data_2K84 # _entry.id 2K84 # _audit_conform.dict_name mmcif_pdbx.dic _audit_conform.dict_version 5.356 _audit_conform.dict_location http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic # loop_ _database_2.database_id _database_2.database_code _database_2.pdbx_database_accession _database_2.pdbx_DOI PDB 2K84 pdb_00002k84 10.2210/pdb2k84/pdb RCSB RCSB100795 ? ? WWPDB D_1000100795 ? ? # _pdbx_database_status.deposit_site BMRB _pdbx_database_status.entry_id 2K84 _pdbx_database_status.process_site PDBJ _pdbx_database_status.recvd_initial_deposition_date 2008-09-02 _pdbx_database_status.SG_entry ? _pdbx_database_status.status_code REL _pdbx_database_status.status_code_mr REL _pdbx_database_status.status_code_sf ? _pdbx_database_status.pdb_format_compatible Y _pdbx_database_status.status_code_cs ? _pdbx_database_status.status_code_nmr_data ? _pdbx_database_status.methods_development_category ? # loop_ _audit_author.name _audit_author.pdbx_ordinal 'Sharma, A.' 1 'Bruns, K.' 2 'Roeder, R.' 3 'Henklein, P.' 4 'Votteler, J.' 5 'Wray, V.' 6 'Sharma, U.' 7 # _citation.id primary _citation.title ;Solution structure of the Equine Infectious Anemia Virus p9 protein: a rationalization of its different ALIX binding requirements compared to the analogous HIV-p6 protein ; _citation.journal_abbrev 'Bmc Struct.Biol.' _citation.journal_volume 9 _citation.page_first 74 _citation.page_last 74 _citation.year 2009 _citation.journal_id_ASTM ? _citation.country UK _citation.journal_id_ISSN 1472-6807 _citation.journal_id_CSD ? _citation.book_publisher ? _citation.pdbx_database_id_PubMed 20015412 _citation.pdbx_database_id_DOI 10.1186/1472-6807-9-74 # loop_ _citation_author.citation_id _citation_author.name _citation_author.ordinal _citation_author.identifier_ORCID primary 'Sharma, A.' 1 ? primary 'Bruns, K.' 2 ? primary 'Roder, R.' 3 ? primary 'Henklein, P.' 4 ? primary 'Votteler, J.' 5 ? primary 'Wray, V.' 6 ? primary 'Schubert, U.' 7 ? # _entity.id 1 _entity.type polymer _entity.src_method syn _entity.pdbx_description P9 _entity.formula_weight 3658.026 _entity.pdbx_number_of_molecules 1 _entity.pdbx_ec ? _entity.pdbx_mutation ? _entity.pdbx_fragment 'UNP residues 457-486' _entity.details ? # _entity_poly.entity_id 1 _entity_poly.type 'polypeptide(L)' _entity_poly.nstd_linkage no _entity_poly.nstd_monomer no _entity_poly.pdbx_seq_one_letter_code LYPDLSEIKKEYNVKEKDQVEDLNLDSLWE _entity_poly.pdbx_seq_one_letter_code_can LYPDLSEIKKEYNVKEKDQVEDLNLDSLWE _entity_poly.pdbx_strand_id A _entity_poly.pdbx_target_identifier ? # loop_ _entity_poly_seq.entity_id _entity_poly_seq.num _entity_poly_seq.mon_id _entity_poly_seq.hetero 1 1 LEU n 1 2 TYR n 1 3 PRO n 1 4 ASP n 1 5 LEU n 1 6 SER n 1 7 GLU n 1 8 ILE n 1 9 LYS n 1 10 LYS n 1 11 GLU n 1 12 TYR n 1 13 ASN n 1 14 VAL n 1 15 LYS n 1 16 GLU n 1 17 LYS n 1 18 ASP n 1 19 GLN n 1 20 VAL n 1 21 GLU n 1 22 ASP n 1 23 LEU n 1 24 ASN n 1 25 LEU n 1 26 ASP n 1 27 SER n 1 28 LEU n 1 29 TRP n 1 30 GLU n # _pdbx_entity_src_syn.entity_id 1 _pdbx_entity_src_syn.pdbx_src_id 1 _pdbx_entity_src_syn.pdbx_alt_source_flag sample _pdbx_entity_src_syn.pdbx_beg_seq_num ? _pdbx_entity_src_syn.pdbx_end_seq_num ? _pdbx_entity_src_syn.organism_scientific ? _pdbx_entity_src_syn.organism_common_name ? _pdbx_entity_src_syn.ncbi_taxonomy_id ? _pdbx_entity_src_syn.details 'THE PEPTIDE IS CHEMICALLY SYNTHESIZED.' # _struct_ref.id 1 _struct_ref.db_name UNP _struct_ref.db_code GAG_EIAVY _struct_ref.pdbx_db_accession P69732 _struct_ref.entity_id 1 _struct_ref.pdbx_seq_one_letter_code LYPDLSEIKKEYNVKEKDQVEDLNLDSLWE _struct_ref.pdbx_align_begin 457 _struct_ref.pdbx_db_isoform ? # _struct_ref_seq.align_id 1 _struct_ref_seq.ref_id 1 _struct_ref_seq.pdbx_PDB_id_code 2K84 _struct_ref_seq.pdbx_strand_id A _struct_ref_seq.seq_align_beg 1 _struct_ref_seq.pdbx_seq_align_beg_ins_code ? _struct_ref_seq.seq_align_end 30 _struct_ref_seq.pdbx_seq_align_end_ins_code ? _struct_ref_seq.pdbx_db_accession P69732 _struct_ref_seq.db_align_beg 457 _struct_ref_seq.pdbx_db_align_beg_ins_code ? _struct_ref_seq.db_align_end 486 _struct_ref_seq.pdbx_db_align_end_ins_code ? _struct_ref_seq.pdbx_auth_seq_align_beg 22 _struct_ref_seq.pdbx_auth_seq_align_end 51 # loop_ _chem_comp.id _chem_comp.type _chem_comp.mon_nstd_flag _chem_comp.name _chem_comp.pdbx_synonyms _chem_comp.formula _chem_comp.formula_weight ASN 'L-peptide linking' y ASPARAGINE ? 'C4 H8 N2 O3' 132.118 ASP 'L-peptide linking' y 'ASPARTIC ACID' ? 'C4 H7 N O4' 133.103 GLN 'L-peptide linking' y GLUTAMINE ? 'C5 H10 N2 O3' 146.144 GLU 'L-peptide linking' y 'GLUTAMIC ACID' ? 'C5 H9 N O4' 147.129 ILE 'L-peptide linking' y ISOLEUCINE ? 'C6 H13 N O2' 131.173 LEU 'L-peptide linking' y LEUCINE ? 'C6 H13 N O2' 131.173 LYS 'L-peptide linking' y LYSINE ? 'C6 H15 N2 O2 1' 147.195 PRO 'L-peptide linking' y PROLINE ? 'C5 H9 N O2' 115.130 SER 'L-peptide linking' y SERINE ? 'C3 H7 N O3' 105.093 TRP 'L-peptide linking' y TRYPTOPHAN ? 'C11 H12 N2 O2' 204.225 TYR 'L-peptide linking' y TYROSINE ? 'C9 H11 N O3' 181.189 VAL 'L-peptide linking' y VALINE ? 