data_SMR-1f04342d935afd064e957420bca4ec0b_1
_entry.id SMR-1f04342d935afd064e957420bca4ec0b_1
_struct.entry_id SMR-1f04342d935afd064e957420bca4ec0b_1
_struct.pdbx_model_details
;This model was generated unsupervised by the SWISS-MODEL homology-modelling pipeline for the SWISS-MODEL Repository, a database of annotated 3D protein structure models. The modelled monomer covers following UniProtKB entries:

  - P84795/ CEKI_PAUEC, Proteinase inhibitor CeKI

Estimated model accuracy of this model is 0.516, calculated by SWISS-MODEL as Global Model Quality Estimate (GMQE).
;
_struct.pdbx_structure_determination_methodology computational
_struct.title 'Model for UniProtKB entries P84795'
_audit_conform.dict_location https://raw.githubusercontent.com/ihmwg/ModelCIF/80e1e22/dist/mmcif_ma.dic
_audit_conform.dict_name mmcif_ma.dic
_audit_conform.dict_version 1.4.7
#
loop_
_citation.id
_citation.title
_citation.journal_abbrev
_citation.journal_volume
_citation.page_first
_citation.page_last
_citation.year
_citation.pdbx_database_id_PubMed
_citation.pdbx_database_id_DOI
primary 'The SWISS-MODEL Repository - new features and functionality'
'Nucleic Acids Res.' 45 D313 D319 2017 27899672 10.1093/nar/gkw1132
2 'SWISS-MODEL: homology modelling of protein structures and complexes'
'Nucleic Acids Res.' 46 W296 W303 2018 29788355 10.1093/nar/gky427
3 'ProMod3 - A versatile homology modelling toolbox' 'PLoS Comput. Biol.' 17(1)
1 18 2021 33507980 10.1371/journal.pcbi.1008667
4 'QMEANDisCo - distance constraints applied on model quality estimation'
Bioinformatics 36 1765 1771 2020 31697312 10.1093/bioinformatics/btz828
5
'OpenStructure: an integrated software framework for computational structural biology'
'Acta Crystallogr., Sect. D: Biol. Crystallogr.' 69 701 709 2013 23633579
10.1107/S0907444913007051
6 'BLAST+: architecture and applications' 'BMC Bioinf.' 10 421 . 2009 20003500
10.1186/1471-2105-10-421
7 'HH-suite3 for fast remote homology detection and deep protein annotation'
'BMC Bioinf.' 20 473 . 2019 31521110 10.1186/s12859-019-3019-7
#
#
loop_
_citation_author.citation_id
_citation_author.name
_citation_author.ordinal
primary 'Bienert, S.' 1
primary 'Waterhouse, A.' 2
primary 'de Beer, T.A.P.' 3
primary 'Tauriello, G.' 4
primary 'Studer, G.' 5
primary 'Bordoli, L.' 6
primary 'Schwede, T.' 7
2 'Waterhouse, A.' 8
2 'Bertoni, M.' 9
2 'Bienert, S.' 10
2 'Studer, G.' 11
2 'Tauriello, G.' 12
2 'Gumienny, R.' 13
2 'Heer, F.T.' 14
2 'de Beer, T.A.P.' 15
2 'Rempfer, C.' 16
2 'Bordoli, L.' 17
2 'Lepore, R.' 18
2 'Schwede, T.' 19
3 'Studer, G.' 20
3 'Tauriello, G.' 21
3 'Bienert, S.' 22
3 'Biasini, M.' 23
3 'Johner, N.' 24
3 'Schwede, T.' 25
4 'Studer, G.' 26
4 'Rempfer, C.' 27
4 'Waterhouse, A.M.' 28
4 'Gumienny, R.' 29
4 'Haas, J.' 30
4 'Schwede, T.' 31
5 'Biasini, M.' 32
5 'Schmidt, T.' 33
5 'Bienert, S.' 34
5 'Mariani, V.' 35
5 'Studer, G.' 36
5 'Haas, J.' 37
5 'Johner, N.' 38
5 'Schenk, A.D.' 39
5 'Philippsen, A.' 40
5 'Schwede, T.' 41
6 'Camacho, C.' 42
6 'Coulouris, G.' 43
6 'Avagyan, V.' 44
6 'Ma, N.' 45
6 'Papadopoulos, J.' 46
6 'Bealer, K.' 47
6 'Madden, T.L.' 48
7 'Steinegger, M.' 49
7 'Meier, M.' 50
7 'Mirdita, M.' 51
7 'Vohringer, H.' 52
7 'Haunsberger, S.J.' 53
7 'Soding, J.' 54
#
#
loop_
_software.pdbx_ordinal
_software.name
_software.classification
_software.description
_software.version
_software.type
_software.location
_software.citation_id
1 SWISS-MODEL 'model building' 'Homology modelling web service' 2025-06.3
package https://swissmodel.expasy.org 2
2 ProMod3 'model building' 'Modular homology modelling engine' 3.5.0 library
https://git.scicore.unibas.ch/schwede/ProMod3 3
3 QMEAN 'model building' 'QMEAN - Qualitative Model Energy ANalysis' 4.4.0
library https://git.scicore.unibas.ch/schwede/QMEAN 4
4 OpenStructure 'data processing'
'Open-Source Computational Structural Biology Framework' 2.10.0 package
https://openstructure.org/ 5
5 BLAST 'data collection' . 2.14.1 package https://blast.ncbi.nlm.nih.gov 6
6 HH-suite 'data collection' 'HH-suite3 for sensitive sequence searching' 3.2.0
package https://github.com/soedinglab/hh-suite 7
#
#
loop_
_ma_software_group.ordinal_id
_ma_software_group.group_id
_ma_software_group.software_id
_ma_software_group.parameter_group_id
1 1 6 .
2 2 1 .
3 2 4 .
4 2 5 .
5 2 6 .
6 3 1 .
7 3 4 .
8 4 1 .
9 4 2 .
10 4 4 .
11 5 3 .
