . . 48 . C . . rr_6ucj 1 47 . . 1 1 48 48 TYR C C . . 1 1 49 49 GLY N N . . 1 1 49 49 GLY CA C . . 1 1 49 49 GLY C C . -153.68 -33.68 . . . A . 48 TYR C . . A . 49 GLY N . . A . 49 GLY CA . . A . 49 GLY C . . . 48 . C . . . . . 49 . N . . . . . 49 . CA . . . . . 49 . C . . rr_6ucj 1 48 . . 1 1 49 49 GLY C C . . 1 1 50 50 LYS N N . . 1 1 50 50 LYS CA C . . 1 1 50 50 LYS C C . -80.85 -40.85 . . . A . 49 GLY C . . A . 50 LYS N . . A . 50 LYS CA . . A . 50 LYS C . . . 49 . C . . . . . 50 . N . . . . . 50 . CA . . . . . 50 . C . . rr_6ucj 1 49 . . 1 1 50 50 LYS C C . . 1 1 51 51 ARG N N . . 1 1 51 51 ARG CA C . . 1 1 51 51 ARG C C . -84.73 -44.73 . . . A . 50 LYS C . . A . 51 ARG N . . A . 51 ARG CA . . A . 51 ARG C . . . 50 . C . . . . . 51 . N . . . . . 51 . CA . . . . . 51 . C . . rr_6ucj 1 50 . . 1 1 51 51 ARG C C . . 1 1 52 52 ASN N N . . 1 1 52 52 ASN CA C . . 1 1 52 52 ASN C C . -82.60 -42.60 . . . A . 51 ARG C . . A . 52 ASN N . . A . 52 ASN CA . . A . 52 ASN C . . . 51 . C . . . . . 52 . N . . . . . 52 . CA . . . . . 52 . C . . rr_6ucj 1 51 . . 1 1 52 52 ASN C C . . 1 1 53 53 ALA N N . . 1 1 53 53 ALA CA C . . 1 1 53 53 ALA C C . -83.78 -43.78 . . . A . 52 ASN C . . A . 53 ALA N . . A . 53 ALA CA . . A . 53 ALA C . . . 52 . C . . . . . 53 . N . . . . . 53 . CA . . . . . 53 . C . . rr_6ucj 1 52 . . 1 1 53 53 ALA C C . . 1 1 54 54 VAL N N . . 1 1 54 54 VAL CA C . . 1 1 54 54 VAL C C . -86.66 -46.66 . . . A . 53 ALA C . . A . 54 VAL N . . A . 54 VAL CA . . A . 54 VAL C . . . 53 . C . . . . . 54 . N . . . . . 54 . CA . . . . . 54 . C . . rr_6ucj 1 53 . . 1 1 54 54 VAL C C . . 1 1 55 55 GLU N N . . 1 1 55 55 GLU CA C . . 1 1 55 55 GLU C C . -80.49 -40.49 . . . A . 54 VAL C . . A . 55 GLU N . . A . 55 GLU CA . . A . 55 GLU C . . . 54 . C . . . . . 55 . N . . . . . 55 . CA . . . . . 55 . C . . rr_6ucj 1 54 . . 1 1 55 55 GLU C C . . 1 1 56 56 VAL N N . . 1 1 56 56 VAL CA C . . 1 1 56 56 VAL C C . -86.08 -46.08 . . . A . 55 GLU C . . A . 56 VAL N . . A . 56 VAL CA . . A . 56 VAL C . . . 55 . C . . . . . 56 . N . . . . . 56 . CA . . . . . 56 . C . . rr_6ucj 1 55 . . 1 1 56 56 VAL C C . . 1 1 57 57 LEU N N . . 1 1 57 57 LEU CA C . . 1 1 57 57 LEU C C . -83.67 -43.67 . . . A . 56 VAL C . . A . 57 LEU N . . A . 57 LEU CA . . A . 57 LEU C . . . 56 . C . . . . . 57 . N . . . . . 57 . CA . . . . . 57 . C . . rr_6ucj 1 56 . . 1 1 57 57 LEU C C . . 1 1 58 58 LYS N N . . 1 1 58 58 LYS CA C . . 1 1 58 58 LYS C C . -107.10 -38.76 . . . A . 57 LEU C . . A . 58 LYS N . . A . 58 LYS CA . . A . 58 LYS C . . . 57 . C . . . . . 58 . N . . . . . 58 . CA . . . . . 58 . C . . rr_6ucj 1 57 . . 1 1 58 58 LYS C C . . 1 1 59 59 ARG N N . . 1 1 59 59 ARG CA C . . 1 1 59 59 ARG C C . -117.76 -59.64 . . . A . 58 LYS C . . A . 59 ARG N . . A . 59 ARG CA . . A . 59 ARG C . . . 58 . C . . . . . 59 . N . . . . . 59 . CA . . . . . 59 . C . . rr_6ucj 1 58 . . 1 1 59 59 ARG C C . . 1 1 60 60 GLU N N . . 1 1 60 60 GLU CA C . . 1 1 60 60 GLU C C . -141.14 -38.80 . . . A . 59 ARG C . . A . 60 GLU N . . A . 60 GLU CA . . A . 60 GLU C . . . 59 . C . . . . . 60 . N . . . . . 60 . CA . . . . . 60 . C . . rr_6ucj 1 59 . . 1 1 60 60 GLU C C . . 1 1 61 61 PRO N N . . 1 1 61 61 PRO CA C . . 1 1 61 61 PRO C C . -81.69 -41.69 . . . A . 60 GLU C . . A . 61 PRO N . . A . 61 PRO CA . . A . 61 PRO C . . . 60 . C . . . . . 61 . N . . . . . 61 . CA . . . . . 61 . C . . rr_6ucj 1 60 . . 1 1 61 61 PRO C C . . 1 1 62 62 LEU N N . . 1 1 62 62 LEU CA C . . 1 1 62 62 LEU C C . -89.23 -49.23 . . . A . 61 PRO C . . A . 62 LEU N . . A . 62 LEU CA . . A . 62 LEU C . . . 61 . C . . . . . 62 . N . . . . . 62 . CA . . . . . 62 . C . . rr_6ucj 1 61 . . 1 1 62 62 LEU C C . . 1 1 63 63 ASN N N . . 1 1 63 63 ASN CA C . . 1 1 63 63 ASN C C . -100.67 -46.69 . . . A . 62 LEU C . . A . 63 ASN N . . A . 63 ASN CA . . A . 63 ASN C . . . 62 . C . . . . . 63 . N . . . . . 63 . CA . . . . . 63 . C . . rr_6ucj 1 62 . . 1 1 63 63 ASN C C . . 1 1 64 64 TYR N N . . 1 1 64 64 TYR CA C . . 1 1 64 64 TYR C C . -131.48 -75.00 . . . A . 63 ASN C . . A . 64 TYR N . . A . 64 TYR CA . . A . 64 TYR C . . . 63 . C . . . . . 64 . N . . . . . 64 . CA . . . . . 64 . C . . rr_6ucj 1 63 . . 1 1 64 64 TYR C C . . 1 1 65 65 LEU N N . . 1 1 65 65 LEU CA C . . 1 1 65 65 LEU C C . -172.36 -49.92 . . . A . 64 TYR C . . A . 65 LEU N . . A . 65 LEU CA . . A . 65 LEU C . . . 64 . C . . . . . 65 . N . . . . . 65 . CA . . . . . 65 . C . . rr_6ucj 1 64 . . 1 1 65 65 LEU C C . . 1 1 66 66 PRO N N . . 1 1 66 66 PRO CA C . . 1 1 66 66 PRO C C . -130.47 -10.47 . . . A . 65 LEU C . . A . 66 PRO N . . A . 66 PRO CA . . A . 66 PRO C . . . 65 . C . . . . . 66 . N . . . . . 66 . CA . . . . . 66 . C . . rr_6ucj 1 65 . . 1 1 66 66 PRO C C . . 1 1 67 67 LEU N N . . 1 1 67 67 LEU CA C . . 1 1 67 67 LEU C C . -167.20 -47.20 . . . A . 66 PRO C . . A . 67 LEU N . . A . 67 LEU CA . . A . 67 LEU C . . . 66 . C . . . . . 67 . N . . . . . 67 . CA . . . . . 67 . C . . rr_6ucj 1 66 . . 1 1 3 3 ILE N N . . 1 1 3 3 ILE CA C . . 1 1 3 3 ILE C C . . 1 1 4 4 GLU N N . 63.50 183.50 . . . A . 3 ILE N . . A . 3 ILE CA . . A . 3 ILE C . . A . 4 GLU N . . . 3 . N . . . . . 3 . CA . . . . . 3 . C . . . . . 4 . N . . rr_6ucj 1 67 . . 1 1 4 4 GLU N N . . 1 1 4 4 GLU CA C . . 1 1 4 4 GLU C C . . 1 1 5 5 SER N N . 55.66 175.66 . . . A . 4 GLU N . . A . 4 GLU CA . . A . 4 GLU C . . A . 5 SER N . . . 4 . N . . . . . 4 . CA . . . . . 4 . C . . . . . 5 . N . . rr_6ucj 1 68 . . 1 1 5 5 SER N N . . 1 1 5 5 SER CA C . . 1 1 5 5 SER C C . . 1 1 6 6 HIS N N . 75.28 195.28 . . . A . 5 SER N . . A . 5 SER CA . . A . 5 SER C . . A . 6 HIS N . . . 5 . N . . . . . 5 . CA . . . . . 5 . C . . . . . 6 . N . . rr_6ucj 1 69 . . 1 1 6 6 HIS N N . . 1 1 6 6 HIS CA C . . 1 1 6 6 HIS C C . . 1 1 7 7 GLN N N . -58.13 61.87 . . . A . 6 HIS N . . A . 6 HIS CA . . A . 6 HIS C . . A . 7 GLN N . . . 6 . N . . . . . 6 . CA . . . . . 6 . C . . . . . 7 . N . . rr_6ucj 1 70 . . 1 1 7 7 GLN N N . . 1 1 7 7 GLN CA C . . 1 1 7 7 GLN C C . . 1 1 8 8 VAL N N . 77.65 197.65 . . . A . 7 GLN N . . A . 7 GLN CA . . A . 7 GLN C . . A . 8 VAL N . . . 7 . N . . . . . 7 . CA . . . . . 7 . C . . . . . 8 . N . . rr_6ucj 1 71 . . 1 1 8 8 VAL N N . . 1 1 8 8 VAL CA C . . 1 1 8 8 VAL C C . . 1 1 9 9 GLU N N . 66.84 186.84 . . . A . 8 VAL N . . A . 8 VAL CA . . A . 8 VAL C . . A . 9 GLU N . . . 8 . N . . . . . 8 . CA . . . . . 8 . C . . . . . 9 . N . . rr_6ucj 1 72 . . 1 1 9 9 GLU N N . . 1 1 9 9 GLU CA C . . 1 1 9 9 GLU C C . . 1 1 10 10 LYS N N . 57.95 177.95 . . . A . 9 GLU N . . A . 9 GLU CA . . A . 9 GLU C . . A . 10 LYS N . . . 9 . N . . . . . 9 . CA . . . . . 9 . C . . . . . 10 . N . . rr_6ucj 1 73 . . 1 1 10 10 LYS N N . . 1 1 10 10 LYS CA C . . 1 1 10 10 LYS C C . . 1 1 11 11 ARG N N . 67.19 187.19 . . . A . 10 LYS N . . A . 10 LYS CA . . A . 10 LYS C . . A . 11 ARG N . . . 10 . N . . . . . 10 . CA . . . . . 10 . C . . . . . 11 . N . . rr_6ucj 1 74 . . 1 1 11 11 ARG N N . . 1 1 11 11 ARG CA C . . 1 1 11 11 ARG C C . . 1 1 12 12 LYS N N . 63.57 183.57 . . . A . 11 ARG N . . A . 11 ARG CA . . A . 11 ARG C . . A . 12 LYS N . . . 11 . N . . . . . 11 . CA . . . . . 11 . C . . . . . 12 . N . . rr_6ucj 1 75 . . 1 1 12 12 LYS N N . . 1 1 12 12 LYS CA C . . 1 1 12 12 LYS C C . . 1 1 13 13 CYS N N . 76.57 196.57 . . . A . 12 LYS N . . A . 12 LYS CA . . A . 12 LYS C . . A . 13 CYS N . . . 12 . N . . . . . 12 . CA . . . . . 12 . C . . . . . 13 . N . . rr_6ucj 1 76 . . 1 1 13 13 CYS N N . . 1 1 13 13 CYS CA C . . 1 1 13 13 CYS C C . . 1 1 14 14 ASN N N . 69.30 156.38 . . . A . 13 CYS N . . A . 13 CYS CA . . A . 13 CYS C . . A . 14 ASN N . . . 13 . N . . . . . 13 . CA . . . . . 13 . C . . . . . 14 . N . . rr_6ucj 1 77 . . 1 1 14 14 ASN N N . . 1 1 14 14 ASN CA C . . 1 1 14 14 ASN C C . . 1 1 15 15 THR N N . -74.38 30.18 . . . A . 14 ASN N . . A . 14 ASN CA . . A . 14 ASN C . . A . 15 THR N . . . 14 . N . . . . . 14 . CA . . . . . 14 . C . . . . . 15 . N . . rr_6ucj 1 78 . . 1 1 15 15 THR N N . . 1 1 15 15 THR CA C . . 1 1 15 15 THR C C . . 1 1 16 16 ALA N N . 145.46 185.46 . . . A . 15 THR N . . A . 15 THR CA . . A . 15 THR C . . A . 16 ALA N . . . 15 . N . . . . . 15 . CA . . . . . 15 . C . . . . . 16 . N . . rr_6ucj 1 79 . . 1 1 16 16 ALA N N . . 1 1 16 16 ALA CA C . . 1 1 16 16 ALA C C . . 1 1 17 17 THR N N . -53.89 -13.89 . . . A . 16 ALA N . . A . 16 ALA CA . . A . 16 ALA C . . A . 17 THR N . . . 16 . N . . . . . 16 . CA . . . . . 16 . C . . . . . 17 . N . . rr_6ucj 1 80 . . 1 1 17 17 THR N N . . 1 1 17 17 THR CA C . . 1 1 17 17 THR C C . . 1 1 18 18 CYS N N . -60.71 -20.71 . . . A . 17 THR N . . A . 17 THR CA . . A . 17 THR C . . A . 18 CYS N . . . 17 . N . . . . . 17 . CA . . . . . 17 . C . . . . . 18 . N . . rr_6ucj 1 81 . . 1 1 18 18 CYS N N . . 1 1 18 18 CYS CA C . . 1 1 18 18 CYS C C . . 1 1 19 19 ALA N N . -62.05 -22.05 . . . A . 18 CYS N . . A . 18 CYS CA . . A . 18 CYS C . . A . 19 ALA N . . . 18 . N . . . . . 18 . CA . . . . . 18 . C . . . . . 19 . N . . rr_6ucj 1 82 . . 1 1 19 19 ALA N N . . 1 1 19 19 ALA CA C . . 1 1 19 19 ALA C C . . 1 1 20 20 THR N N . -60.71 -20.71 . . . A . 19 ALA N . . A . 19 ALA CA . . A . 19 ALA C . . A . 20 THR N . . . 19 . N . . . . . 19 . CA . . . . . 19 . C . . . . . 20 . N . . rr_6ucj 1 83 . . 1 1 20 20 THR N N . . 1 1 20 20 THR CA C . . 1 1 20 20 THR C C . . 1 1 21 21 GLN N N . -60.50 -20.50 . . . A . 20 THR N . . A . 20 THR CA . . A . 20 THR C . . A . 21 GLN N . . . 20 . N . . . . . 20 . CA . . . . . 20 . C . . . . . 21 . N . . rr_6ucj 1 84 . . 1 1 21 21 GLN N N . . 1 1 21 21 GLN CA C . . 1 1 21 21 GLN C C . . 1 1 22 22 ARG N N . -66.65 -26.65 . . . A . 21 GLN N . . A . 21 GLN CA . . A . 21 GLN C . . A . 22 ARG N . . . 21 . N . . . . . 21 . CA . . . . . 21 . C . . . . . 22 . N . . rr_6ucj 1 85 . . 1 1 22 22 ARG N N . . 1 1 22 22 ARG CA C . . 1 1 22 22 ARG C C . . 1 1 23 23 LEU N N . -62.78 -22.78 . . . A . 