'C5 H11 N O2' 117.146 # loop_ _pdbx_nmr_exptl.conditions_id _pdbx_nmr_exptl.experiment_id _pdbx_nmr_exptl.solution_id _pdbx_nmr_exptl.type 1 1 1 '2D 1H-1H TOCSY' 1 2 1 '2D 1H-1H NOESY' # _pdbx_nmr_exptl_sample_conditions.conditions_id 1 _pdbx_nmr_exptl_sample_conditions.ionic_strength ? _pdbx_nmr_exptl_sample_conditions.pH 3 _pdbx_nmr_exptl_sample_conditions.pressure ambient _pdbx_nmr_exptl_sample_conditions.pressure_units ? _pdbx_nmr_exptl_sample_conditions.temperature 300 _pdbx_nmr_exptl_sample_conditions.temperature_units K # _pdbx_nmr_sample_details.contents '2-3 mM p9 (22-51), 50% H2O/50% CF3CD2OH' _pdbx_nmr_sample_details.solution_id 1 _pdbx_nmr_sample_details.solvent_system '50% H2O/50% CF3CD2OH' # _pdbx_nmr_spectrometer.field_strength 600 _pdbx_nmr_spectrometer.manufacturer Bruker _pdbx_nmr_spectrometer.model DMX _pdbx_nmr_spectrometer.spectrometer_id 1 _pdbx_nmr_spectrometer.type 'Bruker DMX' # _pdbx_nmr_refine.entry_id 2K84 _pdbx_nmr_refine.method 'simulated annealing' _pdbx_nmr_refine.details 'Dynamic annealing with NOE constraints using CNS program' _pdbx_nmr_refine.software_ordinal 1 # _pdbx_nmr_ensemble.average_constraint_violations_per_residue ? _pdbx_nmr_ensemble.average_constraints_per_residue ? _pdbx_nmr_ensemble.average_distance_constraint_violation ? _pdbx_nmr_ensemble.average_torsion_angle_constraint_violation ? _pdbx_nmr_ensemble.conformer_selection_criteria 'structures with the least restraint violations' _pdbx_nmr_ensemble.conformers_calculated_total_number 100 _pdbx_nmr_ensemble.conformers_submitted_total_number 20 _pdbx_nmr_ensemble.distance_constraint_violation_method ? _pdbx_nmr_ensemble.entry_id 2K84 _pdbx_nmr_ensemble.maximum_distance_constraint_violation ? _pdbx_nmr_ensemble.maximum_lower_distance_constraint_violation ? _pdbx_nmr_ensemble.maximum_torsion_angle_constraint_violation ? _pdbx_nmr_ensemble.maximum_upper_distance_constraint_violation ? _pdbx_nmr_ensemble.representative_conformer 1 _pdbx_nmr_ensemble.torsion_angle_constraint_violation_method ? # _pdbx_nmr_representative.conformer_id 1 _pdbx_nmr_representative.entry_id 2K84 _pdbx_nmr_representative.selection_criteria 'minimized average structure' # loop_ _pdbx_nmr_software.authors _pdbx_nmr_software.classification _pdbx_nmr_software.name _pdbx_nmr_software.version _pdbx_nmr_software.ordinal 'Neidig, Geyer, Gorler, Antz, Saffrich, Beneicke, Kalbitzer' 'chemical shift assignment' AURELIA ? 1 ? refinement CNS 1.0 2 # _exptl.absorpt_coefficient_mu ? _exptl.absorpt_correction_T_max ? _exptl.absorpt_correction_T_min ? _exptl.absorpt_correction_type ? _exptl.absorpt_process_details ? _exptl.crystals_number ? _exptl.details ? _exptl.entry_id 2K84 _exptl.method 'SOLUTION NMR' _exptl.method_details ? # _struct.entry_id 2K84 _struct.title 'Solution Structure of the equine infectious anemia virus p9 GAG