12 6 1 .
13 6 3 .
14 6 4 .
#
#
loop_
_audit_author.name
_audit_author.pdbx_ordinal
'Bienert, S.' 1
'Waterhouse, A.' 2
'de Beer, T.A.P.' 3
'Tauriello, G.' 4
'Studer, G.' 5
'Bordoli, L.' 6
'Schwede, T.' 7
#
#
loop_
_chem_comp.id
_chem_comp.type
_chem_comp.name
_chem_comp.formula
_chem_comp.formula_weight
_chem_comp.ma_provenance
ALA 'L-peptide linking' ALANINE 'C3 H7 N O2' 89.094 'CCD Core'
ARG 'L-peptide linking' ARGININE 'C6 H15 N4 O2 1' 175.212 'CCD Core'
ASN 'L-peptide linking' ASPARAGINE 'C4 H8 N2 O3' 132.119 'CCD Core'
ASP 'L-peptide linking' 'ASPARTIC ACID' 'C4 H7 N O4' 133.103 'CCD Core'
CYS 'L-peptide linking' CYSTEINE 'C3 H7 N O2 S' 121.154 'CCD Core'
GLN 'L-peptide linking' GLUTAMINE 'C5 H10 N2 O3' 146.146 'CCD Core'
GLU 'L-peptide linking' 'GLUTAMIC ACID' 'C5 H9 N O4' 147.130 'CCD Core'
GLY 'peptide linking' GLYCINE 'C2 H5 N O2' 75.067 'CCD Core'
HIS 'L-peptide linking' HISTIDINE 'C6 H10 N3 O2 1' 156.165 'CCD Core'
ILE 'L-peptide linking' ISOLEUCINE 'C6 H13 N O2' 131.175 'CCD Core'
LEU 'L-peptide linking' LEUCINE 'C6 H13 N O2' 131.175 'CCD Core'
LYS 'L-peptide linking' LYSINE 'C6 H15 N2 O2 1' 147.198 'CCD Core'
MET 'L-peptide linking' METHIONINE 'C5 H11 N O2 S' 149.208 'CCD Core'
PHE 'L-peptide linking' PHENYLALANINE 'C9 H11 N O2' 165.192 'CCD Core'
PRO 'L-peptide linking' PROLINE 'C5 H9 N O2' 115.132 'CCD Core'
SER 'L-peptide linking' SERINE 'C3 H7 N O3' 105.093 'CCD Core'
THR 'L-peptide linking' THREONINE 'C4 H9 N O3' 119.120 'CCD Core'
TRP 'L-peptide linking' TRYPTOPHAN 'C11 H12 N2 O2' 204.229 'CCD Core'
TYR 'L-peptide linking' TYROSINE 'C9 H11 N O3' 181.191 'CCD Core'
VAL 'L-peptide linking' VALINE 'C5 H11 N O2' 117.148 'CCD Core'
#
#
loop_
_entity.id
_entity.type
_entity.src_method
_entity.pdbx_description
_entity.formula_weight
_entity.pdbx_number_of_molecules
_entity.details
1 polymer man . 3771.187 1 .
#
#
loop_
_struct_ref.id
_struct_ref.entity_id
_struct_ref.db_name
_struct_ref.db_code
_struct_ref.pdbx_db_accession
_struct_ref.pdbx_align_begin
_struct_ref.pdbx_seq_one_letter_code
_struct_ref.details
1 1 UNP CEKI_PAUEC P84795 1 FVVETENQLMSQGGRYYILPVIYGKGGGLG
'Proteinase inhibitor CeKI'
#
#
loop_
_struct_ref_seq.align_id
_struct_ref_seq.ref_id
_struct_ref_seq.seq_align_beg
_struct_ref_seq.seq_align_end
_struct_ref_seq.db_align_beg
_struct_ref_seq.db_align_end
1 1 1 30 1 30
#
#
loop_
_ma_target_ref_db_details.target_entity_id
_ma_target_ref_db_details.db_name
_ma_target_ref_db_details.db_name_other_details
_ma_target_ref_db_details.db_code
_ma_target_ref_db_details.db_accession
_ma_target_ref_db_details.seq_db_isoform
_ma_target_ref_db_details.seq_db_align_begin
_ma_target_ref_db_details.seq_db_align_end
_ma_target_ref_db_details.ncbi_taxonomy_id
_ma_target_ref_db_details.organism_scientific
_ma_target_ref_db_details.seq_db_sequence_version_date
_ma_target_ref_db_details.seq_db_sequence_checksum
_ma_target_ref_db_details.is_primary
1 UNP . CEKI_PAUEC P84795 . 1 30 372551
'Paubrasilia echinata (Pau Brasil) (Caesalpinia echinata)' 2006-04-18
05FC14AC755F69FB .
#
#
loop_
_entity_poly.entity_id
_entity_poly.type
_entity_poly.nstd_linkage
_entity_poly.nstd_monomer
_entity_poly.pdbx_strand_id
_entity_poly.pdbx_seq_one_letter_code
_entity_poly.pdbx_seq_one_letter_code_can
1 polypeptide(L) no no B FVVETENQLMSQGGRYYILPVIYGKGGGLG
FVVETENQLMSQGGRYYILPVIYGKGGGLG
#
#
loop_
_entity_poly_seq.entity_id
_entity_poly_seq.num
_entity_poly_seq.mon_id
_entity_poly_seq.hetero
1 1 PHE .
1 2 VAL .
1 3 VAL .
1 4 GLU .
1 5 THR .
1 6 GLU .
1 7 ASN .
1 8 GLN .
1 9 LEU .
1 10 MET .
1 11 SER .
1 12 GLN .
1 13 GLY .
1 14 GLY .
1 15 ARG .
1 16 TYR .
1 17 TYR .
1 18 ILE .
1 19 LEU .
1 20 PRO .
1 21 VAL .
1 22 ILE .
1 23 TYR .
1 24 GLY .
1 25 LYS .
1 26 GLY .
1 27 GLY .