22 ARG N . . A . 22 ARG CA . . A . 22 ARG C . . A . 23 LEU N . . . 22 . N . . . . . 22 . CA . . . . . 22 . C . . . . . 23 . N . . rr_6ucj 1 86 . . 1 1 23 23 LEU N N . . 1 1 23 23 LEU CA C . . 1 1 23 23 LEU C C . . 1 1 24 24 ALA N N . -61.56 -21.56 . . . A . 23 LEU N . . A . 23 LEU CA . . A . 23 LEU C . . A . 24 ALA N . . . 23 . N . . . . . 23 . CA . . . . . 23 . C . . . . . 24 . N . . rr_6ucj 1 87 . . 1 1 24 24 ALA N N . . 1 1 24 24 ALA CA C . . 1 1 24 24 ALA C C . . 1 1 25 25 ASN N N . -61.32 -21.32 . . . A . 24 ALA N . . A . 24 ALA CA . . A . 24 ALA C . . A . 25 ASN N . . . 24 . N . . . . . 24 . CA . . . . . 24 . C . . . . . 25 . N . . rr_6ucj 1 88 . . 1 1 25 25 ASN N N . . 1 1 25 25 ASN CA C . . 1 1 25 25 ASN C C . . 1 1 26 26 PHE N N . -57.94 -17.94 . . . A . 25 ASN N . . A . 25 ASN CA . . A . 25 ASN C . . A . 26 PHE N . . . 25 . N . . . . . 25 . CA . . . . . 25 . C . . . . . 26 . N . . rr_6ucj 1 89 . . 1 1 26 26 PHE N N . . 1 1 26 26 PHE CA C . . 1 1 26 26 PHE C C . . 1 1 27 27 LEU N N . -61.36 -21.36 . . . A . 26 PHE N . . A . 26 PHE CA . . A . 26 PHE C . . A . 27 LEU N . . . 26 . N . . . . . 26 . CA . . . . . 26 . C . . . . . 27 . N . . rr_6ucj 1 90 . . 1 1 27 27 LEU N N . . 1 1 27 27 LEU CA C . . 1 1 27 27 LEU C C . . 1 1 28 28 VAL N N . -61.55 -12.53 . . . A . 27 LEU N . . A . 27 LEU CA . . A . 27 LEU C . . A . 28 VAL N . . . 27 . N . . . . . 27 . CA . . . . . 27 . C . . . . . 28 . N . . rr_6ucj 1 91 . . 1 1 28 28 VAL N N . . 1 1 28 28 VAL CA C . . 1 1 28 28 VAL C C . . 1 1 29 29 HIS N N . -58.88 -18.88 . . . A . 28 VAL N . . A . 28 VAL CA . . A . 28 VAL C . . A . 29 HIS N . . . 28 . N . . . . . 28 . CA . . . . . 28 . C . . . . . 29 . N . . rr_6ucj 1 92 . . 1 1 29 29 HIS N N . . 1 1 29 29 HIS CA C . . 1 1 29 29 HIS C C . . 1 1 30 30 SER N N . -62.07 19.61 . . . A . 29 HIS N . . A . 29 HIS CA . . A . 29 HIS C . . A . 30 SER N . . . 29 . N . . . . . 29 . CA . . . . . 29 . C . . . . . 30 . N . . rr_6ucj 1 93 . . 1 1 30 30 SER N N . . 1 1 30 30 SER CA C . . 1 1 30 30 SER C C . . 1 1 31 31 SER N N . -70.32 18.62 . . . A . 30 SER N . . A . 30 SER CA . . A . 30 SER C . . A . 31 SER N . . . 30 . N . . . . . 30 . CA . . . . . 30 . C . . . . . 31 . N . . rr_6ucj 1 94 . . 1 1 31 31 SER N N . . 1 1 31 31 SER CA C . . 1 1 31 31 SER C C . . 1 1 32 32 ASN N N . -58.77 -18.77 . . . A . 31 SER N . . A . 31 SER CA . . A . 31 SER C . . A . 32 ASN N . . . 31 . N . . . . . 31 . CA . . . . . 31 . C . . . . . 32 . N . . rr_6ucj 1 95 . . 1 1 32 32 ASN N N . . 1 1 32 32 ASN CA C . . 1 1 32 32 ASN C C . . 1 1 33 33 ASN N N . -63.03 -12.05 . . . A . 32 ASN N . . A . 32 ASN CA . . A . 32 ASN C . . A . 33 ASN N . . . 32 . N . . . . . 32 . CA . . . . . 32 . C . . . . . 33 . N . . rr_6ucj 1 96 . . 1 1 33 33 ASN N N . . 1 1 33 33 ASN CA C . . 1 1 33 33 ASN C C . . 1 1 34 34 PHE N N . -63.48 -13.92 . . . A . 33 ASN N . . A . 33 ASN CA . . A . 33 ASN C . . A . 34 PHE N . . . 33 . N . . . . . 33 . CA . . . . . 33 . C . . . . . 34 . N . . rr_6ucj 1 97 . . 1 1 34 34 PHE N N . . 1 1 34 34 PHE CA C . . 1 1 34 34 PHE C C . . 1 1 35 35 GLY N N . -57.91 -17.91 . . . A . 34 PHE N . . A . 34 PHE CA . . A . 34 PHE C . . A . 35 GLY N . . . 34 . N . . . . . 34 . CA . . . . . 34 . C . . . . . 35 . N . . rr_6ucj 1 98 . . 1 1 35 35 GLY N N . . 1 1 35 35 GLY CA C . . 1 1 35 35 GLY C C . . 1 1 36 36 ALA N N . -62.11 -22.11 . . . A . 35 GLY N . . A . 35 GLY CA . . A . 35 GLY C . . A . 36 ALA N . . . 35 . N . . . . . 35 . CA . . . . . 35 . C . . . . . 36 . N . . rr_6ucj 1 99 . . 1 1 36 36 ALA N N . . 1 1 36 36 ALA CA C . . 1 1 36 36 ALA C C . . 1 1 37 37 ILE N N . -60.95 -20.95 . . . A . 36 ALA N . . A . 36 ALA CA . . A . 36 ALA C . . A . 37 ILE N . . . 36 . N . . . . . 36 . CA . . . . . 36 . C . . . . . 37 . N . . rr_6ucj 1 100 . . 1 1 37 37 ILE N N . . 1 1 37 37 ILE CA C . . 1 1 37 37 ILE C C . . 1 1 38 38 LEU N N . -58.67 -15.31 . . . A . 37 ILE N . . A . 37 ILE CA . . A . 37 ILE C . . A . 38 LEU N . . . 37 . N . . . . . 37 . CA . . . . . 37 . C . . . . . 38 . N . . rr_6ucj 1 101 . . 1 1 38 38 LEU N N . . 1 1 38 38 LEU CA C . . 1 1 38 38 LEU C C . . 1 1 39 39 SER N N . -57.93 -1.11 . . . A . 38 LEU N . . A . 38 LEU CA . . A . 38 LEU C . . A . 39 SER N . . . 38 . N . . . . . 38 . CA . . . . . 38 . C . . . . . 39 . N . . rr_6ucj 1 102 . . 1 1 39 39 SER N N . . 1 1 39 39 SER CA C . . 1 1 39 39 SER C C . . 1 1 40 40 SER N N . -70.51 19.81 . . . A . 39 SER N . . A . 39 SER CA . . A . 39 SER C . . A . 40 SER N . . . 39 . N . . . . . 39 . CA . . . . . 39 . C . . . . . 40 . N . . rr_6ucj 1 103 . . 1 1 40 40 SER N N . . 1 1 40 40 SER CA C . . 1 1 40 40 SER C C . . 1 1 41 41 THR N N . -84.27 35.73 . . . A . 40 SER N . . A . 40 SER CA . . A . 40 SER C . . A . 41 THR N . . . 40 . N . . . . . 40 . CA . . . . . 40 . C . . . . . 41 . N . . rr_6ucj 1 104 . . 1 1 41 41 THR N N . . 1 1 41 41 THR CA C . . 1 1 41 41 THR C C . . 1 1 42 42 ASN N N . -71.14 48.86 . . . A . 41 THR N . . A . 41 THR CA . . A . 41 THR C . . A . 42 ASN N . . . 41 . N . . . . . 41 . CA . . . . . 41 . C . . . . . 42 . N . . rr_6ucj 1 105 . . 1 1 42 42 ASN N N . . 1 1 42 42 ASN CA C . . 1 1 42 42 ASN C C . . 1 1 43 43 VAL N N . -88.93 31.07 . . . A . 42 ASN N . . A . 42 ASN CA . . A . 42 ASN C . . A . 43 VAL N . . . 42 . N . . . . . 42 . CA . . . . . 42 . C . . . . . 43 . N . . rr_6ucj 1 106 . . 1 1 43 43 VAL N N . . 1 1 43 43 VAL CA C . . 1 1 43 43 VAL C C . . 1 1 44 44 GLY N N . -72.78 47.22 . . . A . 43 VAL N . . A . 43 VAL CA . . A . 43 VAL C . . A . 44 GLY N . . . 43 . N . . . . . 43 . CA . . . . . 43 . C . . . . . 44 . N . . rr_6ucj 1 107 . . 1 1 44 44 GLY N N . . 1 1 44 44 GLY CA C . . 1 1 44 44 GLY C C . . 1 1 45 45 SER N N . -46.57 73.43 . . . A . 44 GLY N . . A . 44 GLY CA . . A . 44 GLY C . . A . 45 SER N . . . 44 . N . . . . . 44 . CA . . . . . 44 . C . . . . . 45 . N . . rr_6ucj 1 108 . . 1 1 45 45 SER N N . . 1 1 45 45 SER CA C . . 1 1 45 45 SER C C . . 1 1 46 46 ASN N N . -86.14 33.86 . . . A . 45 SER N . . A . 45 SER CA . . A . 45 SER C . . A . 46 ASN N . . . 45 . N . . . . . 45 . CA . . . . . 45 . C . . . . . 46 . N . . rr_6ucj 1 109 . . 1 1 46 46 ASN N N . . 1 1 46 46 ASN CA C . . 1 1 46 46 ASN C C . . 1 1 47 47 THR N N . -93.21 26.79 . . . A . 46 ASN N . . A . 46 ASN CA . . A . 46 ASN C . . A . 47 THR N . . . 46 . N . . . . . 46 . CA . . . . . 46 . C . . . . . 47 . N . . rr_6ucj 1 110 . . 1 1 47 47 THR N N . . 1 1 47 47 THR CA C . . 1 1 47 47 THR C C . . 1 1 48 48 TYR N N . -91.57 28.43 . . . A . 47 THR N . . A . 47 THR CA . . A . 47 THR C . . A . 48 TYR N . . . 47 . N . . . . . 47 . CA . . . . . 47 . C . . . . . 48 . N . . rr_6ucj 1 111 . . 1 1 48 48 TYR N N . . 1 1 48 48 TYR CA C . . 1 1 48 48 TYR C C . . 1 1 49 49 GLY N N . -58.50 61.50 . . . A . 48 TYR N . . A . 48 TYR CA . . A . 48 TYR C . . A . 49 GLY N . . . 48 . N . . . . . 48 . CA . . . . . 48 . C . . . . . 49 . N . . rr_6ucj 1 112 . . 1 1 49 49 GLY N N . . 1 1 49 49 GLY CA C . . 1 1 49 49 GLY C C . . 1 1 50 50 LYS N N . 102.72 222.72 . . . A . 49 GLY N . . A . 49 GLY CA . . A . 49 GLY C . . A . 50 LYS N . . . 49 . N . . . . . 49 . CA . . . . . 49 . C . . . . . 50 . N . . rr_6ucj 1 113 . . 1 1 50 50 LYS N N . . 1 1 50 50 LYS CA C . . 1 1 50 50 LYS C C . . 1 1 51 51 ARG N N . -54.94 -4.70 . . . A . 50 LYS N . . A . 50 LYS CA . . A . 50 LYS C . . A . 51 ARG N . . . 50 . N . . . . . 50 . CA . . . . . 50 . C . . . . . 51 . N . . rr_6ucj 1 114 . . 1 1 51 51 ARG N N . . 1 1 51 51 ARG CA C . . 1 1 51 51 ARG C C . . 1 1 52 52 ASN N N . -58.38 -12.76 . . . A . 51 ARG N . . A . 51 ARG CA . . A . 51 ARG C . . A . 52 ASN N . . . 51 . N . . . . . 51 . CA . . . . . 51 . C . . . . . 52 . N . . rr_6ucj 1 115 . . 1 1 52 52 ASN N N . . 1 1 52 52 ASN CA C . . 1 1 52 52 ASN C C . . 1 1 53 53 ALA N N . -63.28 -23.28 . . . A . 52 ASN N . . A . 52 ASN CA . . A . 52 ASN C . . A . 53 ALA N . . . 52 . N . . . . . 52 . CA . . . . . 52 . C . . . . . 53 . N . . rr_6ucj 1 116 . . 1 1 53 53 ALA N N . . 1 1 53 53 ALA CA C . . 1 1 53 53 ALA C C . . 1 1 54 54 VAL N N . -55.56 -15.56 . . . A . 53 ALA N . . A . 53 ALA CA . . A . 53 ALA C . . A . 54 VAL N . . . 53 . N . . . . . 53 . CA . . . . . 53 . C . . . . . 54 . N . . rr_6ucj 1 117 . . 1 1 54 54 VAL N N . . 1 1 54 54 VAL CA C . . 1 1 54 54 VAL C C . . 1 1 55 55 GLU N N . -60.95 -20.95 . . . A . 54 VAL N . . A . 54 VAL CA . . A . 54 VAL C . . A . 55 GLU N . . . 54 . N . . . . . 54 . CA . . . . . 54 . C . . . . . 55 . N . . rr_6ucj 1 118 . . 1 1 55 55 GLU N N . . 1 1 55 55 GLU CA C . . 1 1 55 55 GLU C C . . 1 1 56 56 VAL N N . -57.17 -17.17 . . . A . 55 GLU N . . A . 55 GLU CA . . A . 55 GLU C . . A . 56 VAL N . . . 55 . N . . . . . 55 . CA . . . . . 55 . C . . . . . 56 . N . . rr_6ucj 1 119 . . 1 1 56 56 VAL N N . . 1 1 56 56 VAL CA C . . 1 1 56 56 VAL C C . . 1 1 57 57 LEU N N . -54.68 -14.68 . . . A . 56 VAL N . . A . 56 VAL CA . . A . 56 VAL C . . A . 57 LEU N . . . 56 . N . . . . . 56 . CA . . . . . 56 . C . . . . . 57 . N . . rr_6ucj 1 120 . . 1 1 57 57 LEU N N . . 1 1 57 57 LEU CA C . . 1 1 57 57 LEU C C . . 1 1 58 58 LYS N N . -56.08 -16.08 . . . A . 57 LEU N . . A . 57 LEU CA . . A . 57 LEU C . . A . 58 LYS N . . . 57 . N . . . . . 57 . CA . . . . . 57 . C . . . . . 58 . N . . rr_6ucj 1 121 . . 1 1 58 58 LYS N N . . 1 1 58 58 LYS CA C . . 1 1 58 58 LYS C C . . 1 1 59 59 ARG N N . -53.23 -13.23 . . . A . 58 LYS N . . A . 58 LYS CA . . A . 58 LYS C . . A . 59 ARG N . . . 58 . N . . . . . 58 . CA . . . . . 58 . C . . . . . 59 . N . . rr_6ucj 1 122 . . 1 1 59 59 ARG N N . . 1 1 59 59 ARG CA C . . 1 1 59 59 ARG C C . . 1 1 60 60 GLU N N . -51.19 26.77 . . . A . 59 ARG N . . A . 59 ARG CA . . A . 59 ARG C . . A . 60 GLU N . . . 59 . N . . . . . 59 . CA . . . . . 59 . C . . . . . 60 . N . . rr_6ucj 1 123 . . 1 1 60 60 GLU N N . . 1 1 60 60 GLU CA C . . 1 1 60 60 GLU C C . . 1 1 61 61 PRO N N . 53.59 175.97 . . . A . 