data_2LWA # _entry.id 2LWA # _audit_conform.dict_name mmcif_pdbx.dic _audit_conform.dict_version 5.371 _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 2LWA pdb_00002lwa 10.2210/pdb2lwa/pdb RCSB RCSB102911 ? ? BMRB 18617 ? ? WWPDB D_1000102911 ? ? # loop_ _pdbx_database_related.content_type _pdbx_database_related.db_id _pdbx_database_related.db_name _pdbx_database_related.details unspecified 2KXA PDB . unspecified 16907 BMRB . unspecified 18617 BMRB . # _pdbx_database_status.deposit_site BMRB _pdbx_database_status.entry_id 2LWA _pdbx_database_status.process_site RCSB _pdbx_database_status.recvd_initial_deposition_date 2012-07-26 _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.status_code_cs REL _pdbx_database_status.methods_development_category ? _pdbx_database_status.pdb_format_compatible Y _pdbx_database_status.status_code_nmr_data REL # loop_ _audit_author.name _audit_author.pdbx_ordinal 'Lorieau, J.L.' 1 'Louis, J.M.' 2 'Schwieters, C.D.' 3 'Bax, A.' 4 # _citation.id primary _citation.title 'pH-triggered, activated-state conformations of the influenza hemagglutinin fusion peptide revealed by NMR.' _citation.journal_abbrev Proc.Natl.Acad.Sci.USA _citation.journal_volume 109 _citation.page_first 19994 _citation.page_last 19999 _citation.year 2012 _citation.journal_id_ASTM PNASA6 _citation.country US _citation.journal_id_ISSN 0027-8424 _citation.journal_id_CSD 0040 _citation.book_publisher ? _citation.pdbx_database_id_PubMed 23169643 _citation.pdbx_database_id_DOI 10.1073/pnas.1213801109 # loop_ _citation_author.citation_id _citation_author.name _citation_author.ordinal _citation_author.identifier_ORCID primary 'Lorieau, J.L.' 1 ? primary 'Louis, J.M.' 2 ? primary 'Schwieters, C.D.' 3 ? primary 'Bax, A.' 4 ? # _entity.id 1 _entity.type polymer _entity.src_method man _entity.pdbx_description 'HEMAGGLUTININ FUSION PEPTIDE G8A MUTANT' _entity.formula_weight 3165.622 _entity.pdbx_number_of_molecules 3 _entity.pdbx_ec ? _entity.pdbx_mutation G8A _entity.pdbx_fragment ? _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 GLFGAIAAFIEGGWTGMIDGWYGSGKKKKD _entity_poly.pdbx_seq_one_letter_code_can GLFGAIAAFIEGGWTGMIDGWYGSGKKKKD _entity_poly.pdbx_strand_id A,B,C _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 GLY n 1 2 LEU n 1 3 PHE n 1 4 GLY n 1 5 ALA n 1 6 ILE n 1 7 ALA n 1 8 ALA n 1 9 PHE n 1 10 ILE n 1 11 GLU n 1 12 GLY n 1 13 GLY n 1 14 TRP n 1 15 THR n 1 16 GLY n 1 17 MET n 1 18 ILE n 1 19 ASP n 1 20 GLY n 1 21 TRP n 1 22 TYR n 1 23 GLY n 1 24 SER n 1 25 GLY n 1 26 LYS n 1 27 LYS n 1 28 LYS n 1 29 LYS n 1 30 ASP n # _entity_src_gen.entity_id 1 _entity_src_gen.pdbx_src_id 1 _entity_src_gen.pdbx_alt_source_flag sample _entity_src_gen.pdbx_seq_type ? _entity_src_gen.pdbx_beg_seq_num ? _entity_src_gen.pdbx_end_seq_num ? _entity_src_gen.gene_src_common_name ? _entity_src_gen.gene_src_genus ? _entity_src_gen.pdbx_gene_src_gene ? _entity_src_gen.gene_src_species ? _entity_src_gen.gene_src_strain 'A/Hong Kong/1035/1998(H1N1)' _entity_src_gen.gene_src_tissue ? _entity_src_gen.gene_src_tissue_fraction ? _entity_src_gen.gene_src_details ? _entity_src_gen.pdbx_gene_src_fragment ? _entity_src_gen.pdbx_gene_src_scientific_name 'Influenza A virus' _entity_src_gen.pdbx_gene_src_ncbi_taxonomy_id 164325 _entity_src_gen.pdbx_gene_src_variant ? _entity_src_gen.pdbx_gene_src_cell_line ? _entity_src_gen.pdbx_gene_src_atcc ? _entity_src_gen.pdbx_gene_src_organ ? _entity_src_gen.pdbx_gene_src_organelle ? _entity_src_gen.pdbx_gene_src_cell ? _entity_src_gen.pdbx_gene_src_cellular_location ? _entity_src_gen.host_org_common_name ? _entity_src_gen.pdbx_host_org_scientific_name 'Escherichia coli' _entity_src_gen.pdbx_host_org_ncbi_taxonomy_id 469008 _entity_src_gen.host_org_genus ? _entity_src_gen.pdbx_host_org_gene ? _entity_src_gen.pdbx_host_org_organ ? _entity_src_gen.host_org_species ? _entity_src_gen.pdbx_host_org_tissue ? _entity_src_gen.pdbx_host_org_tissue_fraction ? _entity_src_gen.pdbx_host_org_strain 'BL21(DE3)' _entity_src_gen.pdbx_host_org_variant ? _entity_src_gen.pdbx_host_org_cell_line ? _entity_src_gen.pdbx_host_org_atcc ? _entity_src_gen.pdbx_host_org_culture_collection ? _entity_src_gen.pdbx_host_org_cell ? _entity_src_gen.pdbx_host_org_organelle ? _entity_src_gen.pdbx_host_org_cellular_location ? _entity_src_gen.pdbx_host_org_vector_type plasmid _entity_src_gen.pdbx_host_org_vector ? _entity_src_gen.host_org_details ? _entity_src_gen.expression_system_id ? _entity_src_gen.plasmid_name pET11a _entity_src_gen.plasmid_details ? _entity_src_gen.pdbx_description ? # _struct_ref.id 1 _struct_ref.db_name UNP _struct_ref.db_code Q91IJ0_9INFA _struct_ref.pdbx_db_accession Q91IJ0 _struct_ref.entity_id 1 _struct_ref.pdbx_seq_one_letter_code GLFGAIAGFIEGGWTGMIDGWYG _struct_ref.pdbx_align_begin 344 _struct_ref.pdbx_db_isoform ? # loop_ _struct_ref_seq.align_id _struct_ref_seq.ref_id _struct_ref_seq.pdbx_PDB_id_code _struct_ref_seq.pdbx_strand_id _struct_ref_seq.seq_align_beg _struct_ref_seq.pdbx_seq_align_beg_ins_code _struct_ref_seq.seq_align_end _struct_ref_seq.pdbx_seq_align_end_ins_code _struct_ref_seq.pdbx_db_accession _struct_ref_seq.db_align_beg _struct_ref_seq.pdbx_db_align_beg_ins_code _struct_ref_seq.db_align_end _struct_ref_seq.pdbx_db_align_end_ins_code _struct_ref_seq.pdbx_auth_seq_align_beg _struct_ref_seq.pdbx_auth_seq_align_end 1 1 2LWA A 1 ? 23 ? Q91IJ0 344 ? 366 ? 1 23 2 1 2LWA B 1 ? 23 ? Q91IJ0 344 ? 366 ? 1 23 3 1 2LWA C 1 ? 23 ? Q91IJ0 344 ? 366 ? 1 23 # loop_ _struct_ref_seq_dif.align_id _struct_ref_seq_dif.pdbx_pdb_id_code _struct_ref_seq_dif.mon_id _struct_ref_seq_dif.pdbx_pdb_strand_id _struct_ref_seq_dif.seq_num _struct_ref_seq_dif.pdbx_pdb_ins_code _struct_ref_seq_dif.pdbx_seq_db_name _struct_ref_seq_dif.pdbx_seq_db_accession_code _struct_ref_seq_dif.db_mon_id _struct_ref_seq_dif.pdbx_seq_db_seq_num _struct_ref_seq_dif.details _struct_ref_seq_dif.pdbx_auth_seq_num _struct_ref_seq_dif.pdbx_ordinal 1 2LWA ALA A 8 ? UNP Q91IJ0 GLY 351 'engineered mutation' 8 1 1 2LWA SER A 24 ? UNP Q91IJ0 ? ? 'expression tag' 24 2 1 2LWA GLY A 25 ? UNP Q91IJ0 ? ? 'expression tag' 25 3 1 2LWA LYS A 26 ? UNP Q91IJ0 ? ? 'expression tag' 26 4 1 2LWA LYS A 27 ? UNP Q91IJ0 ? ? 'expression tag' 27 5 1 2LWA LYS A 28 ? UNP Q91IJ0 ? ? 'expression tag' 28 6 1 2LWA LYS A 29 ? UNP Q91IJ0 ? ? 'expression tag' 29 7 1 2LWA ASP A 30 ? UNP Q91IJ0 ? ? 'expression tag' 30 8 2 2LWA ALA B 8 ? UNP Q91IJ0 GLY 351 'engineered mutation' 8 9 2 2LWA SER B 24 ? UNP Q91IJ0 ? ? 'expression tag' 24 10 2 2LWA GLY B 25 ? UNP Q91IJ0 ? ? 'expression tag' 25 11 2 2LWA LYS B 26 ? UNP Q91IJ0 ? ? 'expression tag' 26 12 2 2LWA LYS B 27 ? UNP Q91IJ0 ? ? 'expression tag' 27 13 2 2LWA LYS B 28 ? UNP Q91IJ0 ? ? 'expression tag' 28 14 2 2LWA LYS B 29 ? UNP Q91IJ0 ? ? 'expression tag' 29 15 2 2LWA ASP B 30 ? UNP Q91IJ0 ? ? 'expression tag' 30 16 3 2LWA ALA C 8 ? UNP Q91IJ0 GLY 351 'engineered mutation' 8 17 3 2LWA SER C 24 ? UNP Q91IJ0 ? ? 'expression tag' 24 18 3 2LWA GLY C 25 ? UNP Q91IJ0 ? ? 'expression tag' 25 19 3 2LWA LYS C 26 ? UNP Q91IJ0 ? ? 'expression tag' 26 20 3 2LWA LYS C 27 ? UNP Q91IJ0 ? ? 'expression tag' 27 21 3 2LWA LYS C 28 ? UNP Q91IJ0 ? ? 'expression tag' 28 22 3 2LWA LYS C 29 ? UNP Q91IJ0 ? ? 'expression tag' 29 23 3 2LWA ASP C 30 ? UNP Q91IJ0 ? ? 'expression tag' 30 24 # 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 ALA 'L-peptide linking' y ALANINE ? 'C3 H7 N O2' 89.093 ASP 'L-peptide linking' y 'ASPARTIC ACID' ? 'C4 H7 N O4' 133.103 GLU 'L-peptide linking' y 'GLUTAMIC ACID' ? 'C5 H9 N O4' 147.129 GLY 'peptide linking' y GLYCINE ? 'C2 H5 N O2' 75.067 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 MET 'L-peptide linking' y METHIONINE ? 'C5 H11 N O2 S' 149.211 PHE 'L-peptide linking' y PHENYLALANINE ? 'C9 H11 N O2' 165.189 SER 'L-peptide linking' y SERINE ? 'C3 H7 N O3' 105.093 THR 'L-peptide linking' y THREONINE ? 