1 28 GLY .
1 29 LEU .
1 30 GLY .
#
#
loop_
_struct_asym.id
_struct_asym.entity_id
_struct_asym.details
A 1 .
#
#
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.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
A 1 1 PHE 1 1 PHE PHE B .
A 1 2 VAL 2 2 VAL VAL B .
A 1 3 VAL 3 3 VAL VAL B .
A 1 4 GLU 4 4 GLU GLU B .
A 1 5 THR 5 5 THR THR B .
A 1 6 GLU 6 6 GLU GLU B .
A 1 7 ASN 7 7 ASN ASN B .
A 1 8 GLN 8 8 GLN GLN B .
A 1 9 LEU 9 9 LEU LEU B .
A 1 10 MET 10 10 MET MET B .
A 1 11 SER 11 11 SER SER B .
A 1 12 GLN 12 12 GLN GLN B .
A 1 13 GLY 13 13 GLY GLY B .
A 1 14 GLY 14 14 GLY GLY B .
A 1 15 ARG 15 15 ARG ARG B .
A 1 16 TYR 16 16 TYR TYR B .
A 1 17 TYR 17 17 TYR TYR B .
A 1 18 ILE 18 18 ILE ILE B .
A 1 19 LEU 19 19 LEU LEU B .
A 1 20 PRO 20 20 PRO PRO B .
A 1 21 VAL 21 21 VAL VAL B .
A 1 22 ILE 22 22 ILE ILE B .
A 1 23 TYR 23 23 TYR TYR B .
A 1 24 GLY 24 24 GLY GLY B .
A 1 25 LYS 25 25 LYS LYS B .
A 1 26 GLY 26 26 GLY GLY B .
A 1 27 GLY 27 27 GLY GLY B .
A 1 28 GLY 28 28 GLY GLY B .
A 1 29 LEU 29 29 LEU LEU B .
A 1 30 GLY 30 ? ? ? B .
#
#
loop_
_ma_data.id
_ma_data.name
_ma_data.content_type
_ma_data.content_type_other_details
1
'Trypsin inhibitor {PDB ID=4j2k, label_asym_id=B, auth_asym_id=B, SMTL ID=4j2k.3.B}'
'template structure' .
2 . target .
3 'Target-template alignment by HHblits to 4j2k, label_asym_id=B'
'target-template alignment' .
4 'model 1' 'model coordinates' .
5 SMTL 'reference database' .
6 PDB 'reference database' .
7 'Template search output' other 'Results of the sequence search'
#
#
loop_
_ma_data_group.ordinal_id
_ma_data_group.group_id
_ma_data_group.data_id
1 1 2
2 1 5
3 1 6
4 2 7
5 3 2
6 3 1
7 3 3
8 4 1
9 4 3
10 5 4
#
#
loop_
_ma_data_ref_db.data_id
_ma_data_ref_db.name
_ma_data_ref_db.location_url
_ma_data_ref_db.version
_ma_data_ref_db.release_date
5 SMTL https://swissmodel.expasy.org/templates/ . 2025-06-25
6 PDB https://www.wwpdb.org . 2025-06-20
#
#
loop_
_ma_target_entity.entity_id
_ma_target_entity.data_id
_ma_target_entity.origin
1 2 'reference database'
#
#
loop_
_ma_target_entity_instance.asym_id
_ma_target_entity_instance.entity_id
_ma_target_entity_instance.details
A 1 .
#
#
loop_
_ma_template_trans_matrix.id
_ma_template_trans_matrix.rot_matrix[1][1]
_ma_template_trans_matrix.rot_matrix[2][1]
_ma_template_trans_matrix.rot_matrix[3][1]
_ma_template_trans_matrix.rot_matrix[1][2]
_ma_template_trans_matrix.rot_matrix[2][2]
_ma_template_trans_matrix.rot_matrix[3][2]
_ma_template_trans_matrix.rot_matrix[1][3]
_ma_template_trans_matrix.rot_matrix[2][3]
_ma_template_trans_matrix.rot_matrix[3][3]
_ma_template_trans_matrix.tr_vector[1]
_ma_template_trans_matrix.tr_vector[2]
_ma_template_trans_matrix.tr_vector[3]
1 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000
1.000000 0 0 0
#
#
loop_
_ma_template_details.ordinal_id
_ma_template_details.template_id
_ma_template_details.template_origin
_ma_template_details.template_entity_type
_ma_template_details.template_trans_matrix_id
_ma_template_details.template_data_id
_ma_template_details.target_asym_id
_ma_template_details.template_label_asym_id
_ma_template_details.template_label_entity_id
_ma_template_details.template_model_num
_ma_template_details.template_auth_asym_id
1 1 'reference database' polymer 1 1 A B 1 1 B
#
#
loop_
_ma_template_poly.template_id
_ma_template_poly.seq_one_letter_code
_ma_template_poly.seq_one_letter_code_can
1
;KELLDSDGDILRNGGTYYILPALRGKGGGLELAKTGDETCPLNVVQARSETKRGRPAIIWTPPRIAILTP
AFYLNIEFQTRDLPACLEEYSRLPWKVEGESQEVKIAPKEEEQHLFGSFKIKPYRDDYKLVYCEGNSDDD
SCKDLGISIDDENNRLLVVKDGDPLAVRFVKAHRRG
;

;KELLDSDGDILRNGGTYYILPALRGKGGGLELAKTGDETCPLNVVQARSETKRGRPAIIWTPPRIAILTP
AFYLNIEFQTRDLPACLEEYSRLPWKVEGESQEVKIAPKEEEQHLFGSFKIKPYRDDYKLVYCEGNSDDD
SCKDLGISIDDENNRLLVVKDGDPLAVRFVKAHRRG
;

#
#
loop_
_ma_template_poly_segment.id
_ma_template_poly_segment.template_id
_ma_template_poly_segment.residue_number_begin
_ma_template_poly_segment.residue_number_end
1 1 2 30
#
#
loop_
_ma_template_ref_db_details.template_id
_ma_template_ref_db_details.db_name
_ma_template_ref_db_details.db_name_other_details
_ma_template_ref_db_details.db_accession_code
_ma_template_ref_db_details.db_version_date
1 PDB . 4j2k 2024-10-16
#
#
loop_
_ma_target_template_poly_mapping.id
_ma_target_template_poly_mapping.template_segment_id
_ma_target_template_poly_mapping.target_asym_id
_ma_target_template_poly_mapping.target_seq_id_begin
_ma_target_template_poly_mapping.target_seq_id_end
1 1 A 1 30
#
#
loop_
_ma_alignment_info.alignment_id
_ma_alignment_info.data_id
_ma_alignment_info.software_group_id
_ma_alignment_info.alignment_length
_ma_alignment_info.alignment_type
_ma_alignment_info.alignment_mode
1 3 1 30 'target-template pairwise alignment' local
#
#
loop_
_ma_alignment_details.ordinal_id
_ma_alignment_details.alignment_id
_ma_alignment_details.template_segment_id
_ma_alignment_details.target_asym_id
_ma_alignment_details.score_type
_ma_alignment_details.score_type_other_details
_ma_alignment_details.score_value
_ma_alignment_details.percent_sequence_identity
_ma_alignment_details.sequence_identity_denominator
_ma_alignment_details.sequence_identity_denominator_other_details
1 1 1 A 'HHblits e-value' . 1.3e-10 44.828
'Number of aligned residue pairs (not including the gaps)' .