60 GLU N . . A . 60 GLU CA . . A . 60 GLU C . . A . 61 PRO N . . . 60 . N . . . . . 60 . CA . . . . . 60 . C . . . . . 61 . N . . rr_6ucj 1 124 . . 1 1 61 61 PRO N N . . 1 1 61 61 PRO CA C . . 1 1 61 61 PRO C C . . 1 1 62 62 LEU N N . -45.25 -5.25 . . . A . 61 PRO N . . A . 61 PRO CA . . A . 61 PRO C . . A . 62 LEU N . . . 61 . N . . . . . 61 . CA . . . . . 61 . C . . . . . 62 . N . . rr_6ucj 1 125 . . 1 1 62 62 LEU N N . . 1 1 62 62 LEU CA C . . 1 1 62 62 LEU C C . . 1 1 63 63 ASN N N . -42.37 -2.37 . . . A . 62 LEU N . . A . 62 LEU CA . . A . 62 LEU C . . A . 63 ASN N . . . 62 . N . . . . . 62 . CA . . . . . 62 . C . . . . . 63 . N . . rr_6ucj 1 126 . . 1 1 63 63 ASN N N . . 1 1 63 63 ASN CA C . . 1 1 63 63 ASN C C . . 1 1 64 64 TYR N N . -45.02 -5.02 . . . A . 63 ASN N . . A . 63 ASN CA . . A . 63 ASN C . . A . 64 TYR N . . . 63 . N . . . . . 63 . CA . . . . . 63 . C . . . . . 64 . N . . rr_6ucj 1 127 . . 1 1 64 64 TYR N N . . 1 1 64 64 TYR CA C . . 1 1 64 64 TYR C C . . 1 1 65 65 LEU N N . -47.84 47.76 . . . A . 64 TYR N . . A . 64 TYR CA . . A . 64 TYR C . . A . 65 LEU N . . . 64 . N . . . . . 64 . CA . . . . . 64 . C . . . . . 65 . N . . rr_6ucj 1 128 . . 1 1 65 65 LEU N N . . 1 1 65 65 LEU CA C . . 1 1 65 65 LEU C C . . 1 1 66 66 PRO N N . 66.44 191.50 . . . A . 65 LEU N . . A . 65 LEU CA . . A . 65 LEU C . . A . 66 PRO N . . . 65 . N . . . . . 65 . CA . . . . . 65 . C . . . . . 66 . N . . rr_6ucj 1 129 . . 1 1 66 66 PRO N N . . 1 1 66 66 PRO CA C . . 1 1 66 66 PRO C C . . 1 1 67 67 LEU N N . 91.54 211.54 . . . A . 66 PRO N . . A . 66 PRO CA . . A . 66 PRO C . . A . 67 LEU N . . . 66 . N . . . . . 66 . CA . . . . . 66 . C . . . . . 67 . N . . rr_6ucj 1 130 . . 1 1 67 67 LEU N N . . 1 1 67 67 LEU CA C . . 1 1 67 67 LEU C C . . 1 1 68 68 LYS N N . 66.69 186.69 . . . A . 67 LEU N . . A . 67 LEU CA . . A . 67 LEU C . . . . . . . . . . 67 . N . . . . . 67 . CA . . . . . 67 . C . . . . . 68 . N . . rr_6ucj 1 stop_ loop_ _TA_constraint_comment_org.ID _TA_constraint_comment_org.Comment_text _TA_constraint_comment_org.Comment_begin_line _TA_constraint_comment_org.Comment_begin_column _TA_constraint_comment_org.Comment_end_line _TA_constraint_comment_org.Comment_end_column _TA_constraint_comment_org.Entry_ID _TA_constraint_comment_org.Torsion_angle_constraint_list_ID 1 '2. I 3 Phi -107.05 +/- 41.14 (-148.19 to -65.91)' 2 1 2 51 rr_6ucj 1 2 '3. E 4 Phi -95.09 +/- 130.05 (-225.14 to 34.96)' 7 1 7 50 rr_6ucj 1 3 '4. S 5 Phi -75.99 +/- 147.75 (-223.74 to 71.75)' 12 1 12 50 rr_6ucj 1 4 '5. H 6 Phi -103.26 +/- 18.77 (-122.03 to -84.49)' 17 1 17 51 rr_6ucj 1 5 '6. Q 7 Phi -76.29 +/- 140.00 (-216.29 to 63.71)' 22 1 22 50 rr_6ucj 1 6 '7. V 8 Phi -79.38 +/- 146.25 (-225.63 to 66.88)' 27 1 27 50 rr_6ucj 1 7 '8. E 9 Phi -89.81 +/- 126.10 (-215.91 to 36.30)' 32 1 32 50 rr_6ucj 1 8 '9. K 10 Phi -78.94 +/- 149.83 (-228.78 to 70.89)' 37 1 37 51 rr_6ucj 1 9 '10. R 11 Phi -85.13 +/- 116.70 (-201.83 to 31.56)' 42 1 42 52 rr_6ucj 1 10 '11. K 12 Phi -66.09 +/- 133.61 (-199.70 to 67.52)' 47 1 47 52 rr_6ucj 1 11 '12. c 13 Phi -89.31 +/- 119.88 (-209.19 to 30.58)' 52 1 52 52 rr_6ucj 1 12 '13. N 14 Phi -89.72 +/- 36.67 (-126.39 to -53.05)' 57 1 57 52 rr_6ucj 1 13 '14. T 15 Phi -95.75 +/- 55.34 (-151.08 to -40.41)' 62 1 62 52 rr_6ucj 1 14 '15. A 16 Phi -64.91 +/- 14.84 (-79.75 to -50.07)' 67 1 67 51 rr_6ucj 1 15 '16. T 17 Phi -68.53 +/- 17.41 (-85.94 to -51.12)' 72 1 72 51 rr_6ucj 1 16 '17. c 18 Phi -65.32 +/- 11.33 (-76.65 to -53.99)' 77 1 77 51 rr_6ucj 1 17 '18. A 19 Phi -65.31 +/- 11.03 (-76.34 to -54.29)' 82 1 82 51 rr_6ucj 1 18 '19. T 20 Phi -63.07 +/- 6.00 (-69.07 to -57.07)' 87 1 87 50 rr_6ucj 1 19 '20. Q 21 Phi -62.61 +/- 11.69 (-74.31 to -50.92)' 92 1 92 51 rr_6ucj 1 20 '21. R 22 Phi -63.65 +/- 8.30 (-71.95 to -55.35)' 97 1 97 50 rr_6ucj 1 21 '22. L 23 Phi -63.75 +/- 7.51 (-71.26 to -56.24)' 102 1 102 50 rr_6ucj 1 22 '23. A 24 Phi -63.46 +/- 11.72 (-75.18 to -51.74)' 107 1 107 51 rr_6ucj 1 23 '24. N 25 Phi -66.19 +/- 13.51 (-79.70 to -52.69)' 112 1 112 51 rr_6ucj 1 24 '25. F 26 Phi -66.22 +/- 8.24 (-74.46 to -57.97)' 117 1 117 50 rr_6ucj 1 25 '26. L 27 Phi -65.52 +/- 11.20 (-76.72 to -54.32)' 122 1 122 51 rr_6ucj 1 26 '27. V 28 Phi -73.14 +/- 22.76 (-95.90 to -50.38)' 127 1 127 51 rr_6ucj 1 27 '28. H 29 Phi -73.32 +/- 23.77 (-97.09 to -49.54)' 132 1 132 51 rr_6ucj 1 28 '29. S 30 Phi -76.29 +/- 41.84 (-118.13 to -34.45)' 137 1 137 52 rr_6ucj 1 29 '30. S 31 Phi -66.57 +/- 18.16 (-84.73 to -48.40)' 142 1 142 51 rr_6ucj 1 30 '31. N 32 Phi -67.20 +/- 20.01 (-87.22 to -47.19)' 147 1 147 51 rr_6ucj 1 31 '32. N 33 Phi -65.29 +/- 10.36 (-75.65 to -54.93)' 152 1 152 51 rr_6ucj 1 32 '33. F 34 Phi -61.51 +/- 10.08 (-71.58 to -51.43)' 157 1 157 51 rr_6ucj 1 33 '34. G 35 Phi -64.27 +/- 17.08 (-81.35 to -47.20)' 162 1 162 51 rr_6ucj 1 34 '35. A 36 Phi -63.15 +/- 6.63 (-69.78 to -56.52)' 167 1 167 50 rr_6ucj 1 35 '36. I 37 Phi -71.04 +/- 19.90 (-90.94 to -51.14)' 172 1 172 51 rr_6ucj 1 36 '37. L 38 Phi -64.95 +/- 14.29 (-79.24 to -50.66)' 177 1 177 51 rr_6ucj 1 37 '38. S 39 Phi -72.10 +/- 37.73 (-109.83 to -34.37)' 182 1 182 52 rr_6ucj 1 38 '39. S 40 Phi -77.78 +/- 36.27 (-114.05 to -41.51)' 187 1 187 52 rr_6ucj 1 39 '40. T 41 Phi -93.32 +/- 40.99 (-134.30 to -52.33)' 192 1 192 52 rr_6ucj 1 40 '41. N 42 Phi -75.02 +/- 38.61 (-113.63 to -36.41)' 197 1 197 52 rr_6ucj 1 41 '42. V 43 Phi -91.67 +/- 44.11 (-135.77 to -47.56)' 202 1 202 52 rr_6ucj 1 42 '43. G 44 Phi 88.42 +/- 29.62 (58.80 to 118.05)' 207 1 207 49 rr_6ucj 1 43 '44. S 45 Phi -72.56 +/- 46.77 (-119.33 to -25.78)' 212 1 212 52 rr_6ucj 1 44 '45. N 46 Phi -68.50 +/- 25.18 (-93.67 to -43.32)' 217 1 217 51 rr_6ucj 1 45 '46. T 47 Phi -74.99 +/- 39.59 (-114.58 to -35.40)' 222 1 222 52 rr_6ucj 1 46 '47. Y 48 Phi -103.60 +/- 23.57 (-127.17 to -80.03)' 227 1 227 53 rr_6ucj 1 47 '48. G 49 Phi -93.68 +/- 80.29 (-173.98 to -13.39)' 232 1 232 52 rr_6ucj 1 48 '49. K 50 Phi -60.85 +/- 14.59 (-75.43 to -46.26)' 237 1 237 51 rr_6ucj 1 49 '50. R 51 Phi -64.73 +/- 8.69 (-73.42 to -56.04)' 242 1 242 50 rr_6ucj 1 50 '51. N 52 Phi -62.60 +/- 9.31 (-71.91 to -53.29)' 247 1 247 50 rr_6ucj 1 51 '52. A 53 Phi -63.78 +/- 6.84 (-70.62 to -56.94)' 252 1 252 50 rr_6ucj 1 52 '53. V 54 Phi -66.66 +/- 16.86 (-83.52 to -49.80)' 257 1 257 51 rr_6ucj 1 53 '54. E 55 Phi -60.49 +/- 10.27 (-70.76 to -50.21)' 262 1 262 51 rr_6ucj 1 54 '55. V 56 Phi -66.08 +/- 10.91 (-76.99 to -55.18)' 267 1 267 51 rr_6ucj 1 55 '56. L 57 Phi -63.67 +/- 12.89 (-76.56 to -50.78)' 272 1 272 51 rr_6ucj 1 56 '57. K 58 Phi -72.93 +/- 34.17 (-107.11 to -38.76)' 277 1 277 52 rr_6ucj 1 57 '58. R 59 Phi -88.70 +/- 29.06 (-117.76 to -59.64)' 282 1 282 52 rr_6ucj 1 58 '59. E 60 Phi -89.97 +/- 51.17 (-141.14 to -38.81)' 287 1 287 52 rr_6ucj 1 59 '60. P 61 Phi -61.69 +/- 17.94 (-79.63 to -43.75)' 292 1 292 51 rr_6ucj 1 60 '61. L 62 Phi -69.23 +/- 13.14 (-82.37 to -56.10)' 297 1 297 51 rr_6ucj 1 61 '62. N 63 Phi -73.68 +/- 26.99 (-100.67 to -46.69)' 302 1 302 52 rr_6ucj 1 62 '63. Y 64 Phi -103.24 +/- 28.24 (-131.48 to -75.00)' 307 1 307 53 rr_6ucj 1 63 '64. L 65 Phi -111.14 +/- 61.22 (-172.36 to -49.92)' 312 1 312 53 rr_6ucj 1 64 '65. P 66 Phi -70.47 +/- 12.34 (-82.82 to -58.13)' 317 1 317 51 rr_6ucj 1 65 '66. L 67 Phi -107.20 +/- 38.15 (-145.35 to -69.05)' 322 1 322 53 rr_6ucj 1 66 '73. I 3 Psi 123.50 +/- 25.11 (98.39 to 148.60)' 329 1 329 49 rr_6ucj 1 67 '74. E 4 Psi 115.66 +/- 39.25 (76.42 to 154.91)' 334 1 334 49 rr_6ucj 1 68 '75. S 5 Psi 135.28 +/- 80.21 (55.06 to 215.49)' 339 1 339 49 rr_6ucj 1 69 '76. H 6 Psi 1.87 +/- 41.98 (-40.11 to 43.84)' 344 1 344 47 rr_6ucj 1 70 '77. Q 7 Psi 137.65 +/- 80.16 (57.50 to 217.81)' 349 1 349 49 rr_6ucj 1 71 '78. V 8 Psi 126.84 +/- 85.31 (41.53 to 212.16)' 354 1 354 49 rr_6ucj 1 72 '79. E 9 Psi 117.95 +/- 37.55 (80.39 to 155.50)' 359 1 359 49 rr_6ucj 1 73 '80. K 10 Psi 127.19 +/- 85.57 (41.61 to 212.76)' 364 1 364 50 rr_6ucj 1 74 '81. R 11 Psi 123.57 +/- 23.28 (100.29 to 146.86)' 369 1 369 51 rr_6ucj 1 75 '82. K 12 Psi 136.57 +/- 73.36 (63.21 to 209.93)' 374 1 374 50 rr_6ucj 1 76 '83. c 13 Psi 112.84 +/- 43.54 (69.30 to 156.38)' 379 1 379 50 rr_6ucj 1 77 '84. N 14 Psi -22.10 +/- 52.28 (-74.38 to 30.18)' 384 1 384 50 rr_6ucj 1 78 '85. T 15 Psi 165.46 +/- 15.14 (150.32 to 180.60)' 389 1 389 51 rr_6ucj 1 79 '86. A 16 Psi -33.89 +/- 17.58 (-51.47 to -16.31)' 394 1 394 51 rr_6ucj 1 80 '87. T 17 Psi -40.71 +/- 13.19 (-53.90 to -27.52)' 399 1 399 51 rr_6ucj 1 81 '88. c 18 Psi -42.05 +/- 9.91 (-51.96 to -32.14)' 404 1 404 50 rr_6ucj 1 82 '89. A 19 Psi -40.71 +/- 18.85 (-59.56 to -21.86)' 409 1 409 51 rr_6ucj 1 83 '90. T 20 Psi -40.50 +/- 8.23 (-48.73 to -32.26)' 414 1 414 50 rr_6ucj 1 84 '91. Q 21 Psi -46.65 +/- 13.16 (-59.80 to -33.49)' 419 1 419 51 rr_6ucj 1 85 '92. R 22 Psi -42.78 +/- 10.02 (-52.80 to -32.77)' 424 1 424 51 rr_6ucj 1 86 '93. L 23 Psi -41.56 +/- 14.84 (-56.41 to -26.72)' 429 1 429 51 rr_6ucj 1 87 '94. A 24 Psi -41.32 +/- 11.70 (-53.02 to -29.62)' 434 1 434 51 rr_6ucj 1 88 '95. N 25 Psi -37.94 +/- 13.18 (-51.12 to -24.75)' 439 1 439 51 rr_6ucj 1 89 '96. F 26 Psi -41.36 +/- 12.06 (-53.41 to -29.30)' 444 1 444 51 rr_6ucj 1 90 '97. L 27 Psi -37.04 +/- 24.51 (-61.55 to -12.52)' 449 1 449 51 rr_6ucj 1 91 '98. V 28 Psi -38.88 +/- 19.10 (-57.98 to -19.78)' 454 1 454 51 rr_6ucj 1 92 '99. H 29 Psi -21.23 +/- 40.84 (-62.06 to 19.61)' 459 1 459 50 rr_6ucj 1 93 '100. S 30 Psi -25.85 +/- 44.47 (-70.32 to 18.63)' 464 1 464 51 rr_6ucj 1 94 '101. S 31 Psi -38.77 +/- 13.87 (-52.64 to -24.90)' 469 1 469 52 rr_6ucj 1 95 '102. N 32 Psi -37.54 +/- 25.49 (-63.03 to -12.06)' 474 1 474 52 rr_6ucj 1 96 '103. N 33 Psi -38.70 +/- 24.78 (-63.48 to -13.91)' 479 1 479 52 rr_6ucj 1 97 '104. F 34 Psi -37.91 +/- 19.97 (-57.88 to -17.93)' 484 1 484 52 rr_6ucj 1 98 '105. G 35 Psi -42.11 +/- 12.59 (-54.70 to -29.53)' 489 1 489 52 rr_6ucj 1 99 '106. A 36 Psi -40.95 +/- 7.85 (-48.81 to -33.10)' 494 1 494 51 rr_6ucj 1 100 '107. I 37 Psi -36.99 +/- 21.68 (-58.67 to -15.30)' 499 1 499 52 rr_6ucj 1 101 '108. L 38 Psi -29.52 +/- 28.41 (-57.94 to -1.11)' 504 1 504 51 rr_6ucj 1 102 '109. S 39 Psi -25.35 +/- 45.16 (-70.51 to 19.81)' 509 1 509 51 rr_6ucj 1 103 '110. S 40 Psi -24.27 +/- 43.65 (-67.92 to 19.37)' 514 1 514 51 rr_6ucj 1 104 '111. T 41 Psi -11.14 +/- 31.71 (-42.86 to 20.57)' 519 1 519 51 rr_6ucj 1 105 '112. N 42 Psi -28.93 +/- 40.87 (-69.80 to 11.94)' 524 1 524 51 rr_6ucj 1 106 '113. V 43 Psi -12.78 +/- 42.56 (-55.34 to 29.79)' 529 1 529 51 rr_6ucj 1 107 '114. G 44 Psi 13.43 +/- 32.02 (-18.58 to 45.45)' 534 1 534 50 rr_6ucj 1 108 '115. S 45 Psi -26.14 +/- 43.72 (-69.86 to 17.58)' 539 1 539 51 rr_6ucj 1 109 '116. N 46 Psi -33.21 +/- 23.81 (-57.03 to -9.40)' 544 1 544 51 rr_6ucj 1 110 '117. T 47 Psi -31.57 +/- 44.72 (-76.29 to 13.14)' 549 1 549 51 rr_6ucj 1 111 '118. Y 48 Psi 1.50 +/- 32.52 (-31.02 to 34.02)' 554 1 554 49 rr_6ucj 1 112 '119. G 49 Psi 162.72 +/- 101.26 (61.46 to 263.98)' 559 1 559 52 rr_6ucj 1 113 '120. K 50 Psi -29.82 +/- 25.12 (-54.94 to -4.70)' 564 1 564 51 rr_6ucj 1 114 '121. R 51 Psi -35.57 +/- 22.81 (-58.38 to -12.76)' 569 1 569 52 rr_6ucj 1 115 '122. N 52 Psi -43.28 +/- 10.07 (-53.35 to -33.21)' 574 1 574 52 rr_6ucj 1 116 '123. A 53 Psi -35.56 +/- 19.81 (-55.37 to -15.76)' 579 1 579 52 rr_6ucj 1 117 '124. V 54 Psi -40.95 +/- 13.53 (-54.48 to -27.42)' 584 1 584 52 rr_6ucj 1 118 '125. E 55 Psi -37.17 +/- 14.91 (-52.09 to -22.26)' 589 1 589 52 rr_6ucj 1 119 '126. V 56 Psi -34.68 +/- 15.84 (-50.52 to -18.84)' 594 1 594 52 rr_6ucj 1 120 '127. L 57 Psi -36.08 +/- 16.21 (-52.29 to -19.87)' 599 1 599 52 rr_6ucj 1 121 '128. K 58 Psi -33.23 +/- 18.34 (-51.57 to -14.89)' 604 1 604 52 rr_6ucj 1 122 '129. R 59 Psi -12.21 +/- 38.98 (-51.19 to 26.77)' 609 1 609 51 rr_6ucj 1 123 '130. E 60 Psi 114.78 +/- 61.19 (53.59 to 175.97)' 614 1 614 51 rr_6ucj 1 124 '131. P 61 Psi -25.25 +/- 18.84 (-44.09 to -6.40)' 619 1 619 51 rr_6ucj 1 125 '132. L 62 Psi -22.37 +/- 17.70 (-40.07 to -4.67)' 624 1 624 51 rr_6ucj 1 126 '133. N 63 Psi -25.02 +/- 31.55 (-56.57 to 6.53)' 629 1 629 50 rr_6ucj 1 127 '134. Y 64 Psi -0.04 +/- 47.80 (-47.84 to 47.76)' 634 1 634 50 rr_6ucj 1 128 '135. L 65 Psi 128.97 +/- 62.53 (66.44 to 191.50)' 639 1 639 51 rr_6ucj 1 129 '136. P 66 Psi 151.54 +/- 13.53 (138.01 to 165.06)' 644 1 644 52 rr_6ucj 1 130 '137. L 67 Psi 126.69 +/- 41.23 (85.46 to 167.91)' 649 1 649 51 rr_6ucj 1 stop_ loop_ _TA_constraint_parse_err.ID _TA_constraint_parse_err.Content _TA_constraint_parse_err.Begin_line _TA_constraint_parse_err.Begin_column _TA_constraint_parse_err.End_line _TA_constraint_parse_err.End_column _TA_constraint_parse_err.Entry_ID _TA_constraint_parse_err.Torsion_angle_constraint_list_ID 1 '# Restraints file 6: D_1000244371_mr_P3.xplor-nih.V1' 1 1 1 52 rr_6ucj 1 stop_ save_ save_CNS/XPLOR_dipolar_coupling_2 _RDC_constraint_list.Sf_category RDC_constraints _RDC_constraint_list.Sf_framecode CNS/XPLOR_dipolar_coupling_2 _RDC_constraint_list.Entry_ID rr_6ucj _RDC_constraint_list.ID 1 _RDC_constraint_list.Details 'Generated by Wattos' _RDC_constraint_list.Constraint_file_ID 1 _RDC_constraint_list.Block_ID 2 loop_ _RDC_constraint_software.Software_ID _RDC_constraint_software.Software_label _RDC_constraint_software.Method_ID _RDC_constraint_software.Method_label _RDC_constraint_software.Entry_ID _RDC_constraint_software.RDC_constraint_list_ID . . . . rr_6ucj 1 stop_ loop_ _RDC_constraint.ID _RDC_constraint.Assembly_atom_ID_1 _RDC_constraint.Entity_assembly_ID_1 _RDC_constraint.Entity_ID_1 _RDC_constraint.Comp_index_ID_1 _RDC_constraint.Seq_ID_1 _RDC_constraint.Comp_ID_1 _RDC_constraint.Atom_ID_1 _RDC_constraint.Atom_type_1 _RDC_constraint.Atom_isotope_number_1 _RDC_constraint.Resonance_ID_1 _RDC_constraint.Assembly_atom_ID_2 _RDC_constraint.Entity_assembly_ID_2 _RDC_constraint.Entity_ID_2 _RDC_constraint.Comp_index_ID_2 _RDC_constraint.Seq_ID_2 _RDC_constraint.Comp_ID_2 _RDC_constraint.Atom_ID_2 _RDC_constraint.Atom_type_2 _RDC_constraint.Atom_isotope_number_2 _RDC_constraint.Resonance_ID_2 _RDC_constraint.RDC_val _RDC_constraint.RDC_lower_bound _RDC_constraint.RDC_upper_bound _RDC_constraint.RDC_val_err _RDC_constraint.RDC_val_scale_factor _RDC_constraint.RDC_bond_length _RDC_constraint.Source_experiment_ID _RDC_constraint.PDB_record_ID_1 _RDC_constraint.PDB_model_num_1 _RDC_constraint.PDB_strand_ID_1 _RDC_constraint.PDB_ins_code_1 _RDC_constraint.PDB_residue_no_1 _RDC_constraint.PDB_residue_name_1 _RDC_constraint.PDB_atom_name_1 _RDC_constraint.PDB_record_ID_2 _RDC_constraint.PDB_model_num_2 _RDC_constraint.PDB_strand_ID_2 _RDC_constraint.PDB_ins_code_2 _RDC_constraint.PDB_residue_no_2 _RDC_constraint.PDB_residue_name_2 _RDC_constraint.PDB_atom_name_2 _RDC_constraint.Auth_entity_assembly_ID_1 _RDC_constraint.Auth_asym_ID_1 _RDC_constraint.Auth_chain_ID_1 _RDC_constraint.Auth_seq_ID_1 _RDC_constraint.Auth_comp_ID_1 _RDC_constraint.Auth_atom_ID_1 _RDC_constraint.Auth_alt_ID_1 _RDC_constraint.Auth_atom_name_1 _RDC_constraint.Auth_entity_assembly_ID_2 _RDC_constraint.Auth_asym_ID_2 _RDC_constraint.Auth_chain_ID_2 _RDC_constraint.Auth_seq_ID_2 _RDC_constraint.Auth_comp_ID_2 _RDC_constraint.Auth_atom_ID_2 _RDC_constraint.Auth_alt_ID_2 _RDC_constraint.Auth_atom_name_2 _RDC_constraint.Entry_ID _RDC_constraint.RDC_constraint_list_ID 1 . 1 1 13 13 CYS N N . . . 1 1 13 13 CYS H H . . -9.78 . . . . . . . . A . 13 CYS N . . A . 13 CYS H . . . 13 . N . . . . . 13 . HN . . rr_6ucj 1 2 . 1 1 14 14 ASN N N . . . 1 1 14 14 ASN H H . . 1.05 . . . . . . . . A . 14 ASN N . . A . 14 ASN H . . . 14 . N . . . . . 14 . HN . . rr_6ucj 1 3 . 1 1 15 15 THR N N . . . 1 1 15 15 THR H H . . 1.23 . . . . . . . . A . 15 THR N . . A . 15 THR H . . . 15 . N . . . . . 15 . HN . . rr_6ucj 1 4 . 1 1 16 16 ALA N N . . . 1 1 16 16 ALA H H . . -6.85 . . . . . . . . A . 16 ALA N . . A . 16 ALA H . . . 16 . N . . . . . 16 . HN . . rr_6ucj 1 5 . 1 1 17 17 THR N N . . . 1 1 17 17 THR H H . . 0.31 . . . . . . . . A . 17 THR N . . A . 17 THR H . . . 17 . N . . . . . 17 . HN . . rr_6ucj 1 6 . 1 1 20 20 THR N N . . . 1 1 20 20 THR H H . . -4.64 . . . . . . . . A . 20 THR N . . A . 20 THR H . . . 20 . N . . . . . 20 . HN . . rr_6ucj 1 7 . 1 1 21 21 GLN N N . . . 1 1 21 21 GLN H H . . 1.73 . . . . . . . . A . 21 GLN N . . A . 21 GLN H . . . 21 . N . . . . . 21 . HN . . rr_6ucj 1 8 . 1 1 23 23 LEU N N . . . 1 1 23 23 LEU H H . . -2.90 . . . . . . . . A . 23 LEU N . . A . 23 LEU H . . . 23 . N . . . . . 23 . HN . . rr_6ucj 1 9 . 1 1 24 24 ALA N N . . . 1 1 24 24 ALA H H . . -0.44 . . . . . . . . A . 24 ALA N . . A . 24 ALA H . . . 24 . N . . . . . 24 . HN . . rr_6ucj 1 10 . 1 1 25 25 ASN N N . . . 1 1 25 25 ASN H H . . 3.50 . . . . . . . . A . 25 ASN N . . A . 25 ASN H . . . 25 . N . . . . . 25 . HN . . rr_6ucj 1 11 . 1 1 28 28 VAL N N . . . 1 1 28 28 VAL H H . . 1.78 . . . . . . . . A . 28 VAL N . . A . 28 VAL H . . . 28 . N . . . . . 28 . HN . . rr_6ucj 1 12 . 1 1 29 29 HIS N N . . . 1 1 29 29 HIS H H . . -4.35 . . . . . . . . A . 29 HIS N . . A . 29 HIS H . . . 29 . N . . . . . 29 . HN . . rr_6ucj 1 13 . 1 1 30 30 SER N N . . . 1 1 30 30 SER H H . . -3.15 . . . . . . . . A . 30 SER N . . A . 30 SER H . . . 30 . N . . . . . 30 . HN . . rr_6ucj 1 14 . 1 1 32 32 ASN N N . . . 1 1 32 32 ASN H H . . 5.25 . . . . . . . . A . 32 ASN N . . A . 32 ASN H . . . 32 . N . . . . . 32 . HN . . rr_6ucj 1 15 . 1 1 33 33 ASN N N . . . 1 1 33 33 ASN H H . . 0.70 . . . . . . . . A . 33 ASN N . . A . 33 ASN H . . . 33 . N . . . . . 33 . HN . . rr_6ucj 1 16 . 1 1 34 34 PHE N N . . . 1 1 34 34 PHE H H . . 3.17 . . . . . . . . A . 34 PHE N . . A . 34 PHE H . . . 34 . N . . . . . 34 . HN . . rr_6ucj 1 17 . 1 1 35 35 GLY N N . . . 1 1 35 35 GLY H H . . 2.06 . . . . . . . . A . 35 GLY N . . A . 35 GLY H . . . 35 . N . . . . . 35 . HN . . rr_6ucj 1 18 . 1 1 36 36 ALA N N . . . 1 1 36 36 ALA H H . . 3.78 . . . . . . . . A . 36 ALA N . . A . 36 ALA H . . . 36 . N . . . . . 36 . HN . . rr_6ucj 1 19 . 1 1 38 38 LEU N N . . . 1 1 38 38 LEU H H . . 0.83 . . . . . . . . A . 38 LEU N . . A . 38 LEU H . . . 38 . N . . . . . 38 . HN . . rr_6ucj 1 20 . 1 1 39 39 SER N N . . . 1 1 39 39 SER H H . . 3.70 . . . . . . . . A . 39 SER N . . A . 39 SER H . . . 39 . N . . . . . 39 . HN . . rr_6ucj 1 21 . 1 1 52 52 ASN N N . . . 1 1 52 52 ASN H H . . 0.36 . . . . . . . . A . 52 ASN N . . A . 52 ASN H . . . 52 . N . . . . . 52 . HN . . rr_6ucj 1 22 . 1 1 53 53 ALA N N . . . 1 1 53 53 ALA H H . . -4.88 . . . . . . . . A . 53 ALA N . . A . 53 ALA H . . . 53 . N . . . . . 53 . HN . . rr_6ucj 1 23 . 1 1 54 54 VAL N N . . . 1 1 54 54 VAL H H . . -6.08 . . . . . . . . A . 54 VAL N . . A . 54 VAL H . . . 54 . N . . . . . 54 . HN . . rr_6ucj 1 24 . 1 1 55 55 GLU N N . . . 1 1 55 55 GLU H H . . 0.77 . . . . . . . . A . 55 GLU N . . A . 55 GLU H . . . 55 . N . . . . . 55 . HN . . rr_6ucj 1 25 . 1 1 56 56 VAL N N . . . 1 1 56 56 VAL H H . . -0.23 . . . . . . . . A . 56 VAL N . . A . 56 VAL H . . . 56 . N . . . . . 56 . HN . . rr_6ucj 1 26 . 1 1 57 57 LEU N N . . . 1 1 57 57 LEU H H . . -4.41 . . . . . . . . A . 57 LEU N . . A . 57 LEU H . . . 57 . N . . . . . 57 . HN . . rr_6ucj 1 27 . 1 1 58 58 LYS N N . . . 1 1 58 58 LYS H H . . -3.68 . . . . . . . . A . 58 LYS N . . A . 58 LYS H . . . 58 . N . . . . . 58 . HN . . rr_6ucj 1 28 . 1 1 62 62 LEU N N . . . 1 1 62 62 LEU H H . . -0.71 . . . . . . . . A . 62 LEU N . . A . 62 LEU H . . . 62 . N . . . . . 62 . HN . . rr_6ucj 1 29 . 1 1 63 63 ASN N N . . . 1 1 63 63 ASN H H . . -1.37 . . . . . . . . A . 63 ASN N . . A . 63 ASN H . . . 63 . N . . . . . 63 . HN . . rr_6ucj 1 30 . 1 1 65 65 LEU N N . . . 1 1 65 65 LEU H H . . 0.02 . . . . . . . . A . 65 LEU N . . A . 65 LEU H . . . 65 . N . . . . . 65 . HN . . rr_6ucj 1 31 . 1 1 13 13 CYS CA C . . . 