'C4 H9 N O3' 119.119 TRP 'L-peptide linking' y TRYPTOPHAN ? 'C11 H12 N2 O2' 204.225 TYR 'L-peptide linking' y TYROSINE ? 'C9 H11 N O3' 181.189 # 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-13C HSQC' 1 2 1 '2D 1H-15N HSQC' 1 3 1 '3D HNCA' 1 4 1 '3D 1H-15N NOESY' 1 5 1 '2D 1H-1H NOESY' # _pdbx_nmr_exptl_sample_conditions.conditions_id 1 _pdbx_nmr_exptl_sample_conditions.ionic_strength 0 _pdbx_nmr_exptl_sample_conditions.pH 7.3 _pdbx_nmr_exptl_sample_conditions.pressure ambient _pdbx_nmr_exptl_sample_conditions.pressure_units ? _pdbx_nmr_exptl_sample_conditions.temperature 305 _pdbx_nmr_exptl_sample_conditions.temperature_units K # _pdbx_nmr_sample_details.contents '0.3-0.6 mM [U-100% 13C; U-100% 15N] Hemagglutinin Fusion Peptide G8A mutant, 25 mM TRIS, 130-160 mM [U-100% 2H] DPC, 93% H2O/7% D2O' _pdbx_nmr_sample_details.solution_id 1 _pdbx_nmr_sample_details.solvent_system '93% H2O/7% D2O' # loop_ _pdbx_nmr_spectrometer.field_strength _pdbx_nmr_spectrometer.manufacturer _pdbx_nmr_spectrometer.model _pdbx_nmr_spectrometer.spectrometer_id _pdbx_nmr_spectrometer.type 900 Bruker AVANCE 1 'Bruker Avance' 600 Bruker AVANCE 2 'Bruker Avance' 500 Bruker AVANCE 3 'Bruker Avance' 750 Bruker AVANCE 4 'Bruker Avance' # _pdbx_nmr_refine.entry_id 2LWA _pdbx_nmr_refine.method 'simulated annealing' _pdbx_nmr_refine.details ;THE ENTRY CONSISTS OF 20 SETS OF 3 MODELS, WHERE EACH INDIVIDUAL SET REPRESENTS THREE CONFORMERS THAT ARE IN FAST EXCHANGE WITH ONE ANOTHER, AND EACH SET OF THREE WHEN TAKEN TOGETHER AT POPULATIONS OF 15% (CHAIN A), 42.5% (CHAIN B) AND 42.5% (CHAIN C) SATISFIES THE EXPERIMENTAL DATA. ; _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 lowest energy' _pdbx_nmr_ensemble.conformers_calculated_total_number 480 _pdbx_nmr_ensemble.conformers_submitted_total_number 20 _pdbx_nmr_ensemble.distance_constraint_violation_method ? _pdbx_nmr_ensemble.entry_id 2LWA _pdbx_nmr_ensemble.maximum_distance_constraint_violation ? _pdbx_nmr_ensemble.maximum_lower_distance_constraint_violation 0.35 _pdbx_nmr_ensemble.maximum_torsion_angle_constraint_violation ? _pdbx_nmr_ensemble.maximum_upper_distance_constraint_violation 0.35 _pdbx_nmr_ensemble.torsion_angle_constraint_violation_method ? # _pdbx_nmr_representative.conformer_id 1 _pdbx_nmr_representative.entry_id 2LWA _pdbx_nmr_representative.selection_criteria 'lowest energy' # loop_ _pdbx_nmr_software.authors _pdbx_nmr_software.classification _pdbx_nmr_software.name _pdbx_nmr_software.version _pdbx_nmr_software.ordinal 'Delaglio, Grzesiek, Vuister, Zhu, Pfeifer and Bax' processing NMRPipe 7.5 1 Goddard 'chemical shift assignment' Sparky 3.113 2 'Schwieters, Kuszewski, Tjandra and Clore' refinement 'X-PLOR NIH' 2.31 3 # _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 ;The 3-conformer ensemble for the G8A mutant of the hemagglutinin fusion peptide refined with chemical shift dihedral restraints, RDCs and NOEs. ; _exptl.entry_id 2LWA _exptl.method 'SOLUTION NMR' _exptl.method_details ? # _struct.entry_id 2LWA _struct.title 'Conformational ensemble for the G8A mutant of the influenza hemagglutinin fusion peptide' _struct.pdbx_model_details ? _struct.pdbx_CASP_flag ? _struct.pdbx_model_type_details ? # _struct_keywords.entry_id 2LWA _struct_keywords.pdbx_keywords 'MEMBRANE PROTEIN' _struct_keywords.text 'influenza virus, hemagglutinin, fusion peptide, G8A mutant, membrane protein' # loop_ _struct_asym.id _struct_asym.pdbx_blank_PDB_chainid_flag _struct_asym.pdbx_modified _struct_asym.entity_id _struct_asym.details A N N 1 ? B N N 1 ? C N N 1 ? # _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 GLY A 1 ? GLY A 12 ? GLY A 1 GLY A 12 1 ? 12 HELX_P HELX_P2 2 GLY A 12 ? GLY A 23 ? GLY A 12 GLY A 23 1 ? 12 HELX_P HELX_P3 3 LEU B 2 ? GLU B 11 ? LEU B 2 GLU B 11 1 ? 10 HELX_P HELX_P4 4 GLY B 13 ? GLY B 23 ? GLY B 13 GLY B 23 1 ? 11 HELX_P HELX_P5 5 LEU C 2 ? GLY C 12 ? LEU C 2 GLY C 12 1 ? 