#
#
loop_
_ma_alignment.ordinal_id
_ma_alignment.alignment_id
_ma_alignment.target_template_flag
_ma_alignment.sequence
1 1 1 FVVETENQLMSQGGRYYILPVIYGKGGGLG
2 1 2 ELLDSDGDILRNGGTYYILPALRGKGGGL-
#
#
loop_
_ma_protocol_step.ordinal_id
_ma_protocol_step.protocol_id
_ma_protocol_step.step_id
_ma_protocol_step.method_type
_ma_protocol_step.step_name
_ma_protocol_step.details
_ma_protocol_step.software_group_id
_ma_protocol_step.input_data_group_id
_ma_protocol_step.output_data_group_id
1 1 1 'template search' 'template search' 'SWISS-MODEL template search in PDB' 2
1 2
2 1 2 'template selection' 'template selection'
'Automatic template selection by SWISS-MODEL {QSQE=0.277}' 3 2 4
3 1 3 modeling 'homology modeling'
'SWISS-MODEL auto-model mode using ProMod3 on 4j2k.3, oligomeric state (monomer) as predicted'
4 3 5
#
#
loop_
_ma_model_list.ordinal_id
_ma_model_list.model_name
_ma_model_list.data_id
_ma_model_list.model_type
_ma_model_list.model_type_other_details
1 'model 1' 4 'Homology model' .
#
#
loop_
_ma_model_group.id
_ma_model_group.name
_ma_model_group.details
1 . .
#
#
loop_
_ma_model_group_link.group_id
_ma_model_group_link.model_id
1 1
#
#
loop_
_atom_site.group_PDB
_atom_site.id
_atom_site.type_symbol
_atom_site.label_atom_id
_atom_site.label_alt_id
_atom_site.label_comp_id
_atom_site.label_seq_id
_atom_site.auth_seq_id
_atom_site.pdbx_PDB_ins_code
_atom_site.label_asym_id
_atom_site.Cartn_x
_atom_site.Cartn_y
_atom_site.Cartn_z
_atom_site.occupancy
_atom_site.label_entity_id
_atom_site.auth_asym_id
_atom_site.auth_comp_id
_atom_site.B_iso_or_equiv
_atom_site.pdbx_PDB_model_num
ATOM 1 N N . PHE 1 1 ? A 18.329 24.518 -44.642 1 1 B PHE 0.630 1
ATOM 2 C CA . PHE 1 1 ? A 16.901 24.586 -44.159 1 1 B PHE 0.630 1
ATOM 3 C C . PHE 1 1 ? A 15.959 25.026 -45.254 1 1 B PHE 0.630 1
ATOM 4 O O . PHE 1 1 ? A 16.425 25.522 -46.273 1 1 B PHE 0.630 1
ATOM 5 C CB . PHE 1 1 ? A 16.771 25.630 -43.017 1 1 B PHE 0.630 1
ATOM 6 C CG . PHE 1 1 ? A 17.432 25.171 -41.754 1 1 B PHE 0.630 1
ATOM 7 C CD1 . PHE 1 1 ? A 16.829 24.181 -40.961 1 1 B PHE 0.630 1
ATOM 8 C CD2 . PHE 1 1 ? A 18.639 25.748 -41.326 1 1 B PHE 0.630 1
ATOM 9 C CE1 . PHE 1 1 ? A 17.432 23.759 -39.770 1 1 B PHE 0.630 1
ATOM 10 C CE2 . PHE 1 1 ? A 19.245 25.326 -40.137 1 1 B PHE 0.630 1
ATOM 11 C CZ . PHE 1 1 ? A 18.643 24.328 -39.361 1 1 B PHE 0.630 1
ATOM 12 N N . VAL 2 2 ? A 14.630 24.884 -45.062 1 1 B VAL 0.880 1
ATOM 13 C CA . VAL 2 2 ? A 13.636 25.444 -45.958 1 1 B VAL 0.880 1
ATOM 14 C C . VAL 2 2 ? A 13.333 26.836 -45.460 1 1 B VAL 0.880 1
ATOM 15 O O . VAL 2 2 ? A 12.813 27.000 -44.356 1 1 B VAL 0.880 1
ATOM 16 C CB . VAL 2 2 ? A 12.351 24.628 -45.957 1 1 B VAL 0.880 1
ATOM 17 C CG1 . VAL 2 2 ? A 11.327 25.267 -46.918 1 1 B VAL 0.880 1
ATOM 18 C CG2 . VAL 2 2 ? A 12.677 23.188 -46.400 1 1 B VAL 0.880 1
ATOM 19 N N . VAL 3 3 ? A 13.684 27.863 -46.246 1 1 B VAL 0.440 1
ATOM 20 C CA . VAL 3 3 ? A 13.570 29.251 -45.873 1 1 B VAL 0.440 1
ATOM 21 C C . VAL 3 3 ? A 12.672 29.933 -46.879 1 1 B VAL 0.440 1
ATOM 22 O O . VAL 3 3 ? A 12.648 29.573 -48.061 1 1 B VAL 0.440 1
ATOM 23 C CB . VAL 3 3 ? A 14.930 29.961 -45.784 1 1 B VAL 0.440 1