protein' _struct.pdbx_model_details ? _struct.pdbx_CASP_flag ? _struct.pdbx_model_type_details 'minimized average' # _struct_keywords.entry_id 2K84 _struct_keywords.pdbx_keywords 'VIRAL PROTEIN' _struct_keywords.text ;polypeptide, Capsid protein, Core protein, Host-virus interaction, Metal-binding, Viral matrix protein, Viral nucleoprotein, Virion, Zinc, Zinc-finger, VIRAL PROTEIN ; # _struct_asym.id A _struct_asym.pdbx_blank_PDB_chainid_flag N _struct_asym.pdbx_modified N _struct_asym.entity_id 1 _struct_asym.details ? # _struct_biol.id 1 _struct_biol.details ? # loop_ _struct_conf.conf_type_id _struct_conf.id _struct_conf.pdbx_PDB_helix_id _struct_conf.beg_label_comp_id _struct_conf.beg_label_asym_id _struct_conf.beg_label_seq_id _struct_conf.pdbx_beg_PDB_ins_code _struct_conf.end_label_comp_id _struct_conf.end_label_asym_id _struct_conf.end_label_seq_id _struct_conf.pdbx_end_PDB_ins_code _struct_conf.beg_auth_comp_id _struct_conf.beg_auth_asym_id _struct_conf.beg_auth_seq_id _struct_conf.end_auth_comp_id _struct_conf.end_auth_asym_id _struct_conf.end_auth_seq_id _struct_conf.pdbx_PDB_helix_class _struct_conf.details _struct_conf.pdbx_PDB_helix_length HELX_P HELX_P1 1 LYS A 9 ? LYS A 15 ? LYS A 30 LYS A 36 1 ? 7 HELX_P HELX_P2 2 VAL A 20 ? ASN A 24 ? VAL A 41 ASN A 45 5 ? 5 # _struct_conf_type.id HELX_P _struct_conf_type.criteria ? _struct_conf_type.reference ? # _atom_sites.entry_id 2K84 _atom_sites.fract_transf_matrix[1][1] 1.000000 _atom_sites.fract_transf_matrix[1][2] 0.000000 _atom_sites.fract_transf_matrix[1][3] 0.000000 _atom_sites.fract_transf_matrix[2][1] 0.000000 _atom_sites.fract_transf_matrix[2][2] 1.000000 _atom_sites.fract_transf_matrix[2][3] 0.000000 _atom_sites.fract_transf_matrix[3][1] 0.000000 _atom_sites.fract_transf_matrix[3][2] 0.000000 _atom_sites.fract_transf_matrix[3][3] 1.000000 _atom_sites.fract_transf_vector[1] 0.00000 _atom_sites.fract_transf_vector[2] 0.00000 _atom_sites.fract_transf_vector[3] 0.00000 # loop_ _atom_type.symbol C H N O # loop_ _pdbx_poly_seq_scheme.asym_id _pdbx_poly_seq_scheme.entity_id _pdbx_poly_seq_scheme.seq_id _pdbx_poly_seq_scheme.mon_id _pdbx_poly_seq_scheme.ndb_seq_num _pdbx_poly_seq_scheme.pdb_seq_num _pdbx_poly_seq_scheme.auth_seq_num _pdbx_poly_seq_scheme.pdb_mon_id _pdbx_poly_seq_scheme.auth_mon_id _pdbx_poly_seq_scheme.pdb_strand_id _pdbx_poly_seq_scheme.pdb_ins_code _pdbx_poly_seq_scheme.hetero A 1 1 LEU 1 22 22 LEU LEU A . n A 1 2 TYR 2 23 23 TYR TYR A . n A 1 3 PRO 3 24 24 PRO PRO A . n A 1 4 ASP 4 25 25 ASP ASP A . n A 1 5 LEU 5 26 26 LEU LEU A . n A 1 6 SER 6 27 27 SER SER A . n A 1 7 GLU 7 28 28 GLU GLU A . n A 1 8 ILE 8 29 29 