11 HELX_P HELX_P6 6 GLY C 13 ? GLY C 23 ? GLY C 13 GLY C 23 1 ? 11 # _struct_conf_type.id HELX_P _struct_conf_type.criteria ? _struct_conf_type.reference ? # _atom_sites.entry_id 2LWA _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 S # 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 GLY 1 1 1 GLY GLY A . n A 1 2 LEU 2 2 2 LEU LEU A . n A 1 3 PHE 3 3 3 PHE PHE A . n A 1 4 GLY 4 4 4 GLY GLY A . n A 1 5 ALA 5 5 5 ALA ALA A . n A 1 6 ILE 6 6 6 ILE ILE A . n A 1 7 ALA 7 7 7 ALA ALA A . n A 1 8 ALA 8 8 8 ALA ALA A . n A 1 9 PHE 9 9 9 PHE PHE A . n A 1 10 ILE 10 10 10 ILE ILE A . n A 1 11 GLU 11 11 11 GLU GLU A . n A 1 12 GLY 12 12 12 GLY GLY A . n A 1 13 GLY 13 13 13 GLY GLY A . n A 1 14 TRP 14 14 14 TRP TRP A . n A 1 15 THR 15 15 15 THR THR A . n A 1 16 GLY 16 16 16 GLY GLY A . n A 1 17 MET 17 17 17 MET MET A . n A 1 18 ILE 18 18 18 ILE ILE A . n A 1 19 ASP 19 19 19 ASP ASP A . n A 1 20 GLY 20 20 20 GLY GLY A . n A 1 21 TRP 21 21 21 TRP TRP A . n A 1 22 TYR 22 22 22 TYR TYR A . n A 1 23 GLY 23 23 23 GLY GLY A . n A 1 24 SER 24 24 24 SER SER A . n A 1 25 GLY 25 25 ? ? ? A . n A 1 26 LYS 26 26 ? ? ? A . n A 1 27 LYS 27 27 ? ? ? A . n A 1 28 LYS 28 28 ? ? ? A . n A 1 29 LYS 29 29 ? ? ? A . n A 1 30 ASP 30 30 ? ? ? A . n B 1 1 GLY 1 1 1 GLY GLY B . n B 1 2 LEU 2 2 2 LEU LEU B . n B 1 3 PHE 3 3 3 PHE PHE B . n B 1 4 GLY 4 4 4 GLY GLY B . n B 1 5 ALA 5 5 5 ALA ALA B . n B 1 6 ILE 6 6 6 ILE ILE B . n B 1 7 ALA 7 7 7 ALA ALA B . n B 1 8 ALA 8 8 8 ALA ALA B . n B 1 9 PHE 9 9 9 PHE PHE B . n B 1 10 ILE 10 10 10 ILE ILE B . n B 1 11 GLU 11 11 11 GLU GLU B . n B 1 12 GLY 12 12 12 GLY GLY B . n B 1 13 GLY 13 13 13 GLY GLY B . n B 1 14 TRP 14 14 14 TRP TRP B . n B 1 15 THR 15 15 15 THR THR B . n B 1 16 GLY 16 16 16 GLY GLY B . n B 1 17 MET 17 17 17 MET MET B . n B 1 18 ILE 18 18 18 ILE ILE B . n B 1 19 ASP 19 19 19 ASP ASP B . n B 1 20 GLY 20 20 20 GLY GLY B . n B 1 21 TRP 21 21 21 TRP TRP B . n B 1 22 TYR 22 22 22 TYR TYR B . n B 1 23 GLY 23 23 23 GLY GLY B . n B 1 24 SER 24 24 24 SER SER B . n B 1 25 GLY 25 25 ? ? ? B . n B 1 26 LYS 26 26 ? ? ? B . n B 1 27 LYS 27 27 ? ? ? B . n B 1 28 LYS 28 28 ? ? ? B . n B 1 29 LYS 29 29 ? ? ? B . n B 1 30 ASP 30 30 ? ? ? B . n C 1 1 GLY 1 1 1 GLY GLY C . n C 1 2 LEU 2 2 2 LEU LEU C . n C 1 3 PHE 3 3 3 PHE PHE C . n C 1 4 GLY 4 4 4 GLY GLY C . n C 1 5 ALA 5 5 5 ALA ALA C . n C 1 6 ILE 6 6 6 ILE ILE C . n C 1 7 ALA 7 7 7 ALA ALA C . n C 1 8 ALA 8 8 8 ALA ALA C . n C 1 9 PHE 9 9 9 PHE PHE C . n C 1 10 ILE 10 10 10 ILE ILE C . n C 1 11 GLU 11 11 11 GLU GLU C . n C 1 12 GLY 12 12 12 GLY GLY C . n C 1 13 GLY 13 13 13 GLY GLY C . n C 1 14 TRP 14 14 14 TRP TRP C . n C 1 15 THR 15 15 15 THR THR C . n C 1 16 GLY 16 16 16 GLY GLY C . n C 1 17 MET 17 17 17 MET MET C . n C 1 18 ILE 18 18 18 ILE ILE C . n C 1 19 ASP 19 19 19 ASP ASP C . n C 1 20 GLY 20 20 20 GLY GLY C . n C 1 21 TRP 21 21 21 TRP TRP C . n C 1 22 TYR 22 22 22 TYR TYR C . n C 1 23 GLY 23 23 23 GLY GLY C . n C 1 24 SER 24 24 24 SER SER C . n C 1 25 GLY 25 25 ? ? ? C . n C 1 26 LYS 26 26 ? ? ? C . n C 1 27 LYS 27 27 ? ? ? C . n C 1 28 LYS 28 28 ? ? ? C . n C 1 29 LYS 29 29 ? ? ? C . n C 1 30 ASP 30 30 ? ? ? C . n # loop_ _pdbx_struct_assembly.id _pdbx_struct_assembly.details _pdbx_struct_assembly.method_details _pdbx_struct_assembly.oligomeric_details _pdbx_struct_assembly.oligomeric_count 1 author_defined_assembly ? monomeric 1 2 author_defined_assembly ? monomeric 1 3 author_defined_assembly ? monomeric 1 # loop_ _pdbx_struct_assembly_gen.assembly_id _pdbx_struct_assembly_gen.oper_expression _pdbx_struct_assembly_gen.asym_id_list 1 1 A 2 1 B 3 1 C # _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 2012-12-05 2 'Structure model' 1 1 2012-12-19 3 'Structure model' 1 2 2013-02-20 4 'Structure model' 1 3 2023-06-14 # _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' 'Database references' 2 3 'Structure model' 'Refinement description' 