ATOM 24 C CG1 . VAL 3 3 ? A 15.782 29.298 -44.678 1 1 B VAL 0.440 1
ATOM 25 C CG2 . VAL 3 3 ? A 15.688 29.938 -47.132 1 1 B VAL 0.440 1
ATOM 26 N N . GLU 4 4 ? A 11.891 30.929 -46.435 1 1 B GLU 0.480 1
ATOM 27 C CA . GLU 4 4 ? A 11.232 31.886 -47.299 1 1 B GLU 0.480 1
ATOM 28 C C . GLU 4 4 ? A 12.213 32.987 -47.680 1 1 B GLU 0.480 1
ATOM 29 O O . GLU 4 4 ? A 13.374 32.997 -47.271 1 1 B GLU 0.480 1
ATOM 30 C CB . GLU 4 4 ? A 9.960 32.498 -46.655 1 1 B GLU 0.480 1
ATOM 31 C CG . GLU 4 4 ? A 10.239 33.423 -45.441 1 1 B GLU 0.480 1
ATOM 32 C CD . GLU 4 4 ? A 8.985 34.058 -44.844 1 1 B GLU 0.480 1
ATOM 33 O OE1 . GLU 4 4 ? A 7.943 34.111 -45.536 1 1 B GLU 0.480 1
ATOM 34 O OE2 . GLU 4 4 ? A 9.083 34.501 -43.675 1 1 B GLU 0.480 1
ATOM 35 N N . THR 5 5 ? A 11.761 33.961 -48.491 1 1 B THR 0.470 1
ATOM 36 C CA . THR 5 5 ? A 12.554 35.037 -49.070 1 1 B THR 0.470 1
ATOM 37 C C . THR 5 5 ? A 13.103 36.018 -48.041 1 1 B THR 0.470 1
ATOM 38 O O . THR 5 5 ? A 14.094 36.688 -48.303 1 1 B THR 0.470 1
ATOM 39 C CB . THR 5 5 ? A 11.750 35.805 -50.117 1 1 B THR 0.470 1
ATOM 40 O OG1 . THR 5 5 ? A 10.476 36.195 -49.637 1 1 B THR 0.470 1
ATOM 41 C CG2 . THR 5 5 ? A 11.416 34.872 -51.286 1 1 B THR 0.470 1
ATOM 42 N N . GLU 6 6 ? A 12.515 36.045 -46.821 1 1 B GLU 0.670 1
ATOM 43 C CA . GLU 6 6 ? A 12.944 36.870 -45.703 1 1 B GLU 0.670 1
ATOM 44 C C . GLU 6 6 ? A 13.955 36.174 -44.791 1 1 B GLU 0.670 1
ATOM 45 O O . GLU 6 6 ? A 14.365 36.699 -43.762 1 1 B GLU 0.670 1
ATOM 46 C CB . GLU 6 6 ? A 11.732 37.205 -44.788 1 1 B GLU 0.670 1
ATOM 47 C CG . GLU 6 6 ? A 10.596 37.992 -45.481 1 1 B GLU 0.670 1
ATOM 48 C CD . GLU 6 6 ? A 11.141 39.182 -46.260 1 1 B GLU 0.670 1
ATOM 49 O OE1 . GLU 6 6 ? A 10.942 39.212 -47.503 1 1 B GLU 0.670 1
ATOM 50 O OE2 . GLU 6 6 ? A 11.777 40.060 -45.620 1 1 B GLU 0.670 1
ATOM 51 N N . ASN 7 7 ? A 14.356 34.931 -45.144 1 1 B ASN 0.490 1
ATOM 52 C CA . ASN 7 7 ? A 15.335 34.107 -44.446 1 1 B ASN 0.490 1
ATOM 53 C C . ASN 7 7 ? A 14.738 33.395 -43.242 1 1 B ASN 0.490 1
ATOM 54 O O . ASN 7 7 ? A 15.453 32.805 -42.438 1 1 B ASN 0.490 1
ATOM 55 C CB . ASN 7 7 ? A 16.661 34.816 -44.032 1 1 B ASN 0.490 1
ATOM 56 C CG . ASN 7 7 ? A 17.312 35.430 -45.262 1 1 B ASN 0.490 1
ATOM 57 O OD1 . ASN 7 7 ? A 17.553 34.760 -46.253 1 1 B ASN 0.490 1
ATOM 58 N ND2 . ASN 7 7 ? A 17.630 36.747 -45.189 1 1 B ASN 0.490 1
ATOM 59 N N . GLN 8 8 ? A 13.398 33.390 -43.099 1 1 B GLN 0.470 1
ATOM 60 C CA . GLN 8 8 ? A 12.742 32.704 -42.007 1 1 B GLN 0.470 1
ATOM 61 C C . GLN 8 8 ? A 12.394 31.314 -42.452 1 1 B GLN 0.470 1
ATOM 62 O O . GLN 8 8 ? A 12.143 31.063 -43.628 1 1 B GLN 0.470 1
ATOM 63 C CB . GLN 8 8 ? A 11.466 33.439 -41.531 1 1 B GLN 0.470 1
ATOM 64 C CG . GLN 8 8 ? A 11.744 34.870 -41.016 1 1 B GLN 0.470 1
ATOM 65 C CD . GLN 8 8 ? A 12.664 34.825 -39.795 1 1 B GLN 0.470 1
ATOM 66 O OE1 . GLN 8 8 ? A 12.401 34.157 -38.806 1 1 B GLN 0.470 1
ATOM 67 N NE2 . GLN 8 8 ? A 13.807 35.554 -39.866 1 1 B GLN 0.470 1
ATOM 68 N N . LEU 9 9 ? A 12.411 30.345 -41.525 1 1 B LEU 0.460 1
ATOM 69 C CA . LEU 9 9 ? A 12.019 28.990 -41.830 1 1 B LEU 0.460 1
ATOM 70 C C . LEU 9 9 ? A 10.559 28.882 -42.230 1 1 B LEU 0.460 1