ILE ILE A . n A 1 9 LYS 9 30 30 LYS LYS A . n A 1 10 LYS 10 31 31 LYS LYS A . n A 1 11 GLU 11 32 32 GLU GLU A . n A 1 12 TYR 12 33 33 TYR TYR A . n A 1 13 ASN 13 34 34 ASN ASN A . n A 1 14 VAL 14 35 35 VAL VAL A . n A 1 15 LYS 15 36 36 LYS LYS A . n A 1 16 GLU 16 37 37 GLU GLU A . n A 1 17 LYS 17 38 38 LYS LYS A . n A 1 18 ASP 18 39 39 ASP ASP A . n A 1 19 GLN 19 40 40 GLN GLN A . n A 1 20 VAL 20 41 41 VAL VAL A . n A 1 21 GLU 21 42 42 GLU GLU A . n A 1 22 ASP 22 43 43 ASP ASP A . n A 1 23 LEU 23 44 44 LEU LEU A . n A 1 24 ASN 24 45 45 ASN ASN A . n A 1 25 LEU 25 46 46 LEU LEU A . n A 1 26 ASP 26 47 47 ASP ASP A . n A 1 27 SER 27 48 48 SER SER A . n A 1 28 LEU 28 49 49 LEU LEU A . n A 1 29 TRP 29 50 50 TRP TRP A . n A 1 30 GLU 30 51 51 GLU GLU A . n # _pdbx_struct_assembly.id 1 _pdbx_struct_assembly.details author_defined_assembly _pdbx_struct_assembly.method_details ? _pdbx_struct_assembly.oligomeric_details monomeric _pdbx_struct_assembly.oligomeric_count 1 # _pdbx_struct_assembly_gen.assembly_id 1 _pdbx_struct_assembly_gen.oper_expression 1 _pdbx_struct_assembly_gen.asym_id_list A # _pdbx_struct_oper_list.id 1 _pdbx_struct_oper_list.type 'identity operation' _pdbx_struct_oper_list.name 1_555 _pdbx_struct_oper_list.symmetry_operation x,y,z _pdbx_struct_oper_list.matrix[1][1] 1.0000000000 _pdbx_struct_oper_list.matrix[1][2] 0.0000000000 _pdbx_struct_oper_list.matrix[1][3] 0.0000000000 _pdbx_struct_oper_list.vector[1] 0.0000000000 _pdbx_struct_oper_list.matrix[2][1] 0.0000000000 _pdbx_struct_oper_list.matrix[2][2] 1.0000000000 _pdbx_struct_oper_list.matrix[2][3] 0.0000000000 _pdbx_struct_oper_list.vector[2] 0.0000000000 _pdbx_struct_oper_list.matrix[3][1] 0.0000000000 _pdbx_struct_oper_list.matrix[3][2] 0.0000000000 _pdbx_struct_oper_list.matrix[3][3] 1.0000000000 _pdbx_struct_oper_list.vector[3] 0.0000000000 # loop_ _pdbx_audit_revision_history.ordinal _pdbx_audit_revision_history.data_content_type _pdbx_audit_revision_history.major_revision _pdbx_audit_revision_history.minor_revision _pdbx_audit_revision_history.revision_date 1 'Structure model' 1 0 2009-09-08 2 'Structure model' 1 1 2011-07-13 3 'Structure model' 1 2 2022-03-16 # _pdbx_audit_revision_details.ordinal 1 _pdbx_audit_revision_details.revision_ordinal 1 _pdbx_audit_revision_details.data_content_type 'Structure model' _pdbx_audit_revision_details.provider repository _pdbx_audit_revision_details.type 'Initial release' _pdbx_audit_revision_details.description ? _pdbx_audit_revision_details.details ? # loop_ _pdbx_audit_revision_group.ordinal _pdbx_audit_revision_group.revision_ordinal _pdbx_audit_revision_group.data_content_type _pdbx_audit_revision_group.group 1 2 'Structure model' 'Version format compliance' 2 3 'Structure model' 'Database references' 3 3 'Structure model' 'Derived calculations' # loop_ _pdbx_audit_revision_category.ordinal _pdbx_audit_revision_category.revision_ordinal _pdbx_audit_revision_category.data_content_type _pdbx_audit_revision_category.category 1 3 'Structure model' database_2 2 3 'Structure model' pdbx_struct_assembly 3 3 'Structure model' pdbx_struct_oper_list # loop_ _pdbx_audit_revision_item.ordinal _pdbx_audit_revision_item.revision_ordinal _pdbx_audit_revision_item.data_content_type _pdbx_audit_revision_item.item 1 3 'Structure model' '_database_2.pdbx_DOI' 2 3 'Structure model' '_database_2.pdbx_database_accession' # _pdbx_nmr_exptl_sample.component 'p9 (22-51)' _pdbx_nmr_exptl_sample.concentration 2 _pdbx_nmr_exptl_sample.concentration_units mM _pdbx_nmr_exptl_sample.isotopic_labeling ? _pdbx_nmr_exptl_sample.solution_id 1 # loop_ _pdbx_validate_close_contact.id _pdbx_validate_close_contact.PDB_model_num _pdbx_validate_close_contact.auth_atom_id_1 _pdbx_validate_close_contact.auth_asym_id_1 _pdbx_validate_close_contact.auth_comp_id_1 _pdbx_validate_close_contact.auth_seq_id_1 _pdbx_validate_close_contact.PDB_ins_code_1 _pdbx_validate_close_contact.label_alt_id_1 _pdbx_validate_close_contact.auth_atom_id_2 _pdbx_validate_close_contact.auth_asym_id_2 _pdbx_validate_close_contact.auth_comp_id_2 _pdbx_validate_close_contact.auth_seq_id_2 _pdbx_validate_close_contact.PDB_ins_code_2 _pdbx_validate_close_contact.label_alt_id_2 _pdbx_validate_close_contact.dist 1 1 O A VAL 35 ? ? H A ASP 39 ? ? 1.32 2 2 O A VAL 35 ? ? H A ASP 39 ? ? 1.43 3 2 O A SER 27 ? ? N A ILE 29 ? ? 2.19 4 3 O A VAL 35 ? ? H A ASP 39 ? ? 1.38 5 4 O A VAL 35 ? ? H A ASP 39 ? ? 1.33 6 4 O A SER 27 ? ? N A ILE 29 ? ? 2.18 7 5 O A VAL 35 ? ? H A ASP 39 ? ? 1.43 8 6 O A VAL 35 ? ? H A ASP 39 ? ? 1.43 9 7 O A VAL 35 ? ? H A ASP 39 ? ? 1.38 10 8 O A VAL 35 ? ? H A ASP 39 ? ? 1.39 11 9 O A VAL 35 ? ? H A ASP 39 ? ? 1.36 12 10 O A VAL 35 ? ? H A ASP 39 ? ? 1.41 13 11 O A VAL 35 ? ? H A ASP 39 ? ? 1.41 14 11 O A SER 27 ? ? N A ILE 29 ? ? 2.16 15 12 O A VAL 35 ? ? H A ASP 39 ? ? 1.54 16 12 O A SER 27 ? ? N A ILE 29 ? ? 2.16 17 13 O A VAL 35 ? ? H A ASP 39 ? ? 1.48 18 14 O A VAL 35 ? ? H A ASP 39 ? ? 1.54 19 15 O A VAL 35 ? ? H A ASP 39 ? ? 1.36 20 16 O A VAL 35 ? ? H A ASP 39 ? ? 1.36 21 17 O A VAL 35 ? ? H A ASP 39 ? ? 1.35 22 18 O A VAL 35 ? ? H A ASP 39 ? ? 1.34 23 19 O A VAL 35 ? ? H A ASP 39 ? ? 1.36 24 19 O A SER 27 ? ? N A ILE 29 ? ? 2.15 25 20 O A VAL 35 ? ? H A ASP 39 ? ? 1.35 26 20 O A SER 27 ? ? N A ILE 29 ? ? 