1 1 13 13 CYS HA H . . -20.84 . . . . . . . . A . 13 CYS CA . . A . 13 CYS HA . . . 13 . CA . . . . . 13 . HA . . rr_6ucj 1 32 . 1 1 14 14 ASN CA C . . . 1 1 14 14 ASN HA H . . -7.64 . . . . . . . . A . 14 ASN CA . . A . 14 ASN HA . . . 14 . CA . . . . . 14 . HA . . rr_6ucj 1 33 . 1 1 16 16 ALA CA C . . . 1 1 16 16 ALA HA H . . -4.36 . . . . . . . . A . 16 ALA CA . . A . 16 ALA HA . . . 16 . CA . . . . . 16 . HA . . rr_6ucj 1 34 . 1 1 19 19 ALA CA C . . . 1 1 19 19 ALA HA H . . 9.65 . . . . . . . . A . 19 ALA CA . . A . 19 ALA HA . . . 19 . CA . . . . . 19 . HA . . rr_6ucj 1 35 . 1 1 20 20 THR CA C . . . 1 1 20 20 THR HA H . . 27.49 . . . . . . . . A . 20 THR CA . . A . 20 THR HA . . . 20 . CA . . . . . 20 . HA . . rr_6ucj 1 36 . 1 1 22 22 ARG CA C . . . 1 1 22 22 ARG HA H . . 8.04 . . . . . . . . A . 22 ARG CA . . A . 22 ARG HA . . . 22 . CA . . . . . 22 . HA . . rr_6ucj 1 37 . 1 1 25 25 ASN CA C . . . 1 1 25 25 ASN HA H . . -25.77 . . . . . . . . A . 25 ASN CA . . A . 25 ASN HA . . . 25 . CA . . . . . 25 . HA . . rr_6ucj 1 38 . 1 1 26 26 PHE CA C . . . 1 1 26 26 PHE HA H . . 19.11 . . . . . . . . A . 26 PHE CA . . A . 26 PHE HA . . . 26 . CA . . . . . 26 . HA . . rr_6ucj 1 39 . 1 1 27 27 LEU CA C . . . 1 1 27 27 LEU HA H . . -6.23 . . . . . . . . A . 27 LEU CA . . A . 27 LEU HA . . . 27 . CA . . . . . 27 . HA . . rr_6ucj 1 40 . 1 1 28 28 VAL CA C . . . 1 1 28 28 VAL HA H . . 30.51 . . . . . . . . A . 28 VAL CA . . A . 28 VAL HA . . . 28 . CA . . . . . 28 . HA . . rr_6ucj 1 41 . 1 1 29 29 HIS CA C . . . 1 1 29 29 HIS HA H . . -24.75 . . . . . . . . A . 29 HIS CA . . A . 29 HIS HA . . . 29 . CA . . . . . 29 . HA . . rr_6ucj 1 42 . 1 1 30 30 SER CA C . . . 1 1 30 30 SER HA H . . -1.81 . . . . . . . . A . 30 SER CA . . A . 30 SER HA . . . 30 . CA . . . . . 30 . HA . . rr_6ucj 1 43 . 1 1 31 31 SER CA C . . . 1 1 31 31 SER HA H . . 16.31 . . . . . . . . A . 31 SER CA . . A . 31 SER HA . . . 31 . CA . . . . . 31 . HA . . rr_6ucj 1 44 . 1 1 32 32 ASN CA C . . . 1 1 32 32 ASN HA H . . 5.86 . . . . . . . . A . 32 ASN CA . . A . 32 ASN HA . . . 32 . CA . . . . . 32 . HA . . rr_6ucj 1 45 . 1 1 33 33 ASN CA C . . . 1 1 33 33 ASN HA H . . -12.96 . . . . . . . . A . 33 ASN CA . . A . 33 ASN HA . . . 33 . CA . . . . . 33 . HA . . rr_6ucj 1 46 . 1 1 34 34 PHE CA C . . . 1 1 34 34 PHE HA H . . 3.66 . . . . . . . . A . 34 PHE CA . . A . 34 PHE HA . . . 34 . CA . . . . . 34 . HA . . rr_6ucj 1 47 . 1 1 35 35 GLY CA C . . . 1 1 35 35 GLY HA2 H . . -0.07 . . . . . . . . A . 35 GLY CA . . A . 35 GLY HA2 . . . 35 . CA . . . . . 35 . HA# . . rr_6ucj 1 47 . 1 1 35 35 GLY CA C . . . 1 1 35 35 GLY HA3 H . . -0.07 . . . . . . . . A . 35 GLY CA . . A . 35 GLY HA3 . . . 35 . CA . . . . . 35 . HA# . . rr_6ucj 1 48 . 1 1 36 36 ALA CA C . . . 1 1 36 36 ALA HA H . . -6.55 . . . . . . . . A . 36 ALA CA . . A . 36 ALA HA . . . 36 . CA . . . . . 36 . HA . . rr_6ucj 1 49 . 1 1 37 37 ILE CA C . . . 1 1 37 37 ILE HA H . . 1.68 . . . . . . . . A . 37 ILE CA . . A . 37 ILE HA . . . 37 . CA . . . . . 37 . HA . . rr_6ucj 1 50 . 1 1 38 38 LEU CA C . . . 1 1 38 38 LEU HA H . . -5.63 . . . . . . . . A . 38 LEU CA . . A . 38 LEU HA . . . 38 . CA . . . . . 38 . HA . . rr_6ucj 1 51 . 1 1 39 39 SER CA C . . . 1 1 39 39 SER HA H . . 10.35 . . . . . . . . A . 39 SER CA . . A . 39 SER HA . . . 39 . CA . . . . . 39 . HA . . rr_6ucj 1 52 . 1 1 51 51 ARG CA C . . . 1 1 51 51 ARG HA H . . -9.09 . . . . . . . . A . 51 ARG CA . . A . 51 ARG HA . . . 51 . CA . . . . . 51 . HA . . rr_6ucj 1 53 . 1 1 52 52 ASN CA C . . . 1 1 52 52 ASN HA H . . -4.06 . . . . . . . . A . 52 ASN CA . . A . 52 ASN HA . . . 52 . CA . . . . . 52 . HA . . rr_6ucj 1 54 . 1 1 53 53 ALA CA C . . . 1 1 53 53 ALA HA H . . 6.12 . . . . . . . . A . 53 ALA CA . . A . 53 ALA HA . . . 53 . CA . . . . . 53 . HA . . rr_6ucj 1 55 . 1 1 54 54 VAL CA C . . . 1 1 54 54 VAL HA H . . 13.93 . . . . . . . . A . 54 VAL CA . . A . 54 VAL HA . . . 54 . CA . . . . . 54 . HA . . rr_6ucj 1 56 . 1 1 55 55 GLU CA C . . . 1 1 55 55 GLU HA H . . -11.92 . . . . . . . . A . 55 GLU CA . . A . 55 GLU HA . . . 55 . CA . . . . . 55 . HA . . rr_6ucj 1 57 . 1 1 56 56 VAL CA C . . . 1 1 56 56 VAL HA H . . -3.34 . . . . . . . . A . 56 VAL CA . . A . 56 VAL HA . . . 56 . CA . . . . . 56 . HA . . rr_6ucj 1 58 . 1 1 57 57 LEU CA C . . . 1 1 57 57 LEU HA H . . 21.45 . . . . . . . . A . 57 LEU CA . . A . 57 LEU HA . . . 57 . CA . . . . . 57 . HA . . rr_6ucj 1 59 . 1 1 58 58 LYS CA C . . . 1 1 58 58 LYS HA H . . -7.62 . . . . . . . . A . 58 LYS CA . . A . 58 LYS HA . . . 58 . CA . . . . . 58 . HA . . rr_6ucj 1 60 . 1 1 59 59 ARG CA C . . . 1 1 59 59 ARG HA H . . -3.54 . . . . . . . . A . 59 ARG CA . . A . 59 ARG HA . . . 59 . CA . . . . . 59 . HA . . rr_6ucj 1 61 . 1 1 61 61 PRO CA C . . . 1 1 61 61 PRO HA H . . -15.16 . . . . . . . . A . 61 PRO CA . . A . 61 PRO HA . . . 61 . CA . . . . . 61 . HA . . rr_6ucj 1 62 . 1 1 62 62 LEU CA C . . . 1 1 62 62 LEU HA H . . -6.30 . . . . . . . . A . 62 LEU CA . . A . 62 LEU HA . . . 62 . CA . . . . . 62 . HA . . rr_6ucj 1 63 . 1 1 63 63 ASN CA C . . . 1 1 63 63 ASN HA H . . 7.17 . . . . . . . . A . 63 ASN CA . . A . 63 ASN HA . . . 63 . CA . . . . . 63 . HA . . rr_6ucj 1 64 . 1 1 64 64 TYR CA C . . . 1 1 64 64 TYR HA H . . -3.57 . . . . . . . . A . 64 TYR CA . . A . 64 TYR HA . . . 64 . CA . . . . . 64 . HA . . rr_6ucj 1 65 . 1 1 14 14 ASN N N . . . 1 1 14 14 ASN H H . . 3.89 . . . . . . . . A . 14 ASN N . . A . 14 ASN H . . . 14 . N . . . . . 14 . HN . . rr_6ucj 1 66 . 1 1 15 15 THR N N . . . 1 1 15 15 THR H H . . -15.33 . . . . . . . . A . 15 THR N . . A . 15 THR H . . . 15 . N . . . . . 15 . HN . . rr_6ucj 1 67 . 1 1 16 16 ALA N N . . . 1 1 16 16 ALA H H . . -18.68 . . . . . . . . A . 16 ALA N . . A . 16 ALA H . . . 16 . N . . . . . 16 . HN . . rr_6ucj 1 68 . 1 1 17 17 THR N N . . . 1 1 17 17 THR H H . . -3.36 . . . . . . . . A . 17 THR N . . A . 17 THR H . . . 17 . N . . . . . 17 . HN . . rr_6ucj 1 69 . 1 1 20 20 THR N N . . . 1 1 20 20 THR H H . . -12.31 . . . . . . . . A . 20 THR N . . A . 20 THR H . . . 20 . N . . . . . 20 . HN . . rr_6ucj 1 70 . 1 1 24 24 ALA N N . . . 1 1 24 24 ALA H H . . -1.88 . . . . . . . . A . 24 ALA N . . A . 24 ALA H . . . 24 . N . . . . . 24 . HN . . rr_6ucj 1 71 . 1 1 25 25 ASN N N . . . 1 1 25 25 ASN H H . . 2.24 . . . . . . . . A . 25 ASN N . . A . 25 ASN H . . . 25 . N . . . . . 25 . HN . . rr_6ucj 1 72 . 1 1 28 28 VAL N N . . . 1 1 28 28 VAL H H . . 10.98 . . . . . . . . A . 28 VAL N . . A . 28 VAL H . . . 28 . N . . . . . 28 . HN . . rr_6ucj 1 73 . 1 1 30 30 SER N N . . . 1 1 30 30 SER H H . . -15.01 . . . . . . . . A . 30 SER N . . A . 30 SER H . . . 30 . N . . . . . 30 . HN . . rr_6ucj 1 74 . 1 1 32 32 ASN N N . . . 1 1 32 32 ASN H H . . 14.60 . . . . . . . . A . 32 ASN N . . A . 32 ASN H . . . 32 . N . . . . . 32 . HN . . rr_6ucj 1 75 . 1 1 33 33 ASN N N . . . 1 1 33 33 ASN H H . . -5.99 . . . . . . . . A . 33 ASN N . . A . 33 ASN H . . . 33 . N . . . . . 33 . HN . . rr_6ucj 1 76 . 1 1 34 34 PHE N N . . . 1 1 34 34 PHE H H . . 8.34 . . . . . . . . A . 34 PHE N . . A . 34 PHE H . . . 34 . N . . . . . 34 . HN . . rr_6ucj 1 77 . 1 1 35 35 GLY N N . . . 1 1 35 35 GLY H H . . 14.45 . . . . . . . . A . 35 GLY N . . A . 35 GLY H . . . 35 . N . . . . . 35 . HN . . rr_6ucj 1 78 . 1 1 36 36 ALA N N . . . 1 1 36 36 ALA H H . . 15.02 . . . . . . . . A . 36 ALA N . . A . 36 ALA H . . . 36 . N . . . . . 36 . HN . . rr_6ucj 1 79 . 1 1 38 38 LEU N N . . . 1 1 38 38 LEU H H . . 9.28 . . . . . . . . A . 38 LEU N . . A . 38 LEU H . . . 38 . N . . . . . 38 . HN . . rr_6ucj 1 80 . 1 1 39 39 SER N N . . . 1 1 39 39 SER H H . . 12.35 . . . . . . . . A . 39 SER N . . A . 39 SER H . . . 39 . N . . . . . 39 . HN . . rr_6ucj 1 81 . 1 1 51 51 ARG N N . . . 1 1 51 51 ARG H H . . -5.00 . . . . . . . . A . 51 ARG N . . A . 51 ARG H . . . 51 . N . . . . . 51 . HN . . rr_6ucj 1 82 . 1 1 52 52 ASN N N . . . 1 1 52 52 ASN H H . . -11.95 . . . . . . . . A . 52 ASN N . . A . 52 ASN H . . . 52 . N . . . . . 52 . HN . . rr_6ucj 1 83 . 1 1 53 53 ALA N N . . . 1 1 53 53 ALA H H . . -9.00 . . . . . . . . A . 53 ALA N . . A . 53 ALA H . . . 53 . N . . . . . 53 . HN . . rr_6ucj 1 84 . 1 1 54 54 VAL N N . . . 1 1 54 54 VAL H H . . -8.61 . . . . . . . . A . 54 VAL N . . A . 54 VAL H . . . 54 . N . . . . . 54 . HN . . rr_6ucj 1 85 . 1 1 55 55 GLU N N . . . 1 1 55 55 GLU H H . . -10.17 . . . . . . . . A . 55 GLU N . . A . 55 GLU H . . . 55 . N . . . . . 55 . HN . . rr_6ucj 1 86 . 1 1 56 56 VAL N N . . . 1 1 56 56 VAL H H . . -13.75 . . . . . . . . A . 56 VAL N . . A . 56 VAL H . . . 56 . N . . . . . 56 . HN . . rr_6ucj 1 87 . 1 1 57 57 LEU N N . . . 1 1 57 57 LEU H H . . -9.89 . . . . . . . . A . 57 LEU N . . A . 57 LEU H . . . 57 . N . . . . . 57 . HN . . rr_6ucj 1 88 . 1 1 58 58 LYS N N . . . 1 1 58 58 LYS H H . . -7.68 . . . . . . . . A . 58 LYS N . . A . 58 LYS H . . . 58 . N . . . . . 58 . HN . . rr_6ucj 1 89 . 1 1 59 59 ARG N N . . . 1 1 59 59 ARG H H . . -9.39 . . . . . . . . A . 59 ARG N . . A . 59 ARG H . . . 59 . N . . . . . 59 . HN . . rr_6ucj 1 90 . 1 1 62 62 LEU N N . . . 1 1 62 62 LEU H H . . -1.95 . . . . . . . . A . 62 LEU N . . A . 62 LEU H . . . 62 . N . . . . . 62 . HN . . rr_6ucj 1 91 . 1 1 63 63 ASN N N . . . 1 1 63 63 ASN H H . . -3.42 . . . . . . . . A . 63 ASN N . . A . 63 ASN H . . . 63 . N . . . . . 63 . HN . . rr_6ucj 1 92 . 1 1 65 65 LEU N N . . . 1 1 65 65 LEU H H . . -0.41 . . . . . . . . A . 65 LEU N . . A . 65 LEU H . . . 65 . N . . . . . 65 . HN . . rr_6ucj 1 93 . 1 1 29 29 HIS CA C . . . 1 1 29 29 HIS HA H . . 40.35 . . . . . . . . A . 29 HIS CA . . A . 29 HIS HA . . . 29 . CA . . . . . 29 . HA . . rr_6ucj 1 94 . 1 1 31 31 SER CA C . . . 1 1 31 31 SER HA H . . 5.89 . . . . . . . . A . 31 SER CA . . A . 31 SER HA . . . 31 . CA . . . . . 31 . HA . . rr_6ucj 1 95 . 1 1 33 33 ASN CA C . . . 1 1 33 33 ASN HA H . . 