ATOM 71 O O . LEU 9 9 ? A 9.703 29.564 -41.662 1 1 B LEU 0.460 1
ATOM 72 C CB . LEU 9 9 ? A 12.297 28.041 -40.640 1 1 B LEU 0.460 1
ATOM 73 C CG . LEU 9 9 ? A 13.739 28.117 -40.093 1 1 B LEU 0.460 1
ATOM 74 C CD1 . LEU 9 9 ? A 13.896 27.225 -38.855 1 1 B LEU 0.460 1
ATOM 75 C CD2 . LEU 9 9 ? A 14.751 27.677 -41.151 1 1 B LEU 0.460 1
ATOM 76 N N . MET 10 10 ? A 10.227 28.024 -43.214 1 1 B MET 0.450 1
ATOM 77 C CA . MET 10 10 ? A 8.846 27.811 -43.612 1 1 B MET 0.450 1
ATOM 78 C C . MET 10 10 ? A 7.959 27.341 -42.468 1 1 B MET 0.450 1
ATOM 79 O O . MET 10 10 ? A 8.299 26.419 -41.716 1 1 B MET 0.450 1
ATOM 80 C CB . MET 10 10 ? A 8.740 26.802 -44.781 1 1 B MET 0.450 1
ATOM 81 C CG . MET 10 10 ? A 7.320 26.645 -45.368 1 1 B MET 0.450 1
ATOM 82 S SD . MET 10 10 ? A 7.177 25.428 -46.711 1 1 B MET 0.450 1
ATOM 83 C CE . MET 10 10 ? A 8.046 26.405 -47.971 1 1 B MET 0.450 1
ATOM 84 N N . SER 11 11 ? A 6.786 27.964 -42.297 1 1 B SER 0.430 1
ATOM 85 C CA . SER 11 11 ? A 5.863 27.615 -41.249 1 1 B SER 0.430 1
ATOM 86 C C . SER 11 11 ? A 4.955 26.506 -41.722 1 1 B SER 0.430 1
ATOM 87 O O . SER 11 11 ? A 4.473 26.472 -42.858 1 1 B SER 0.430 1
ATOM 88 C CB . SER 11 11 ? A 5.035 28.820 -40.710 1 1 B SER 0.430 1
ATOM 89 O OG . SER 11 11 ? A 4.220 29.425 -41.711 1 1 B SER 0.430 1
ATOM 90 N N . GLN 12 12 ? A 4.692 25.527 -40.843 1 1 B GLN 0.540 1
ATOM 91 C CA . GLN 12 12 ? A 3.687 24.515 -41.081 1 1 B GLN 0.540 1
ATOM 92 C C . GLN 12 12 ? A 2.292 25.129 -41.186 1 1 B GLN 0.540 1
ATOM 93 O O . GLN 12 12 ? A 1.796 25.746 -40.251 1 1 B GLN 0.540 1
ATOM 94 C CB . GLN 12 12 ? A 3.697 23.463 -39.942 1 1 B GLN 0.540 1
ATOM 95 C CG . GLN 12 12 ? A 2.680 22.305 -40.120 1 1 B GLN 0.540 1
ATOM 96 C CD . GLN 12 12 ? A 3.041 21.446 -41.335 1 1 B GLN 0.540 1
ATOM 97 O OE1 . GLN 12 12 ? A 4.146 20.951 -41.462 1 1 B GLN 0.540 1
ATOM 98 N NE2 . GLN 12 12 ? A 2.071 21.254 -42.267 1 1 B GLN 0.540 1
ATOM 99 N N . GLY 13 13 ? A 1.635 24.986 -42.358 1 1 B GLY 0.750 1
ATOM 100 C CA . GLY 13 13 ? A 0.353 25.631 -42.625 1 1 B GLY 0.750 1
ATOM 101 C C . GLY 13 13 ? A 0.460 27.065 -43.081 1 1 B GLY 0.750 1
ATOM 102 O O . GLY 13 13 ? A -0.555 27.725 -43.258 1 1 B GLY 0.750 1
ATOM 103 N N . GLY 14 14 ? A 1.688 27.600 -43.286 1 1 B GLY 0.400 1
ATOM 104 C CA . GLY 14 14 ? A 1.880 28.932 -43.846 1 1 B GLY 0.400 1
ATOM 105 C C . GLY 14 14 ? A 1.465 29.087 -45.279 1 1 B GLY 0.400 1
ATOM 106 O O . GLY 14 14 ? A 1.462 28.142 -46.067 1 1 B GLY 0.400 1
ATOM 107 N N . ARG 15 15 ? A 1.155 30.325 -45.686 1 1 B ARG 0.460 1
ATOM 108 C CA . ARG 15 15 ? A 0.743 30.605 -47.038 1 1 B ARG 0.460 1
ATOM 109 C C . ARG 15 15 ? A 1.824 31.389 -47.736 1 1 B ARG 0.460 1
ATOM 110 O O . ARG 15 15 ? A 2.280 32.417 -47.238 1 1 B ARG 0.460 1
ATOM 111 C CB . ARG 15 15 ? A -0.558 31.427 -47.035 1 1 B ARG 0.460 1
ATOM 112 C CG . ARG 15 15 ? A -1.092 31.762 -48.441 1 1 B ARG 0.460 1
ATOM 113 C CD . ARG 15 15 ? A -2.418 32.509 -48.357 1 1 B ARG 0.460 1
ATOM 114 N NE . ARG 15 15 ? A -2.860 32.798 -49.760 1 1 B ARG 0.460 1
ATOM 115 C CZ . ARG 15 15 ? A -3.985 33.464 -50.048 1 1 B ARG 0.460 1
ATOM 116 N NH1 . ARG 15 15 ? A -4.776 33.916 -49.080 1 1 B ARG 0.460 1