3 4 'Structure model' 'Data collection' 4 4 'Structure model' 'Database references' 5 4 'Structure model' Other # 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 4 'Structure model' database_2 2 4 'Structure model' pdbx_database_status 3 4 'Structure model' pdbx_nmr_software 4 4 'Structure model' pdbx_nmr_spectrometer 5 4 'Structure model' struct_ref_seq_dif # 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 4 'Structure model' '_database_2.pdbx_DOI' 2 4 'Structure model' '_database_2.pdbx_database_accession' 3 4 'Structure model' '_pdbx_database_status.status_code_nmr_data' 4 4 'Structure model' '_pdbx_nmr_software.name' 5 4 'Structure model' '_pdbx_nmr_spectrometer.model' 6 4 'Structure model' '_struct_ref_seq_dif.details' # _pdbx_nmr_ensemble_rms.atom_type ? _pdbx_nmr_ensemble_rms.bond_angle_rms_dev ? _pdbx_nmr_ensemble_rms.bond_angle_rms_dev_error ? _pdbx_nmr_ensemble_rms.chain_range_begin ? _pdbx_nmr_ensemble_rms.chain_range_end ? _pdbx_nmr_ensemble_rms.coord_average_rmsd_method ? _pdbx_nmr_ensemble_rms.covalent_bond_rms_dev ? _pdbx_nmr_ensemble_rms.covalent_bond_rms_dev_error ? _pdbx_nmr_ensemble_rms.dihedral_angles_rms_dev ? _pdbx_nmr_ensemble_rms.dihedral_angles_rms_dev_error ? _pdbx_nmr_ensemble_rms.distance_rms_dev ? _pdbx_nmr_ensemble_rms.distance_rms_dev_error 0.045 _pdbx_nmr_ensemble_rms.entry_id 2LWA _pdbx_nmr_ensemble_rms.improper_torsion_angle_rms_dev ? _pdbx_nmr_ensemble_rms.improper_torsion_angle_rms_dev_error ? _pdbx_nmr_ensemble_rms.peptide_planarity_rms_dev ? _pdbx_nmr_ensemble_rms.peptide_planarity_rms_dev_error ? _pdbx_nmr_ensemble_rms.residue_range_begin ? _pdbx_nmr_ensemble_rms.residue_range_end ? # loop_ _pdbx_nmr_exptl_sample.component _pdbx_nmr_exptl_sample.concentration _pdbx_nmr_exptl_sample.concentration_range _pdbx_nmr_exptl_sample.concentration_units _pdbx_nmr_exptl_sample.isotopic_labeling _pdbx_nmr_exptl_sample.solution_id 'Hemagglutinin Fusion Peptide G8A mutant-1' ? 0.3-0.6 mM '[U-100% 13C; U-100% 15N]' 1 TRIS-2 25 ? mM ? 1 DPC-3 ? 130-160 mM '[U-100% 2H]' 1 # _pdbx_nmr_constraints.disulfide_bond_constraints_total_count ? _pdbx_nmr_constraints.entry_id 2LWA _pdbx_nmr_constraints.hydrogen_bond_constraints_total_count ? _pdbx_nmr_constraints.NA_alpha-angle_constraints_total_count ? _pdbx_nmr_constraints.NA_beta-angle_constraints_total_count ? _pdbx_nmr_constraints.NA_chi-angle_constraints_total_count ? _pdbx_nmr_constraints.NA_delta-angle_constraints_total_count ? _pdbx_nmr_constraints.NA_epsilon-angle_constraints_total_count ? _pdbx_nmr_constraints.NA_gamma-angle_constraints_total_count ? _pdbx_nmr_constraints.NA_other-angle_constraints_total_count ? _pdbx_nmr_constraints.NA_sugar_pucker_constraints_total_count ? _pdbx_nmr_constraints.NOE_constraints_total 316 _pdbx_nmr_constraints.NOE_interentity_total_count ? _pdbx_nmr_constraints.NOE_interproton_distance_evaluation ? _pdbx_nmr_constraints.NOE_intraresidue_total_count 118 _pdbx_nmr_constraints.NOE_long_range_total_count 22 _pdbx_nmr_constraints.NOE_medium_range_total_count 92 _pdbx_nmr_constraints.NOE_motional_averaging_correction ? _pdbx_nmr_constraints.NOE_pseudoatom_corrections ? _pdbx_nmr_constraints.NOE_sequential_total_count 84 _pdbx_nmr_constraints.protein_chi_angle_constraints_total_count 0 _pdbx_nmr_constraints.protein_other_angle_constraints_total_count 0 _pdbx_nmr_constraints.protein_phi_angle_constraints_total_count 20 _pdbx_nmr_constraints.protein_psi_angle_constraints_total_count 20 # 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 B GLY 4 ? ? H B ALA 8 ? ? 1.57 2 1 O A GLY 12 ? ? H A GLY 16 ? ? 1.57 3 2 O A GLY 12 ? ? H A GLY 16 ? ? 1.60 4 4 O A GLY 12 ? ? H A GLY 16 ? ? 1.53 5 6 O A GLY 12 ? ? H A GLY 16 ? ? 1.56 6 7 O C GLY 1 ? ? H C ALA 5 ? ? 1.59 7 9 O A GLY 12 ? ? H A GLY 16 ? ? 1.53 8 9 O A ALA 8 ? ? H A GLY 12 ? ? 1.58 9 12 O A GLY 12 ? ? H A GLY 16 ? ? 1.55 10 13 O A GLY 12 ? ? H A GLY 16 ? ? 