17.56 . . . . . . . . A . 33 ASN CA . . A . 33 ASN HA . . . 33 . CA . . . . . 33 . HA . . rr_6ucj 1 96 . 1 1 34 34 PHE CA C . . . 1 1 34 34 PHE HA H . . 21.00 . . . . . . . . A . 34 PHE CA . . A . 34 PHE HA . . . 34 . CA . . . . . 34 . HA . . rr_6ucj 1 97 . 1 1 35 35 GLY CA C . . . 1 1 35 35 GLY HA2 H . . 15.82 . . . . . . . . A . 35 GLY CA . . A . 35 GLY HA2 . . . 35 . CA . . . . . 35 . HA# . . rr_6ucj 1 97 . 1 1 35 35 GLY CA C . . . 1 1 35 35 GLY HA3 H . . 15.82 . . . . . . . . A . 35 GLY CA . . A . 35 GLY HA3 . . . 35 . CA . . . . . 35 . HA# . . rr_6ucj 1 98 . 1 1 36 36 ALA CA C . . . 1 1 36 36 ALA HA H . . 12.80 . . . . . . . . A . 36 ALA CA . . A . 36 ALA HA . . . 36 . CA . . . . . 36 . HA . . rr_6ucj 1 99 . 1 1 37 37 ILE CA C . . . 1 1 37 37 ILE HA H . . 6.92 . . . . . . . . A . 37 ILE CA . . A . 37 ILE HA . . . 37 . CA . . . . . 37 . HA . . rr_6ucj 1 100 . 1 1 38 38 LEU CA C . . . 1 1 38 38 LEU HA H . . 26.17 . . . . . . . . A . 38 LEU CA . . A . 38 LEU HA . . . 38 . CA . . . . . 38 . HA . . rr_6ucj 1 101 . 1 1 39 39 SER CA C . . . 1 1 39 39 SER HA H . . -2.89 . . . . . . . . A . 39 SER CA . . A . 39 SER HA . . . 39 . CA . . . . . 39 . HA . . rr_6ucj 1 102 . 1 1 51 51 ARG CA C . . . 1 1 51 51 ARG HA H . . -3.14 . . . . . . . . A . 51 ARG CA . . A . 51 ARG HA . . . 51 . CA . . . . . 51 . HA . . rr_6ucj 1 103 . 1 1 53 53 ALA CA C . . . 1 1 53 53 ALA HA H . . 16.25 . . . . . . . . A . 53 ALA CA . . A . 53 ALA HA . . . 53 . CA . . . . . 53 . HA . . rr_6ucj 1 104 . 1 1 54 54 VAL CA C . . . 1 1 54 54 VAL HA H . . -16.40 . . . . . . . . A . 54 VAL CA . . A . 54 VAL HA . . . 54 . CA . . . . . 54 . HA . . rr_6ucj 1 105 . 1 1 55 55 GLU CA C . . . 1 1 55 55 GLU HA H . . 3.87 . . . . . . . . A . 55 GLU CA . . A . 55 GLU HA . . . 55 . CA . . . . . 55 . HA . . rr_6ucj 1 106 . 1 1 57 57 LEU CA C . . . 1 1 57 57 LEU HA H . . 21.20 . . . . . . . . A . 57 LEU CA . . A . 57 LEU HA . . . 57 . CA . . . . . 57 . HA . . rr_6ucj 1 107 . 1 1 58 58 LYS CA C . . . 1 1 58 58 LYS HA H . . 3.26 . . . . . . . . A . 58 LYS CA . . A . 58 LYS HA . . . 58 . CA . . . . . 58 . HA . . rr_6ucj 1 108 . 1 1 61 61 PRO CA C . . . 1 1 61 61 PRO HA H . . 10.55 . . . . . . . . A . 61 PRO CA . . A . 61 PRO HA . . . 61 . CA . . . . . 61 . HA . . rr_6ucj 1 109 . 1 1 62 62 LEU CA C . . . 1 1 62 62 LEU HA H . . -6.30 . . . . . . . . A . 62 LEU CA . . A . 62 LEU HA . . . 62 . CA . . . . . 62 . HA . . rr_6ucj 1 110 . 1 1 63 63 ASN CA C . . . 1 1 63 63 ASN HA H . . -0.81 . . . . . . . . A . 63 ASN CA . . A . 63 ASN HA . . . 63 . CA . . . . . 63 . HA . . rr_6ucj 1 111 . 1 1 64 64 TYR CA C . . . 1 1 64 64 TYR HA H . . 18.71 . . . . . . . . A . 64 TYR CA . . A . 64 TYR HA . . . 64 . CA . . . . . 64 . HA . . rr_6ucj 1 stop_ loop_ _RDC_constraint_parse_err.ID _RDC_constraint_parse_err.Content _RDC_constraint_parse_err.Begin_line _RDC_constraint_parse_err.Begin_column _RDC_constraint_parse_err.End_line _RDC_constraint_parse_err.End_column _RDC_constraint_parse_err.Entry_ID _RDC_constraint_parse_err.RDC_constraint_list_ID 1 ; # Restraints file 1: dc_neuSAG_NH.tbl # assign ( resid 501 and name OO) ; 1 1 2 1 rr_6ucj 1 2 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 3 and name N) # ( resid 3 and name HN) 0.52 0.41' 2 9 8 12 rr_6ucj 1 3 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 4 and name N) # ( resid 4 and name HN) -0.08 0.41' 9 9 15 12 rr_6ucj 1 4 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 5 and name N) # ( resid 5 and name HN) -0.26 0.4' 16 9 22 12 rr_6ucj 1 5 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 6 and name N) # ( resid 6 and name HN) -0.32 0.48' 23 9 29 12 rr_6ucj 1 6 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 7 and name N) # ( resid 7 and name HN) -1.45 0.41' 30 9 36 12 rr_6ucj 1 7 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 8 and name N) # ( resid 8 and name HN) -1.19 0.39' 37 9 43 12 rr_6ucj 1 8 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 9 and name N) # ( resid 9 and name HN) -1.55 0.42' 44 9 50 12 rr_6ucj 1 9 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 10 and name N) # ( resid 10 and name HN) -1.93 0.41' 51 9 57 12 rr_6ucj 1 10 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 11 and name N) # ( resid 11 and name HN) -1.54 0.51' 58 9 64 12 rr_6ucj 1 11 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 12 and name N) # ( resid 12 and name HN) -2 0.67' 65 9 70 68 rr_6ucj 1 12 '#assign ( resid 501 # ( resid 501 and name # ( resid 501 and name # ( resid 501 and name # ( resid 19 and name # ( resid 19 and name -5.99 1.11 #overlap with K69' 107 9 112 89 rr_6ucj 1 13 '#' 128 1 128 1 rr_6ucj 1 14 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 22 and name N) # ( resid 22 and name HN) -7.21 0.94 #overlap w V43' 128 9 133 86 rr_6ucj 1 15 '#' 156 1 156 1 rr_6ucj 1 16 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 26 and name N) # ( resid 26 and name HN) -3.21 0.99' 156 9 161 68 rr_6ucj 1 17 '#' 184 1 184 1 rr_6ucj 1 18 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 31 and name N) # ( resid 31 and name HN) 0.44 0.52 #overlap w S40' 184 9 189 86 rr_6ucj 1 19 '#' 226 1 226 1 rr_6ucj 1 20 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 37 and name N) # ( resid 37 and name HN) 4.53 0.5 #overlap w Y64' 226 9 231 86 rr_6ucj 1 21 '#' 247 1 247 1 rr_6ucj 1 22 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 40 and name N) # ( resid 40 and name HN) 0.41 0.48' 247 9 253 12 rr_6ucj 1 23 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 41 and name N) # ( resid 41 and name HN) 0.31 0.51' 254 9 260 12 rr_6ucj 1 24 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 42 and name N) # ( resid 42 and name HN) -0.43 0.48' 261 9 267 12 rr_6ucj 1 25 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 43 and name N) # ( resid 43 and name HN) 0.3 0.43' 268 9 274 12 rr_6ucj 1 26 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 44 and name N) # ( resid 44 and name HN) -0.42 0.44' 275 9 281 12 rr_6ucj 1 27 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 45 and name N) # ( resid 45 and name HN) -0.57 0.37' 282 9 288 12 rr_6ucj 1 28 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 46 and name N) # ( resid 46 and name HN) -0.49 0.45' 289 9 295 12 rr_6ucj 1 29 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 47 and name N) # ( resid 47 and name HN) -0.49 0.47' 296 9 302 12 rr_6ucj 1 30 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 48 and name N) # ( resid 48 and name HN) -1.16 0.92' 303 9 309 12 rr_6ucj 1 31 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 49 and name N) # ( resid 49 and name HN) -0.7 0.53' 310 9 316 12 rr_6ucj 1 32 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 50 and name N) # ( resid 50 and name HN) -1.52 0.64' 317 9 323 12 rr_6ucj 1 33 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 51 and name N) # ( resid 51 and name HN) -3.14 0.58 #overlap w L27' 324 9 329 99 rr_6ucj 1 34 '#' 380 1 380 1 rr_6ucj 1 35 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 60 and name N) # ( resid 60 and name HN) -7.86 0.88 #could not resolve peak' 380 9 385 100 rr_6ucj 1 36 '#' 401 1 401 1 rr_6ucj 1 37 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 64 and name N) # ( resid 64 and name HN) -5.25 0.0.53 #overlap w I37' 401 9 406 86 rr_6ucj 1 38 '#' 415 1 415 1 rr_6ucj 1 39 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 67 and name N) # ( resid 67 and name HN) -0.27 0.48' 415 9 421 12 rr_6ucj 1 40 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 69 and name N) # ( resid 69 and name HN) -0.75 0.28' 422 9 428 12 rr_6ucj 1 41 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 70 and name N) # ( resid 70 and name HN) -0.5 0.26' 429 9 435 12 rr_6ucj 1 42 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 71 and name N) # ( resid 71 and name HN) -0.64 0.23' 436 9 442 12 rr_6ucj 1 43 'assign ( resid 501 # ( resid 501 and name Z) # ( resid 501 and name X) # ( resid 501 and name Y) # ( resid 72 and name N) # ( resid 72 and name HN) -0.25 0.19 # Restraints file 2: dc_negSAG_CH.tbl' 443 9 449 37 rr_6ucj 1 44 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 2 and name CA) # ( resid 2 and name HA) 1.37 1.62' 450 9 456 10 rr_6ucj 1 45 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 3 and name CA) # ( resid 3 and name HA) 2.49 0.84' 457 9 463 10 rr_6ucj 1 46 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 4 and name CA) # ( resid 4 and name HA) 1.77 0.61' 464 9 470 10 rr_6ucj 1 47 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 5 and name CA) # ( resid 5 and name HA) 0.6 2.07' 471 9 477 10 rr_6ucj 1 48 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 6 and name CA) # ( resid 6 and name HA) -1.93 1.59' 478 9 484 10 rr_6ucj 1 49 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 7 and name CA) # ( resid 7 and name HA) 2.18 4.02' 485 9 491 10 rr_6ucj 1 50 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 8 and name CA) # ( resid 8 and name HA) -3.15 5.36' 492 9 498 10 rr_6ucj 1 51 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 9 and name CA) # ( resid 9 and name HA) 0.07 1.48' 499 9 505 10 rr_6ucj 1 52 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 10 and name CA) # ( resid 10 and name HA) 1.75 5.21' 506 9 512 10 rr_6ucj 1 53 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 11 and name CA) # ( resid 11 and name HA) -10.69 3.63' 513 9 519 10 rr_6ucj 1 54 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 12 and name CA) # ( resid 12 and name HA) -13 10.96' 520 9 525 77 rr_6ucj 1 55 '#assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 18 and name CA) # ( resid 18 and name HA) -26.82 9.71' 548 9 553 76 rr_6ucj 1 56 '#' 681 1 681 1 rr_6ucj 1 57 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 40 and name CA) # ( resid 40 and name HA) -11.5 3.13' 681 9 687 10 rr_6ucj 1 58 