ATOM 117 N NH2 . ARG 15 15 ? A -4.330 33.685 -51.314 1 1 B ARG 0.460 1
ATOM 118 N N . TYR 16 16 ? A 2.249 30.922 -48.922 1 1 B TYR 0.500 1
ATOM 119 C CA . TYR 16 16 ? A 3.387 31.467 -49.621 1 1 B TYR 0.500 1
ATOM 120 C C . TYR 16 16 ? A 3.065 31.528 -51.091 1 1 B TYR 0.500 1
ATOM 121 O O . TYR 16 16 ? A 2.442 30.625 -51.645 1 1 B TYR 0.500 1
ATOM 122 C CB . TYR 16 16 ? A 4.638 30.553 -49.504 1 1 B TYR 0.500 1
ATOM 123 C CG . TYR 16 16 ? A 5.041 30.398 -48.068 1 1 B TYR 0.500 1
ATOM 124 C CD1 . TYR 16 16 ? A 4.581 29.318 -47.289 1 1 B TYR 0.500 1
ATOM 125 C CD2 . TYR 16 16 ? A 5.868 31.361 -47.474 1 1 B TYR 0.500 1
ATOM 126 C CE1 . TYR 16 16 ? A 4.935 29.219 -45.934 1 1 B TYR 0.500 1
ATOM 127 C CE2 . TYR 16 16 ? A 6.240 31.247 -46.135 1 1 B TYR 0.500 1
ATOM 128 C CZ . TYR 16 16 ? A 5.776 30.187 -45.369 1 1 B TYR 0.500 1
ATOM 129 O OH . TYR 16 16 ? A 6.211 30.161 -44.039 1 1 B TYR 0.500 1
ATOM 130 N N . TYR 17 17 ? A 3.511 32.599 -51.772 1 1 B TYR 0.440 1
ATOM 131 C CA . TYR 17 17 ? A 3.673 32.593 -53.213 1 1 B TYR 0.440 1
ATOM 132 C C . TYR 17 17 ? A 4.844 31.712 -53.606 1 1 B TYR 0.440 1
ATOM 133 O O . TYR 17 17 ? A 5.931 31.811 -53.032 1 1 B TYR 0.440 1
ATOM 134 C CB . TYR 17 17 ? A 3.926 34.012 -53.786 1 1 B TYR 0.440 1
ATOM 135 C CG . TYR 17 17 ? A 2.688 34.842 -53.636 1 1 B TYR 0.440 1
ATOM 136 C CD1 . TYR 17 17 ? A 1.655 34.739 -54.582 1 1 B TYR 0.440 1
ATOM 137 C CD2 . TYR 17 17 ? A 2.534 35.715 -52.548 1 1 B TYR 0.440 1
ATOM 138 C CE1 . TYR 17 17 ? A 0.481 35.490 -54.435 1 1 B TYR 0.440 1
ATOM 139 C CE2 . TYR 17 17 ? A 1.359 36.466 -52.399 1 1 B TYR 0.440 1
ATOM 140 C CZ . TYR 17 17 ? A 0.329 36.346 -53.339 1 1 B TYR 0.440 1
ATOM 141 O OH . TYR 17 17 ? A -0.864 37.076 -53.176 1 1 B TYR 0.440 1
ATOM 142 N N . ILE 18 18 ? A 4.667 30.835 -54.604 1 1 B ILE 0.430 1
ATOM 143 C CA . ILE 18 18 ? A 5.734 29.990 -55.095 1 1 B ILE 0.430 1
ATOM 144 C C . ILE 18 18 ? A 6.198 30.637 -56.375 1 1 B ILE 0.430 1
ATOM 145 O O . ILE 18 18 ? A 5.474 30.674 -57.373 1 1 B ILE 0.430 1
ATOM 146 C CB . ILE 18 18 ? A 5.282 28.551 -55.309 1 1 B ILE 0.430 1
ATOM 147 C CG1 . ILE 18 18 ? A 4.696 27.994 -53.983 1 1 B ILE 0.430 1
ATOM 148 C CG2 . ILE 18 18 ? A 6.483 27.712 -55.814 1 1 B ILE 0.430 1
ATOM 149 C CD1 . ILE 18 18 ? A 4.136 26.571 -54.101 1 1 B ILE 0.430 1
ATOM 150 N N . LEU 19 19 ? A 7.400 31.233 -56.348 1 1 B LEU 0.440 1
ATOM 151 C CA . LEU 19 19 ? A 7.923 32.058 -57.411 1 1 B LEU 0.440 1
ATOM 152 C C . LEU 19 19 ? A 9.110 31.358 -58.031 1 1 B LEU 0.440 1
ATOM 153 O O . LEU 19 19 ? A 9.698 30.488 -57.382 1 1 B LEU 0.440 1
ATOM 154 C CB . LEU 19 19 ? A 8.346 33.445 -56.851 1 1 B LEU 0.440 1
ATOM 155 C CG . LEU 19 19 ? A 7.161 34.270 -56.301 1 1 B LEU 0.440 1
ATOM 156 C CD1 . LEU 19 19 ? A 7.654 35.635 -55.794 1 1 B LEU 0.440 1
ATOM 157 C CD2 . LEU 19 19 ? A 6.050 34.468 -57.352 1 1 B LEU 0.440 1
ATOM 158 N N . PRO 20 20 ? A 9.509 31.656 -59.266 1 1 B PRO 0.450 1
ATOM 159 C CA . PRO 20 20 ? A 10.729 31.118 -59.822 1 1 B PRO 0.450 1
ATOM 160 C C . PRO 20 20 ? A 11.917 31.721 -59.109 1 1 B PRO 0.450 1
ATOM 161 O O . PRO 20 20 ? A 11.907 32.891 -58.738 1 1 B PRO 0.450 1