1.59 11 15 O C GLY 1 ? ? H C ALA 5 ? ? 1.57 12 15 O A GLY 12 ? ? H A GLY 16 ? ? 1.59 13 16 O A GLY 12 ? ? H A GLY 16 ? ? 1.57 14 17 O B GLY 4 ? ? H B ALA 8 ? ? 1.57 15 18 O A GLY 12 ? ? H A GLY 16 ? ? 1.55 16 19 O A GLY 12 ? ? H A GLY 16 ? ? 1.56 # 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 4 GLU C 11 ? ? -59.77 -0.75 2 7 GLU C 11 ? ? -49.64 -15.10 # loop_ _pdbx_unobs_or_zero_occ_residues.id _pdbx_unobs_or_zero_occ_residues.PDB_model_num _pdbx_unobs_or_zero_occ_residues.polymer_flag _pdbx_unobs_or_zero_occ_residues.occupancy_flag _pdbx_unobs_or_zero_occ_residues.auth_asym_id _pdbx_unobs_or_zero_occ_residues.auth_comp_id _pdbx_unobs_or_zero_occ_residues.auth_seq_id _pdbx_unobs_or_zero_occ_residues.PDB_ins_code _pdbx_unobs_or_zero_occ_residues.label_asym_id _pdbx_unobs_or_zero_occ_residues.label_comp_id _pdbx_unobs_or_zero_occ_residues.label_seq_id 1 1 Y 1 A GLY 25 ? A GLY 25 2 1 Y 1 A LYS 26 ? A LYS 26 3 1 Y 1 A LYS 27 ? A LYS 27 4 1 Y 1 A LYS 28 ? A LYS 28 5 1 Y 1 A LYS 29 ? A LYS 29 6 1 Y 1 A ASP 30 ? A ASP 30 7 1 Y 1 B GLY 25 ? B GLY 25 8 1 Y 1 B LYS 26 ? B LYS 26 9 1 Y 1 B LYS 27 ? B LYS 27 10 1 Y 1 B LYS 28 ? B LYS 28 11 1 Y 1 B LYS 29 ? B LYS 29 12 1 Y 1 B ASP 30 ? B ASP 30 13 1 Y 1 C GLY 25 ? C GLY 25 14 1 Y 1 C LYS 26 ? C LYS 26 15 1 Y 1 C LYS 27 ? C LYS 27 16 1 Y 1 C LYS 28 ? C LYS 28 17 1 Y 1 C LYS 29 ? C LYS 29 18 1 Y 1 C ASP 30 ? C ASP 30 19 2 Y 1 A GLY 25 ? A GLY 25 20 2 Y 1 A LYS 26 ? A LYS 26 21 2 Y 1 A LYS 27 ? A LYS 27 22 2 Y 1 A LYS 28 ? A LYS 28 23 2 Y 1 A LYS 29 ? A LYS 29 24 2 Y 1 A ASP 30 ? A ASP 30 25 2 Y 1 B GLY 25 ? B GLY 25 26 2 Y 1 B LYS 26 ? B LYS 26 27 2 Y 1 B LYS 27 ? B LYS 27 28 2 Y 1 B LYS 28 ? B LYS 28 29 2 Y 1 B LYS 29 ? B LYS 29 30 2 Y 1 B ASP 30 ? B ASP 30 31 2 Y 1 C GLY 25 ? C GLY 25 32 2 Y 1 C LYS 26 ? C LYS 26 33 2 Y 1 C LYS 27 ? C LYS 27 34 2 Y 1 C LYS 28 ? C LYS 28 35 2 Y 1 C LYS 29 ? C LYS 29 36 2 Y 1 C ASP 30 ? C ASP 30 37 3 Y 1 A GLY 25 ? A GLY 25 38 3 Y 1 A LYS 26 ? A LYS 26 39 3 Y 1 A LYS 27 ? A LYS 27 40 3 Y 1 A LYS 28 ? A LYS 28 41 3 Y 1 A LYS 29 ? A LYS 29 42 3 Y 1 A ASP 30 ? A ASP 30 43 3 Y 1 B GLY 25 ? B GLY 25 44 3 Y 1 B LYS 26 ? B LYS 26 45 3 Y 1 B LYS 27 ? B LYS 27 46 3 Y 1 B LYS 28 ? B LYS 28 47 3 Y 1 B LYS 29 ? B LYS 29 48 3 Y 1 B ASP 30 ? B ASP 30 49 3 Y 1 C GLY 25 ? C GLY 25 50 3 Y 1 C LYS 26 ? C LYS 26 51 3 Y 1 C LYS 27 ? C LYS 27 52 3 Y 1 C LYS 28 ? C LYS 28 53 3 Y 1 C LYS 29 ? C LYS 29 54 3 Y 1 C ASP 30 ? C ASP 30 55 4 Y 1 A GLY 25 ? A GLY 25 56 4 Y 1 A LYS 26 ? A LYS 26 57 4 Y 1 A LYS 27 ? A LYS 27 58 4 Y 1 A LYS 28 ? A LYS 28 59 4 Y 1 A LYS 29 ? A LYS 29 60 4 Y 1 A ASP 30 ? A ASP 30 61 4 Y 1 B GLY 25 ? B GLY 25 62 4 Y 1 B LYS 26 ? B LYS 26 63 4 Y 1 B LYS 27 ? B LYS 27 64 4 Y 1 B LYS 28 ? B LYS 28 65 4 Y 1 B LYS 29 ? B LYS 29 66 4 Y 1 B ASP 30 ? B ASP 30 67 4 Y 1 C GLY 25 ? C GLY 25 68 4 Y 1 C LYS 26 ? C LYS 26 69 4 Y 1 C LYS 27 ? C LYS 27 70 4 Y 1 C LYS 28 ? C LYS 28 71 4 Y 1 C LYS 29 ? C LYS 29 72 4 Y 1 C ASP 30 ? C ASP 30 73 5 Y 1 A GLY 25 ? A GLY 25 74 5 Y 1 A LYS 26 ? A LYS 26 75 5 Y 1 A LYS 27 ? A LYS 27 76 5 Y 1 A LYS 28 ? A LYS 28 77 5 Y 1 A LYS 29 ? A LYS 29 78 5 Y 1 A ASP 30 ? A ASP 30 79 5 Y 1 B GLY 25 ? B GLY 25 80 5 Y 1 B LYS 26 ? B LYS 26 81 5 Y 1 B LYS 27 ? B LYS 27 82 5 Y 1 B LYS 28 ? B LYS 28 83 5 Y 1 B LYS 29 ? B LYS 29 84 5 Y 1 B ASP 30 ? B ASP 30 85 5 Y 1 C GLY 25 ? C GLY 25 86 5 Y 1 C LYS 26 ? C LYS 26 87 5 Y 1 C LYS 27 ? C LYS 27 88 5 Y 1 C LYS 28 ? C LYS 28 89 5 Y 1 C LYS 29 ? C LYS 29 90 5 Y 1 C ASP 30 ? C ASP 30 91 6 Y 1 A GLY 25 ? A GLY 25 92 6 Y 1 A LYS 26 ? A LYS 26 93 6 Y 1 A LYS 27 ? A LYS 27 94 6 Y 1 A LYS 28 ? A LYS 28 95 6 Y 1 A LYS 29 ? A LYS 29 96 6 Y 1 A ASP 30 ? A ASP 30 97 6 Y 1 B GLY 25 ? B GLY 25 98 6 Y 1 B LYS 26 ? B LYS 26 99 6 Y 1 B LYS 27 ? B LYS 27 100 6 Y 1 B LYS 28 ? B LYS 28 101 6 Y 1 B LYS 29 ? B LYS 29 102 6 Y 1 B ASP 30 ? B ASP 30 103 6 Y 1 C GLY 25 ? C GLY 25 104 6 Y 1 C LYS 26 ? C LYS 26 105 6 Y 1 C LYS 27 ? C LYS 27 106 6 Y 1 C LYS 28 ? C LYS 28 107 6 Y 1 C LYS 29 ? C LYS 29 108 6 Y 1 C ASP 30 ? C ASP 30 109 7 Y 1 A GLY 25 ? A GLY 25 110 7 Y 1 A LYS 26 ? A LYS 26 111 7 Y 1 A LYS 27 ? A LYS 27 112 7 Y 1 A LYS 28 ? A LYS 28 113 7 Y 1 A LYS 29 ? A LYS 29 114 7 Y 1 A ASP 30 ? A ASP 30 115 7 Y 1 B GLY 25 ? B GLY 25 116 7 Y 1 B LYS 26 ? B LYS 26 117 7 Y 1 B LYS 27 ? B LYS 27 118 7 Y 1 B LYS 28 ? B LYS 28 119 7 Y 1 B LYS 29 ? B LYS 29 120 7 Y 1 B ASP 30 ? B ASP 30 121 7 Y 1 C GLY 25 ? C GLY 25 122 7 Y 1 C LYS 26 ? C LYS 26 123 7 Y 1 C LYS 27 ? C LYS 27 124 7 Y 1 C LYS 28 ? C LYS 28 125 7 Y 1 C LYS 29 ? C LYS 29 126 7 Y 1 C ASP 30 ? C ASP 30 127 8 Y 1 A GLY 25 ? A GLY 25 128 8 Y 1 A LYS 26 ? A LYS 26 129 8 Y 1 A LYS 27 ? A LYS 27 130 8 Y 1 A LYS 28 ? A LYS 28 131 8 Y 1 A LYS 29 ? A LYS 29 132 8 Y 1 A ASP 30 ? A ASP 30 133 8 Y 1 B GLY 25 ? B GLY 25 134 8 Y 1 B LYS 26 ? B LYS 26 135 8 Y 1 B LYS 27 ? B LYS 27 136 8 Y 1 B LYS 28 ? B LYS 28 137 8 Y 1 B LYS 29 ? B LYS 29 138 8 Y 1 B ASP 30 ? B ASP 30 139 8 Y 1 C GLY 25 ? C GLY 25 140 8 Y 1 C LYS 26 ? C LYS 26 141 8 Y 1 C LYS 27 ? C LYS 27 142 8 Y 1 C LYS 28 ? C LYS 28 143 8 Y 1 C LYS 29 ? C LYS 29 144 8 Y 1 C ASP 30 ? C ASP 30 145 9 Y 1 A GLY 25 ? A GLY 25 146 9 Y 1 A LYS 26 ? A LYS 26 147 9 Y 1 A LYS 27 ? A LYS 27 148 9 Y 1 A LYS 28 ? A LYS 28 149 9 Y 1 A LYS 29 ? A LYS 29 150 9 Y 1 A ASP 30 ? A ASP 30 151 9 Y 1 B GLY 25 ? B GLY 25 152 9 Y 1 B LYS 26 ? B LYS 26 153 9 Y 1 B LYS 27 ? B LYS 27 154 9 Y 1 B LYS 28 ? B LYS 28 155 9 Y 1 B LYS 29 ? B LYS 29 156 9 Y 1 B ASP 30 ? B ASP 30 157 9 Y 1 C GLY 25 ? C GLY 25 158 9 Y 1 C LYS 26 ? C LYS 26 159 9 Y 1 C LYS 27 ? C LYS 27 160 9 Y 1 C LYS 28 ? C LYS 28 161 9 Y 1 C LYS 29 ? C LYS 29 162 9 Y 1 C ASP 30 ? C ASP 30 163 10 Y 1 A GLY 25 ? A GLY 25 164 10 Y 1 A LYS 26 ? A LYS 26 165 10 Y 1 A LYS 27 ? A LYS 27 166 10 Y 1 A LYS 28 ? A LYS 28 167 10 Y 1 A LYS 29 ? A LYS 29 168 10 Y 1 A ASP 30 ? A ASP 30 169 10 Y 1 B GLY 25 ? B GLY 25 170 10 Y 1 B LYS 26 ? B LYS 26 171 10 Y 1 B LYS 27 ? B LYS 27 172 10 Y 1 B LYS 28 ? B LYS 28 173 10 Y 1 B LYS 29 ? B LYS 29 174 10 Y 1 B ASP 30 ? B ASP 30 175 10 Y 1 C GLY 25 ? C GLY 25 176 10 Y 1 C LYS 26 ? C LYS 26 177 10 Y 1 C LYS 27 ? C LYS 27 178 10 Y 1 C LYS 28 ? C LYS 28 179 10 Y 1 C LYS 29 ? C LYS 29 180 10 Y 1 C ASP 30 ? C ASP 30 181 11 Y 1 A GLY 25 ? A GLY 25 182 11 Y 1 A LYS 26 ? A LYS 26 183 11 Y 1 A LYS 27 ? A LYS 27 184 11 Y 1 A LYS 28 ? A LYS 28 185 11 Y 1 A LYS 29 ? A LYS 29 186 11 Y 1 A ASP 30 ? A ASP 30 187 11 Y 1 B GLY 25 ? B GLY 25 188 11 Y 1 B LYS 26 ? B LYS 26 189 11 Y 1 B LYS 27 ? B LYS 27 190 11 Y 1 B LYS 28 ? B LYS 28 191 11 Y 1 B LYS 29 ? B LYS 29 192 11 Y 1 B ASP 30 ? B ASP 30 193 11 Y 1 C GLY 25 ? C GLY 25 194 11 Y 1 C LYS 26 ? C LYS 26 195 11 Y 1 C LYS 27 ? C LYS 27 196 11 Y 1 C LYS 28 ? C LYS 28 197 11 Y 1 C LYS 29 ? C LYS 29 198 11 Y 1 C ASP 30 ? C ASP 30 199 12 Y 1 A GLY 25 ? A GLY 25 200 12 Y 1 A LYS 26 ? A LYS 26 201 12 Y 1 A LYS 27 ? A LYS 27 202 12 Y 1 A LYS 28 ? A LYS 28 203 12 Y 1 A LYS 29 ? A LYS 29 204 12 Y 1 A ASP 30 ? A ASP 30 205 12 Y 1 B GLY 25 ? B GLY 25 206 12 Y 1 B LYS 26 ? B LYS 26 207 12 Y 1 B LYS 27 ? B LYS 27 208 12 Y 1 B LYS 28 ? B LYS 28 209 12 Y 1 B LYS 29 ? B LYS 29 210 12 Y 1 B ASP 30 ? B ASP 30 211 12 Y 1 C GLY 25 ? C GLY 25 212 12 Y 1 C LYS 26 ? C LYS 26 213 12 Y 1 C LYS 27 ? C LYS 27 214 12 Y 1 C LYS 28 ? C LYS 28 215 12 Y 1 C LYS 29 ? C LYS 29 216 12 Y 1 C ASP 30 ? C ASP 30 217 13 Y 1 A GLY 25 ? A GLY 25 218 13 Y 1 A LYS 26 ? A LYS 26 219 13 Y 1 A LYS 27 ? A LYS 27 220 13 Y 1 A LYS 28 ? A LYS 28 221 13 Y 1 A LYS 29 ? A LYS 29 222 13 Y 1 A ASP 30 ? A ASP 30 223 13 Y 1 B GLY 25 ? B GLY 25 224 13 Y 1 B LYS 26 ? B LYS 26 225 13 Y 1 B LYS 27 ? B LYS 27 226 13 Y 1 B LYS 28 ? B LYS 28 227 13 Y 1 B LYS 29 ? B LYS 29 228 13 Y 1 B ASP 30 ? B ASP 30 229 13 Y 1 C GLY 25 ? C GLY 25 230 13 Y 1 C LYS 26 ? C LYS 26 231 13 Y 1 C LYS 27 ? C LYS 27 232 13 Y 1 C LYS 28 ? C LYS 28 233 13 Y 1 C LYS 29 ? C LYS 29 234 13 Y 1 C ASP 30 ? C