2.17 # loop_ _pdbx_validate_torsion.id _pdbx_validate_torsion.PDB_model_num _pdbx_validate_torsion.auth_comp_id _pdbx_validate_torsion.auth_asym_id _pdbx_validate_torsion.auth_seq_id _pdbx_validate_torsion.PDB_ins_code _pdbx_validate_torsion.label_alt_id _pdbx_validate_torsion.phi _pdbx_validate_torsion.psi 1 1 TYR A 23 ? ? 54.70 174.68 2 1 PRO A 24 ? ? -61.63 -178.21 3 1 GLU A 28 ? ? 20.48 29.22 4 1 ILE A 29 ? ? 171.10 54.14 5 1 LYS A 30 ? ? 176.64 -42.32 6 1 ASN A 45 ? ? -136.70 -33.29 7 1 ASP A 47 ? ? 178.43 -25.60 8 2 PRO A 24 ? ? -63.32 -177.61 9 2 GLU A 28 ? ? 19.00 29.80 10 2 ILE A 29 ? ? 171.24 53.89 11 2 LYS A 30 ? ? 177.01 -41.66 12 2 LEU A 44 ? ? -71.46 20.08 13 2 ASN A 45 ? ? -141.53 -36.99 14 2 ASP A 47 ? ? 176.87 -29.52 15 3 LEU A 26 ? ? 68.63 -1.45 16 3 GLU A 28 ? ? -74.38 42.76 17 3 ILE A 29 ? ? -176.38 50.27 18 3 LYS A 30 ? ? -174.14 -43.74 19 3 ASN A 45 ? ? -139.76 -36.31 20 3 ASP A 47 ? ? 176.84 -29.63 21 4 TYR A 23 ? ? 55.12 174.86 22 4 PRO A 24 ? ? -61.05 -176.41 23 4 GLU A 28 ? ? 18.92 28.80 24 4 ILE A 29 ? ? 172.87 53.54 25 4 LYS A 30 ? ? 177.87 -42.53 26 4 ASN A 45 ? ? -139.40 -35.79 27 4 ASP A 47 ? ? 178.16 -29.50 28 5 TYR A 23 ? ? 55.02 175.37 29 5 PRO A 24 ? ? -58.83 -177.42 30 5 LEU A 26 ? ? 66.75 -2.18 31 5 SER A 27 ? ? -144.95 12.80 32 5 GLU A 28 ? ? -79.63 42.73 33 5 ILE A 29 ? ? -174.86 49.70 34 5 LYS A 30 ? ? -173.32 -43.44 35 5 GLU A 42 ? ? -39.11 -34.68 36 5 LEU A 44 ? ? -70.86 20.08 37 5 ASN A 45 ? ? -141.39 -36.98 38 5 ASP A 47 ? ? 176.89 -29.51 39 6 PRO A 24 ? ? -63.57 -179.61 40 6 LEU A 26 ? ? 69.80 -3.50 41 6 GLU A 28 ? ? -74.59 41.79 42 6 ILE A 29 ? ? -173.36 49.19 43 6 LYS A 30 ? ? -171.36 -44.34 44 6 GLN A 40 ? ? -135.70 -30.79 45 6 GLU A 42 ? ? -39.44 -35.62 46 6 LEU A 44 ? ? -65.79 18.83 47 6 ASN A 45 ? ? -131.84 -32.85 48 6 ASP A 47 ? ? -174.54 -25.55 49 7 LEU A 26 ? ? 67.97 -1.17 50 7 GLU A 28 ? ? -74.19 42.69 51 7 ILE A 29 ? ? -175.65 49.96 52 7 LYS A 30 ? ? -173.85 -43.73 53 7 LEU A 44 ? ? -72.97 22.46 54 7 ASN A 45 ? ? -143.39 -36.65 55 7 ASP A 47 ? ? 177.24 -29.37 56 8 GLU A 28 ? ? -73.67 42.80 57 8 ILE A 29 ? ? -176.51 50.39 58 8 LYS A 30 ? ? -175.73 -42.85 59 8 GLU A 42 ? ? -39.85 -34.10 60 8 LEU A 44 ? ? -67.74 18.36 61 8 ASN A 45 ? ? -134.22 -32.73 62 8 ASP A 47 ? ? -179.66 -25.65 63 9 LEU A 26 ? ? 67.51 -1.95 64 9 SER A 27 ? ? -145.18 13.30 65 9 GLU A 28 ? ? -79.08 42.33 66 9 ILE A 29 ? ? -174.15 49.61 67 9 LYS A 30 ? ? -173.50 -43.38 68 9 LEU A 44 ? ? -70.78 20.09 69 9 ASN A 45 ? ? -141.30 -36.70 70 9 ASP A 47 ? ? 176.33 -29.39 71 10 TYR A 23 ? ? 55.40 174.42 72 10 PRO A 24 ? ? -61.51 -179.72 73 10 LEU A 26 ? ? 