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 41 and name CA) # ( resid 41 and name HA) 2.23 1.59' 688 9 694 10 rr_6ucj 1 59 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 42 and name CA) # ( resid 42 and name HA) -6.23 1.79' 695 9 701 10 rr_6ucj 1 60 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 43 and name CA) # ( resid 43 and name HA) 1.51 3.09' 702 9 708 10 rr_6ucj 1 61 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 44 and name CA) # ( resid 44 and name HA#) -2.51 1.65' 709 9 715 10 rr_6ucj 1 62 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 45 and name CA) # ( resid 45 and name HA) -0.15 1.82' 716 9 722 10 rr_6ucj 1 63 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 46 and name CA) # ( resid 46 and name HA) -0.25 1.26' 723 9 729 10 rr_6ucj 1 64 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 47 and name CA) # ( resid 47 and name HA) 5.67 3.04' 730 9 736 10 rr_6ucj 1 65 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 48 and name CA) # ( resid 48 and name HA) 1.63 5.01' 737 9 743 10 rr_6ucj 1 66 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 49 and name CA) # ( resid 49 and name HA#) -9.69 10.24' 744 9 750 10 rr_6ucj 1 67 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 50 and name CA) # ( resid 50 and name HA) 0.39 3.28' 751 9 756 76 rr_6ucj 1 68 '#s/n <15' 798 81 798 88 rr_6ucj 1 69 '#s/n <15' 805 81 805 88 rr_6ucj 1 70 '#overlap w/ acrylamide' 812 81 812 102 rr_6ucj 1 71 '#' 849 1 849 1 rr_6ucj 1 72 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 66 and name CA) # ( resid 66 and name HA) -10.61 4.32' 849 9 855 10 rr_6ucj 1 73 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 67 and name CA) # ( resid 67 and name HA) -6.95 4.53' 856 9 862 10 rr_6ucj 1 74 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 68 and name CA) # ( resid 68 and name HA) -2.02 9.61' 863 9 869 10 rr_6ucj 1 75 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 69 and name CA) # ( resid 69 and name HA) 2.43 1.43' 870 9 876 10 rr_6ucj 1 76 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 70 and name CA) # ( resid 70 and name HA) -1.52 1.24' 877 9 883 10 rr_6ucj 1 77 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 71 and name CA) # ( resid 71 and name HA) -0.81 0.67 # Restraints file 3: dc_posSAG_NH.tbl' 884 9 890 37 rr_6ucj 1 78 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 3 and name N) # ( resid 3 and name HN) 0.04 0.0917621916 ; 891 9 897 8 rr_6ucj 1 79 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 4 and name N) # ( resid 4 and name HN) -0.76 0.089234398 ; 898 9 904 8 rr_6ucj 1 80 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 5 and name N) # ( resid 5 and name HN) -0.826 0.1146229637 ; 905 9 911 8 rr_6ucj 1 81 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 6 and name N) # ( resid 6 and name HN) -0.22 0.2071968805 ; 912 9 918 8 rr_6ucj 1 82 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 7 and name N) # ( resid 7 and name HN) -3.35 0.0950475537 ; 919 9 925 8 rr_6ucj 1 83 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 8 and name N) # ( resid 8 and name HN) -2.01 0.0665451043 ; 926 9 932 8 rr_6ucj 1 84 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 9 and name N) # ( resid 9 and name HN) -1.13 0.1348832796 ; 933 9 939 8 rr_6ucj 1 85 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 11 and name N) # ( resid 11 and name HN) -14.25 0.3526745529 ; 940 9 945 76 rr_6ucj 1 86 '#' 1010 1 1010 1 rr_6ucj 1 87 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 31 and name N) # ( resid 31 and name HN) 6.08 0.2601081506 #overlap w S40 ; 1010 9 1015 91 rr_6ucj 1 88 '#' 1052 1 1052 1 rr_6ucj 1 89 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 37 and name N) # ( resid 37 and name HN) -4.91 0.2462949734 #overlap w Y64 ; 1052 9 1057 91 rr_6ucj 1 90 '#' 1073 1 1073 1 rr_6ucj 1 91 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 40 and name N) # ( resid 40 and name HN) 9 0.1645240524 ; 1073 9 1079 8 rr_6ucj 1 92 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 41 and name N) # ( resid 41 and name HN) 0.19 0.1510311603 ; 1080 9 1086 8 rr_6ucj 1 93 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 42 and name N) # ( resid 42 and name HN) -1.19 0.1538353675 ; 1087 9 1093 8 rr_6ucj 1 94 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 43 and name N) # ( resid 43 and name HN) 3.65 0.1177880192 ; 1094 9 1100 8 rr_6ucj 1 95 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 44 and name N) # ( resid 44 and name HN) -2.15 0.1116379125 ; 1101 9 1107 8 rr_6ucj 1 96 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 45 and name N) # ( resid 45 and name HN) -2.47 0.0446309926 ; 1108 9 1114 8 rr_6ucj 1 97 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 46 and name N) # ( resid 46 and name HN) -0.56 0.0964228555 ; 1115 9 1121 8 rr_6ucj 1 98 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 47 and name N) # ( resid 47 and name HN) 1.62 0.1064435262 ; 1122 9 1128 8 rr_6ucj 1 99 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 49 and name N) # ( resid 49 and name HN) -4.9 0.1583097706 ; 1129 9 1135 8 rr_6ucj 1 100 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 50 and name N) # ( resid 50 and name HN) -6.4 0.2283615917 ; 1136 9 1141 76 rr_6ucj 1 101 '#' 1220 1 1220 1 rr_6ucj 1 102 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 64 and name N) # ( resid 64 and name HN) -2.2 0.4111985234 #overlap w I37 ; 1220 9 1225 91 rr_6ucj 1 103 '#' 1234 1 1234 1 rr_6ucj 1 104 ; assign ( resid 50 # ( resid 502 and name Z) # ( resid 502 and name X) # ( resid 502 and name Y) # ( resid 67 and name N) # ( resid 67 and name HN) -0.61 0.1040926811 # Restraints file 4: dc_posSAG_CH.tbl ; 1234 9 1240 37 rr_6ucj 1 stop_ save_ save_CNS/XPLOR_dipolar_coupling_6 _RDC_constraint_list.Sf_category RDC_constraints _RDC_constraint_list.Sf_framecode CNS/XPLOR_dipolar_coupling_6 _RDC_constraint_list.Entry_ID rr_6ucj _RDC_constraint_list.ID 2 _RDC_constraint_list.Details 'Generated by Wattos' _RDC_constraint_list.Constraint_file_ID 1 _RDC_constraint_list.Block_ID 6 loop_ _RDC_constraint_software.Software_ID _RDC_constraint_software.Software_label _RDC_constraint_software.Method_ID _RDC_constraint_software.Method_label _RDC_constraint_software.Entry_ID _RDC_constraint_software.RDC_constraint_list_ID . . . . rr_6ucj 2 stop_ loop_ _RDC_constraint.ID _RDC_constraint.Assembly_atom_ID_1 _RDC_constraint.Entity_assembly_ID_1 _RDC_constraint.Entity_ID_1 _RDC_constraint.Comp_index_ID_1 _RDC_constraint.Seq_ID_1 _RDC_constraint.Comp_ID_1 _RDC_constraint.Atom_ID_1 _RDC_constraint.Atom_type_1 _RDC_constraint.Atom_isotope_number_1 _RDC_constraint.Resonance_ID_1 _RDC_constraint.Assembly_atom_ID_2 _RDC_constraint.Entity_assembly_ID_2 _RDC_constraint.Entity_ID_2 _RDC_constraint.Comp_index_ID_2 _RDC_constraint.Seq_ID_2 _RDC_constraint.Comp_ID_2 _RDC_constraint.Atom_ID_2 _RDC_constraint.Atom_type_2 _RDC_constraint.Atom_isotope_number_2 _RDC_constraint.Resonance_ID_2 _RDC_constraint.RDC_val _RDC_constraint.RDC_lower_bound _RDC_constraint.RDC_upper_bound _RDC_constraint.RDC_val_err _RDC_constraint.RDC_val_scale_factor _RDC_constraint.RDC_bond_length _RDC_constraint.Source_experiment_ID _RDC_constraint.PDB_record_ID_1 _RDC_constraint.PDB_model_num_1 _RDC_constraint.PDB_strand_ID_1 _RDC_constraint.PDB_ins_code_1 _RDC_constraint.PDB_residue_no_1 _RDC_constraint.PDB_residue_name_1 _RDC_constraint.PDB_atom_name_1 _RDC_constraint.PDB_record_ID_2 _RDC_constraint.PDB_model_num_2 _RDC_constraint.PDB_strand_ID_2 _RDC_constraint.PDB_ins_code_2 _RDC_constraint.PDB_residue_no_2 _RDC_constraint.PDB_residue_name_2 _RDC_constraint.PDB_atom_name_2 _RDC_constraint.Auth_entity_assembly_ID_1 _RDC_constraint.Auth_asym_ID_1 _RDC_constraint.Auth_chain_ID_1 _RDC_constraint.Auth_seq_ID_1 _RDC_constraint.Auth_comp_ID_1 _RDC_constraint.Auth_atom_ID_1 _RDC_constraint.Auth_alt_ID_1 _RDC_constraint.Auth_atom_name_1 _RDC_constraint.Auth_entity_assembly_ID_2 _RDC_constraint.Auth_asym_ID_2 _RDC_constraint.Auth_chain_ID_2 _RDC_constraint.Auth_seq_ID_2 _RDC_constraint.Auth_comp_ID_2 _RDC_constraint.Auth_atom_ID_2 _RDC_constraint.Auth_alt_ID_2 _RDC_constraint.Auth_atom_name_2 _RDC_constraint.Entry_ID _RDC_constraint.RDC_constraint_list_ID 1 . 1 1 13 13 CYS N N . . . 1 1 13 13 CYS H H . . 11.25 . . . . . . . . A . 13 CYS N . . A . 13 CYS H . . . 13 . N . . . . . 13 . HN . . rr_6ucj 2 2 . 1 1 14 14 ASN N N . . . 1 1 14 14 ASN H H . . -0.13 . . . . . . . . A . 14 ASN N . . A . 14 ASN H . . . 14 . N . . . . . 14 . HN . . rr_6ucj 2 3 . 1 1 15 15 THR N N . . . 1 1 15 15 THR H H . . 8.71 . . . . . . . . A . 15 THR N . . A . 15 THR H . . . 15 . N . . . . . 15 . HN . . rr_6ucj 2 4 . 1 1 16 16 ALA N N . . . 1 1 16 16 ALA H H . . 17.95 . . . . . . . . A . 16 ALA N . . A . 16 ALA H . . . 16 . N . . . . . 16 . HN . . rr_6ucj 2 5 . 1 1 17 17 THR N N . . . 1 1 17 17 THR H H . . 8.93 . . . . . . . . A . 17 THR N . . A . 17 THR H . . . 17 . N . . . . . 17 . HN . . rr_6ucj 2 6 . 1 1 20 20 THR N N . . . 1 1 20 20 THR H H . . 11.93 . . . . . . . . A . 20 THR N . . A . 20 THR H . . . 20 . N . . . . . 20 . HN . . rr_6ucj 2 7 . 1 1 21 21 GLN N N . . . 1 1 21 21 GLN H H . . 7.71 . . . . . . . . A . 21 GLN N . . A . 21 GLN H . . . 21 . N . . . . . 21 . HN . . rr_6ucj 2 8 . 1 1 23 23 LEU N N . . . 1 1 23 23 LEU H H . . 18.15 . . . . . . . . A . 23 LEU N . . A . 23 LEU H . . . 23 . N . . . . . 23 . HN . . rr_6ucj 2 9 . 1 1 24 24 ALA N N . . . 1 1 24 24 ALA H H . . 11.43 . . . . . . . . A . 24 ALA N . . A . 24 ALA H . . . 24 . N . . . . . 24 . HN . . rr_6ucj 2 10 . 1 1 25 25 ASN N N . . . 1 1 25 25 ASN H H . . 5.11 . . . . . . . . A . 25 ASN N . . A . 25 ASN H . . . 25 . N . . . . . 25 . HN . . rr_6ucj 2 11 . 1 1 28 28 VAL N N . . . 1 1 28 28 VAL H H . . 4.74 . . . . . . . . A . 28 VAL N . . A . 28 VAL H . . . 28 . N . . . . . 