ASP 30 235 14 Y 1 A GLY 25 ? A GLY 25 236 14 Y 1 A LYS 26 ? A LYS 26 237 14 Y 1 A LYS 27 ? A LYS 27 238 14 Y 1 A LYS 28 ? A LYS 28 239 14 Y 1 A LYS 29 ? A LYS 29 240 14 Y 1 A ASP 30 ? A ASP 30 241 14 Y 1 B GLY 25 ? B GLY 25 242 14 Y 1 B LYS 26 ? B LYS 26 243 14 Y 1 B LYS 27 ? B LYS 27 244 14 Y 1 B LYS 28 ? B LYS 28 245 14 Y 1 B LYS 29 ? B LYS 29 246 14 Y 1 B ASP 30 ? B ASP 30 247 14 Y 1 C GLY 25 ? C GLY 25 248 14 Y 1 C LYS 26 ? C LYS 26 249 14 Y 1 C LYS 27 ? C LYS 27 250 14 Y 1 C LYS 28 ? C LYS 28 251 14 Y 1 C LYS 29 ? C LYS 29 252 14 Y 1 C ASP 30 ? C ASP 30 253 15 Y 1 A GLY 25 ? A GLY 25 254 15 Y 1 A LYS 26 ? A LYS 26 255 15 Y 1 A LYS 27 ? A LYS 27 256 15 Y 1 A LYS 28 ? A LYS 28 257 15 Y 1 A LYS 29 ? A LYS 29 258 15 Y 1 A ASP 30 ? A ASP 30 259 15 Y 1 B GLY 25 ? B GLY 25 260 15 Y 1 B LYS 26 ? B LYS 26 261 15 Y 1 B LYS 27 ? B LYS 27 262 15 Y 1 B LYS 28 ? B LYS 28 263 15 Y 1 B LYS 29 ? B LYS 29 264 15 Y 1 B ASP 30 ? B ASP 30 265 15 Y 1 C GLY 25 ? C GLY 25 266 15 Y 1 C LYS 26 ? C LYS 26 267 15 Y 1 C LYS 27 ? C LYS 27 268 15 Y 1 C LYS 28 ? C LYS 28 269 15 Y 1 C LYS 29 ? C LYS 29 270 15 Y 1 C ASP 30 ? C ASP 30 271 16 Y 1 A GLY 25 ? A GLY 25 272 16 Y 1 A LYS 26 ? A LYS 26 273 16 Y 1 A LYS 27 ? A LYS 27 274 16 Y 1 A LYS 28 ? A LYS 28 275 16 Y 1 A LYS 29 ? A LYS 29 276 16 Y 1 A ASP 30 ? A ASP 30 277 16 Y 1 B GLY 25 ? B GLY 25 278 16 Y 1 B LYS 26 ? B LYS 26 279 16 Y 1 B LYS 27 ? B LYS 27 280 16 Y 1 B LYS 28 ? B LYS 28 281 16 Y 1 B LYS 29 ? B LYS 29 282 16 Y 1 B ASP 30 ? B ASP 30 283 16 Y 1 C GLY 25 ? C GLY 25 284 16 Y 1 C LYS 26 ? C LYS 26 285 16 Y 1 C LYS 27 ? C LYS 27 286 16 Y 1 C LYS 28 ? C LYS 28 287 16 Y 1 C LYS 29 ? C LYS 29 288 16 Y 1 C ASP 30 ? C ASP 30 289 17 Y 1 A GLY 25 ? A GLY 25 290 17 Y 1 A LYS 26 ? A LYS 26 291 17 Y 1 A LYS 27 ? A LYS 27 292 17 Y 1 A LYS 28 ? A LYS 28 293 17 Y 1 A LYS 29 ? A LYS 29 294 17 Y 1 A ASP 30 ? A ASP 30 295 17 Y 1 B GLY 25 ? B GLY 25 296 17 Y 1 B LYS 26 ? B LYS 26 297 17 Y 1 B LYS 27 ? B LYS 27 298 17 Y 1 B LYS 28 ? B LYS 28 299 17 Y 1 B LYS 29 ? B LYS 29 300 17 Y 1 B ASP 30 ? B ASP 30 301 17 Y 1 C GLY 25 ? C GLY 25 302 17 Y 1 C LYS 26 ? C LYS 26 303 17 Y 1 C LYS 27 ? C LYS 27 304 17 Y 1 C LYS 28 ? C LYS 28 305 17 Y 1 C LYS 29 ? C LYS 29 306 17 Y 1 C ASP 30 ? C ASP 30 307 18 Y 1 A GLY 25 ? A GLY 25 308 18 Y 1 A LYS 26 ? A LYS 26 309 18 Y 1 A LYS 27 ? A LYS 27 310 18 Y 1 A LYS 28 ? A LYS 28 311 18 Y 1 A LYS 29 ? A LYS 29 312 18 Y 1 A ASP 30 ? A ASP 30 313 18 Y 1 B GLY 25 ? B GLY 25 314 18 Y 1 B LYS 26 ? B LYS 26 315 18 Y 1 B LYS 27 ? B LYS 27 316 18 Y 1 B LYS 28 ? B LYS 28 317 18 Y 1 B LYS 29 ? B LYS 29 318 18 Y 1 B ASP 30 ? B ASP 30 319 18 Y 1 C GLY 25 ? C GLY 25 320 18 Y 1 C LYS 26 ? C LYS 26 321 18 Y 1 C LYS 27 ? C LYS 27 322 18 Y 1 C LYS 28 ? C LYS 28 323 18 Y 1 C LYS 29 ? C LYS 29 324 18 Y 1 C ASP 30 ? C ASP 30 325 19 Y 1 A GLY 25 ? A GLY 25 326 19 Y 1 A LYS 26 ? A LYS 26 327 19 Y 1 A LYS 27 ? A LYS 27 328 19 Y 1 A LYS 28 ? A LYS 28 329 19 Y 1 A LYS 29 ? A LYS 29 330 19 Y 1 A ASP 30 ? A ASP 30 331 19 Y 1 B GLY 25 ? B GLY 25 332 19 Y 1 B LYS 26 ? B LYS 26 333 19 Y 1 B LYS 27 ? B LYS 27 334 19 Y 1 B LYS 28 ? B LYS 28 335 19 Y 1 B LYS 29 ? B LYS 29 336 19 Y 1 B ASP 30 ? B ASP 30 337 19 Y 1 C GLY 25 ? C GLY 25 338 19 Y 1 C LYS 26 ? C LYS 26 339 19 Y 1 C LYS 27 ? C LYS 27 340 19 Y 1 C LYS 28 ? C LYS 28 341 19 Y 1 C LYS 29 ? C LYS 29 342 19 Y 1 C ASP 30 ? C ASP 30 343 20 Y 1 A GLY 25 ? A GLY 25 344 20 Y 1 A LYS 26 ? A LYS 26 345 20 Y 1 A LYS 27 ? A LYS 27 346 20 Y 1 A LYS 28 ? A LYS 28 347 20 Y 1 A LYS 29 ? A LYS 29 348 20 Y 1 A ASP 30 ? A ASP 30 349 20 Y 1 B GLY 25 ? B GLY 25 350 20 Y 1 B LYS 26 ? B LYS 26 351 20 Y 1 B LYS 27 ? B LYS 27 352 20 Y 1 B LYS 28 ? B LYS 28 353 20 Y 1 B LYS 29 ? B LYS 29 354 20 Y 1 B ASP 30 ? B ASP 30 355 20 Y 1 C GLY 25 ? C GLY 25 356 20 Y 1 C LYS 26 ? C LYS 26 357 20 Y 1 C LYS 27 ? C LYS 27 358 20 Y 1 C LYS 28 ? C LYS 28 359 20 Y 1 C LYS 29 ? C LYS 29 360 20 Y 1 C ASP 30 ? C ASP 30 #