68.17 -1.67 74 10 GLU A 28 ? ? -74.05 41.53 75 10 ILE A 29 ? ? -173.68 49.32 76 10 LYS A 30 ? ? -172.31 -44.09 77 10 GLU A 42 ? ? -39.81 -34.49 78 10 LEU A 44 ? ? -71.34 20.23 79 10 ASN A 45 ? ? -141.18 -36.65 80 10 ASP A 47 ? ? 177.17 -29.24 81 11 TYR A 23 ? ? 54.89 175.20 82 11 PRO A 24 ? ? -59.58 -174.52 83 11 GLU A 28 ? ? 17.48 29.67 84 11 ILE A 29 ? ? 172.70 53.49 85 11 LYS A 30 ? ? 177.53 -41.45 86 11 LEU A 44 ? ? -71.53 20.26 87 11 ASN A 45 ? ? -141.81 -35.76 88 11 ASP A 47 ? ? 176.27 -29.48 89 12 PRO A 24 ? ? -63.99 -177.55 90 12 GLU A 28 ? ? 18.58 26.98 91 12 ILE A 29 ? ? 174.76 52.95 92 12 LYS A 30 ? ? 178.68 -41.74 93 12 GLU A 42 ? ? -38.45 -34.38 94 12 ASN A 45 ? ? -140.18 -34.86 95 12 ASP A 47 ? ? 178.34 -29.36 96 13 LEU A 26 ? ? 68.74 -1.95 97 13 GLU A 28 ? ? -74.26 43.20 98 13 ILE A 29 ? ? -176.51 50.45 99 13 LYS A 30 ? ? -174.79 -43.20 100 13 ASN A 45 ? ? -136.82 -33.48 101 13 ASP A 47 ? ? 178.20 -25.56 102 14 PRO A 24 ? ? -63.95 -179.79 103 14 GLU A 28 ? ? -73.70 42.58 104 14 ILE A 29 ? ? -176.13 50.31 105 14 LYS A 30 ? ? -174.90 -43.00 106 14 GLU A 42 ? ? -39.94 -34.40 107 14 LEU A 44 ? ? -68.72 19.05 108 14 ASN A 45 ? ? -135.42 -33.63 109 14 ASP A 47 ? ? 179.67 -26.23 110 15 TYR A 23 ? ? 54.01 175.03 111 15 PRO A 24 ? ? -58.94 -178.87 112 15 GLU A 28 ? ? -73.40 42.67 113 15 ILE A 29 ? ? -176.58 50.41 114 15 LYS A 30 ? ? -175.09 -43.12 115 15 ASN A 45 ? ? -136.62 -33.65 116 15 ASP A 47 ? ? 179.23 -26.39 117 16 GLU A 28 ? ? 18.89 32.78 118 16 ILE A 29 ? ? 167.73 54.23 119 16 LYS A 30 ? ? 176.50 -42.53 120 16 ASN A 45 ? ? -137.02 -33.26 121 16 ASP A 47 ? ? 177.99 -25.38 122 17 LEU A 26 ? ? 68.64 -1.85 123 17 GLU A 28 ? ? -74.02 42.44 124 17 ILE A 29 ? ? -175.06 49.93 125 17 LYS A 30 ? ? -173.87 -43.53 126 17 GLU A 42 ? ? -37.95 -35.44 127 17 LEU A 44 ? ? -68.35 18.47 128 17 ASN A 45 ? ? -134.06 -32.97 129 17 ASP A 47 ? ? -177.98 -26.30 130 18 LEU A 26 ? ? 67.41 -2.19 131 18 SER A 27 ? ? -143.74 11.96 132 18 GLU A 28 ? ? -78.10 42.87 133 18 ILE A 29 ? ? -174.85 49.87 134 18 LYS A 30 ? ? -173.99 -43.30 135 18 LEU A 44 ? ? -69.27 16.82 136 18 ASN A 45 ? ? -134.27 -33.04 137 18 ASP A 47 ? ? 177.75 -25.61 138 19 TYR A 23 ? ? 54.31 174.76 139 19 PRO A 24 ? ? -60.35 -173.66 140 19 GLU A 28 ? ? 17.21 29.20 141 19 ILE A 29 ? ? 173.68 53.25 142 19 LYS A 30 ? ? 178.56 -42.35 143 19 ASN A 45 ? ? -136.90 -33.16 144 19 ASP A 47 ? ? 177.59 -25.47 145 20 PRO A 24 ? ? -66.23 -174.15 146 20 SER A 27 ? ? -114.28 -73.24 147 20 GLU A 28 ? ? 16.43 32.03 148 20 ILE A 29 ? ? 171.37 53.28 149 20 LYS A 30 ? ? 178.32 -42.41 150 20 ASN A 45 ? ? -137.25 -33.55 151 20 ASP A 47 ? ? 178.15 -25.47 #