28 . HN . . rr_6ucj 2 12 . 1 1 29 29 HIS N N . . . 1 1 29 29 HIS H H . . 8.57 . . . . . . . . A . 29 HIS N . . A . 29 HIS H . . . 29 . N . . . . . 29 . HN . . rr_6ucj 2 13 . 1 1 30 30 SER N N . . . 1 1 30 30 SER H H . . 12.80 . . . . . . . . A . 30 SER N . . A . 30 SER H . . . 30 . N . . . . . 30 . HN . . rr_6ucj 2 14 . 1 1 32 32 ASN N N . . . 1 1 32 32 ASN H H . . -4.81 . . . . . . . . A . 32 ASN N . . A . 32 ASN H . . . 32 . N . . . . . 32 . HN . . rr_6ucj 2 15 . 1 1 33 33 ASN N N . . . 1 1 33 33 ASN H H . . 4.12 . . . . . . . . A . 33 ASN N . . A . 33 ASN H . . . 33 . N . . . . . 33 . HN . . rr_6ucj 2 16 . 1 1 34 34 PHE N N . . . 1 1 34 34 PHE H H . . -2.03 . . . . . . . . A . 34 PHE N . . A . 34 PHE H . . . 34 . N . . . . . 34 . HN . . rr_6ucj 2 17 . 1 1 35 35 GLY N N . . . 1 1 35 35 GLY H H . . -10.16 . . . . . . . . A . 35 GLY N . . A . 35 GLY H . . . 35 . N . . . . . 35 . HN . . rr_6ucj 2 18 . 1 1 36 36 ALA N N . . . 1 1 36 36 ALA H H . . -7.34 . . . . . . . . A . 36 ALA N . . A . 36 ALA H . . . 36 . N . . . . . 36 . HN . . rr_6ucj 2 19 . 1 1 38 38 LEU N N . . . 1 1 38 38 LEU H H . . -7.68 . . . . . . . . A . 38 LEU N . . A . 38 LEU H . . . 38 . N . . . . . 38 . HN . . rr_6ucj 2 20 . 1 1 39 39 SER N N . . . 1 1 39 39 SER H H . . -7.38 . . . . . . . . A . 39 SER N . . A . 39 SER H . . . 39 . N . . . . . 39 . HN . . rr_6ucj 2 21 . 1 1 52 52 ASN N N . . . 1 1 52 52 ASN H H . . -2.67 . . . . . . . . A . 52 ASN N . . A . 52 ASN H . . . 52 . N . . . . . 52 . HN . . rr_6ucj 2 22 . 1 1 53 53 ALA N N . . . 1 1 53 53 ALA H H . . 1.83 . . . . . . . . A . 53 ALA N . . A . 53 ALA H . . . 53 . N . . . . . 53 . HN . . rr_6ucj 2 23 . 1 1 54 54 VAL N N . . . 1 1 54 54 VAL H H . . 4.65 . . . . . . . . A . 54 VAL N . . A . 54 VAL H . . . 54 . N . . . . . 54 . HN . . rr_6ucj 2 24 . 1 1 55 55 GLU N N . . . 1 1 55 55 GLU H H . . 5.06 . . . . . . . . A . 55 GLU N . . A . 55 GLU H . . . 55 . N . . . . . 55 . HN . . rr_6ucj 2 25 . 1 1 56 56 VAL N N . . . 1 1 56 56 VAL H H . . 1.33 . . . . . . . . A . 56 VAL N . . A . 56 VAL H . . . 56 . N . . . . . 56 . HN . . rr_6ucj 2 26 . 1 1 57 57 LEU N N . . . 1 1 57 57 LEU H H . . 2.91 . . . . . . . . A . 57 LEU N . . A . 57 LEU H . . . 57 . N . . . . . 57 . HN . . rr_6ucj 2 27 . 1 1 58 58 LYS N N . . . 1 1 58 58 LYS H H . . 6.96 . . . . . . . . A . 58 LYS N . . A . 58 LYS H . . . 58 . N . . . . . 58 . HN . . rr_6ucj 2 28 . 1 1 62 62 LEU N N . . . 1 1 62 62 LEU H H . . -0.24 . . . . . . . . A . 62 LEU N . . A . 62 LEU H . . . 62 . N . . . . . 62 . HN . . rr_6ucj 2 29 . 1 1 63 63 ASN N N . . . 1 1 63 63 ASN H H . . 1.25 . . . . . . . . A . 63 ASN N . . A . 63 ASN H . . . 63 . N . . . . . 63 . HN . . rr_6ucj 2 30 . 1 1 65 65 LEU N N . . . 1 1 65 65 LEU H H . . -2.75 . . . . . . . . A . 65 LEU N . . A . 65 LEU H . . . 65 . N . . . . . 65 . HN . . rr_6ucj 2 stop_ loop_ _RDC_constraint_parse_err.ID _RDC_constraint_parse_err.Content _RDC_constraint_parse_err.Begin_line _RDC_constraint_parse_err.Begin_column _RDC_constraint_parse_err.End_line _RDC_constraint_parse_err.End_column _RDC_constraint_parse_err.Entry_ID _RDC_constraint_parse_err.RDC_constraint_list_ID 1 ; # Restraints file 8: D_1000244371_mr_P1.xplor-nih.V1 # assign ( resid 500 and name OO) ; 1 1 2 1 rr_6ucj 2 2 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 3 and name N) # ( resid 3 and name HN) 0.05 0.04' 2 9 8 11 rr_6ucj 2 3 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 4 and name N) # ( resid 4 and name HN) 0.07 0.06' 9 9 15 11 rr_6ucj 2 4 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 5 and name N) # ( resid 5 and name HN) -0.24 0.07' 16 9 22 11 rr_6ucj 2 5 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 6 and name N) # ( resid 6 and name HN) -0.01 0.4' 23 9 29 11 rr_6ucj 2 6 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 7 and name N) # ( resid 7 and name HN) 3.49 0.11' 30 9 36 11 rr_6ucj 2 7 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 8 and name N) # ( resid 8 and name HN) 0.57 0.28' 37 9 43 11 rr_6ucj 2 8 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 9 and name N) # ( resid 9 and name HN) 0.7 0.37' 44 9 50 11 rr_6ucj 2 9 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 10 and name N) # ( resid 10 and name HN) -1.3 0.15' 51 9 57 11 rr_6ucj 2 10 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 11 and name N) # ( resid 11 and name HN) -0.28 0.32' 58 9 64 11 rr_6ucj 2 11 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 12 and name N) # ( resid 12 and name HN) 3.91 0.2' 65 9 70 67 rr_6ucj 2 12 '#' 107 1 107 1 rr_6ucj 2 13 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 18 and name N) # ( resid 18 and name HN) -1.24 0.47 #overlap w F26 #assign ( resid 500 and name OO) # ( resid 500 and name # ( resid 500 and name # ( resid 500 and name # ( resid 19 and name # ( resid 19 and name 0.85 6.04 #overlap w K69' 107 9 119 86 rr_6ucj 2 14 '#' 135 1 135 1 rr_6ucj 2 15 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 22 and name N) # ( resid 22 and name HN) -4.37 0.46 #overlap w V43' 135 9 140 86 rr_6ucj 2 16 '#' 163 1 163 1 rr_6ucj 2 17 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 26 and name N) # ( resid 26 and name HN) 14.97 0.52 #overlap w C18' 163 9 169 11 rr_6ucj 2 18 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 27 and name N) # ( resid 27 and name HN) -2.02 0.28 #overlap w R51' 170 9 175 86 rr_6ucj 2 19 '#' 198 1 198 1 rr_6ucj 2 20 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 31 and name N) # ( resid 31 and name HN) -1.42 0.23 #overlap w S40' 198 9 203 86 rr_6ucj 2 21 '#' 240 1 240 1 rr_6ucj 2 22 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 37 and name N) # ( resid 37 and name HN) 3.35 0.17 #overlap w Y64' 240 9 245 86 rr_6ucj 2 23 '#' 261 1 261 1 rr_6ucj 2 24 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 40 and name N) # ( resid 40 and name HN) -0.53 0.14' 261 9 267 11 rr_6ucj 2 25 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 41 and name N) # ( resid 41 and name HN) -1.9 0.15' 268 9 274 11 rr_6ucj 2 26 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 42 and name N) # ( resid 42 and name HN) -0.58 0.14' 275 9 281 11 rr_6ucj 2 27 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 43 and name N) # ( resid 43 and name HN) 0.14 0.13' 282 9 288 11 rr_6ucj 2 28 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 44 and name N) # ( resid 44 and name HN) -2.06 0.31' 289 9 295 11 rr_6ucj 2 29 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 45 and name N) # ( resid 45 and name HN) 0.08 0.09' 296 9 302 11 rr_6ucj 2 30 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 46 and name N) # ( resid 46 and name HN) 2.74 0.24' 303 9 309 11 rr_6ucj 2 31 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 47 and name N) # ( resid 47 and name HN) -1.23 0.11' 310 9 316 11 rr_6ucj 2 32 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 48 and name N) # ( resid 48 and name HN) -0.59 0.15' 317 9 323 11 rr_6ucj 2 33 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 49 and name N) # ( resid 49 and name HN) 0.88 0.23' 324 9 330 11 rr_6ucj 2 34 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 50 and name N) # ( resid 50 and name HN) 1.98 0.37' 331 9 337 11 rr_6ucj 2 35 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 51 and name N) # ( resid 51 and name HN) 5.13 0.34 #overlap w L27' 338 9 343 99 rr_6ucj 2 36 '#' 394 1 394 1 rr_6ucj 2 37 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 60 and name N) # ( resid 60 and name HN) -2.2 0.93 #overlap w V43' 394 9 399 86 rr_6ucj 2 38 '#' 415 1 415 1 rr_6ucj 2 39 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 64 and name N) # ( resid 64 and name HN) -1.72 0.18 #overlap w I37' 415 9 420 86 rr_6ucj 2 40 '#' 429 1 429 1 rr_6ucj 2 41 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 67 and name N) # ( resid 67 and name HN) 1.24 0.18' 429 9 435 11 rr_6ucj 2 42 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 68 and name N) # ( resid 68 and name HN) 0.05 0.16' 436 9 442 11 rr_6ucj 2 43 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 69 and name N) # ( resid 69 and name HN) 0.3 0.16' 443 9 449 11 rr_6ucj 2 44 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 70 and name N) # ( resid 70 and name HN) 0.3 0.08' 450 9 456 11 rr_6ucj 2 45 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 71 and name N) # ( resid 71 and name HN) 0.19 0.13' 457 9 463 11 rr_6ucj 2 46 'assign ( resid 500 # ( resid 500 and name Z) # ( resid 500 and name X) # ( resid 500 and name Y) # ( resid 72 and name N) # ( resid 72 and name HN) -0.24 0.17' 464 9 469 68 rr_6ucj 2 stop_ save_ save_MR_file_comment_1 _Org_constr_file_comment.Sf_framecode MR_file_comment_1 _Org_constr_file_comment.Sf_category org_constr_file_comment _Org_constr_file_comment.Entry_ID rr_6ucj _Org_constr_file_comment.ID 1 _Org_constr_file_comment.Constraint_file_ID 1 _Org_constr_file_comment.Block_ID 1 _Org_constr_file_comment.Details 'Generated by Wattos' _Org_constr_file_comment.Comment '*HEADER HORMONE 16-SEP-19 6UCJ *TITLE PROIAPP IN DPC MICELLES - TWO-CONFORMER ENSEMBLE REFINEMENT, OPEN *TITLE 2 CONFORMER *COMPND MOL_ID: 1; *COMPND 2 MOLECULE: ISLET AMYLOID POLYPEPTIDE; *COMPND 3 CHAIN: A; *COMPND 4 SYNONYM: AMYLIN,DIABETES-ASSOCIATED PEPTIDE,DAP,INSULINOMA AMYLOID *COMPND 5 PEPTIDE; *COMPND 6 ENGINEERED: YES *SOURCE MOL_ID: 1; *SOURCE 2 ORGANISM_SCIENTIFIC: HOMO SAPIENS; *SOURCE 3 ORGANISM_COMMON: HUMAN; *SOURCE 4 ORGANISM_TAXID: 9606; *SOURCE 5 ORGAN: PANCREAS; *SOURCE 6 TISSUE: ISLETS OF LANGERHANS; *SOURCE 7 CELL: BETA; *SOURCE 8 GENE: IAPP; *SOURCE 9 EXPRESSION_SYSTEM: ESCHERICHIA COLI BL21(DE3); *SOURCE 10 EXPRESSION_SYSTEM_TAXID: 469008 *KEYWDS MEMBRANE-BINDING, IDP, AMYLOID, HORMONE *EXPDTA SOLUTION NMR *NUMMDL 20 *AUTHOR C.F.DELISLE,A.L.MALOOLEY,I.BANERJEE,J.L.LORIEAU *REVDAT 1 26-FEB-20 6UCJ 0' save_