ATOM 162 C CB . PRO 20 20 ? A 10.692 31.525 -61.306 1 1 B PRO 0.450 1
ATOM 163 C CG . PRO 20 20 ? A 9.846 32.803 -61.336 1 1 B PRO 0.450 1
ATOM 164 C CD . PRO 20 20 ? A 8.872 32.615 -60.168 1 1 B PRO 0.450 1
ATOM 165 N N . VAL 21 21 ? A 12.955 30.903 -58.881 1 1 B VAL 0.390 1
ATOM 166 C CA . VAL 21 21 ? A 14.243 31.360 -58.399 1 1 B VAL 0.390 1
ATOM 167 C C . VAL 21 21 ? A 14.945 32.197 -59.468 1 1 B VAL 0.390 1
ATOM 168 O O . VAL 21 21 ? A 15.606 33.195 -59.202 1 1 B VAL 0.390 1
ATOM 169 C CB . VAL 21 21 ? A 15.099 30.159 -57.997 1 1 B VAL 0.390 1
ATOM 170 C CG1 . VAL 21 21 ? A 16.494 30.624 -57.527 1 1 B VAL 0.390 1
ATOM 171 C CG2 . VAL 21 21 ? A 14.379 29.392 -56.861 1 1 B VAL 0.390 1
ATOM 172 N N . ILE 22 22 ? A 14.796 31.773 -60.740 1 1 B ILE 0.430 1
ATOM 173 C CA . ILE 22 22 ? A 15.395 32.409 -61.897 1 1 B ILE 0.430 1
ATOM 174 C C . ILE 22 22 ? A 14.547 33.582 -62.371 1 1 B ILE 0.430 1
ATOM 175 O O . ILE 22 22 ? A 13.330 33.491 -62.503 1 1 B ILE 0.430 1
ATOM 176 C CB . ILE 22 22 ? A 15.582 31.398 -63.032 1 1 B ILE 0.430 1
ATOM 177 C CG1 . ILE 22 22 ? A 16.574 30.293 -62.580 1 1 B ILE 0.430 1
ATOM 178 C CG2 . ILE 22 22 ? A 16.076 32.093 -64.330 1 1 B ILE 0.430 1
ATOM 179 C CD1 . ILE 22 22 ? A 16.657 29.111 -63.555 1 1 B ILE 0.430 1
ATOM 180 N N . TYR 23 23 ? A 15.193 34.723 -62.679 1 1 B TYR 0.410 1
ATOM 181 C CA . TYR 23 23 ? A 14.533 35.903 -63.199 1 1 B TYR 0.410 1
ATOM 182 C C . TYR 23 23 ? A 14.567 35.882 -64.715 1 1 B TYR 0.410 1
ATOM 183 O O . TYR 23 23 ? A 15.555 36.259 -65.343 1 1 B TYR 0.410 1
ATOM 184 C CB . TYR 23 23 ? A 15.227 37.197 -62.704 1 1 B TYR 0.410 1
ATOM 185 C CG . TYR 23 23 ? A 15.102 37.294 -61.213 1 1 B TYR 0.410 1
ATOM 186 C CD1 . TYR 23 23 ? A 13.918 37.778 -60.635 1 1 B TYR 0.410 1
ATOM 187 C CD2 . TYR 23 23 ? A 16.161 36.905 -60.376 1 1 B TYR 0.410 1
ATOM 188 C CE1 . TYR 23 23 ? A 13.809 37.910 -59.244 1 1 B TYR 0.410 1
ATOM 189 C CE2 . TYR 23 23 ? A 16.050 37.028 -58.984 1 1 B TYR 0.410 1
ATOM 190 C CZ . TYR 23 23 ? A 14.878 37.545 -58.421 1 1 B TYR 0.410 1
ATOM 191 O OH . TYR 23 23 ? A 14.777 37.715 -57.028 1 1 B TYR 0.410 1
ATOM 192 N N . GLY 24 24 ? A 13.478 35.428 -65.356 1 1 B GLY 0.340 1
ATOM 193 C CA . GLY 24 24 ? A 13.382 35.479 -66.805 1 1 B GLY 0.340 1
ATOM 194 C C . GLY 24 24 ? A 12.174 34.733 -67.269 1 1 B GLY 0.340 1
ATOM 195 O O . GLY 24 24 ? A 11.156 35.311 -67.631 1 1 B GLY 0.340 1
ATOM 196 N N . LYS 25 25 ? A 12.248 33.391 -67.266 1 1 B LYS 0.390 1
ATOM 197 C CA . LYS 25 25 ? A 11.103 32.555 -67.571 1 1 B LYS 0.390 1
ATOM 198 C C . LYS 25 25 ? A 10.043 32.508 -66.489 1 1 B LYS 0.390 1
ATOM 199 O O . LYS 25 25 ? A 10.120 31.730 -65.545 1 1 B LYS 0.390 1
ATOM 200 C CB . LYS 25 25 ? A 11.528 31.107 -67.913 1 1 B LYS 0.390 1
ATOM 201 C CG . LYS 25 25 ? A 11.926 30.986 -69.389 1 1 B LYS 0.390 1
ATOM 202 C CD . LYS 25 25 ? A 12.695 29.690 -69.685 1 1 B LYS 0.390 1
ATOM 203 C CE . LYS 25 25 ? A 13.414 29.693 -71.041 1 1 B LYS 0.390 1
ATOM 204 N NZ . LYS 25 25 ? A 12.492 29.266 -72.116 1 1 B LYS 0.390 1
ATOM 205 N N . GLY 26 26 ? A 8.973 33.292 -66.714 1 1 B GLY 0.430 1
ATOM 206 C CA . GLY 26 26 ? A 7.693 33.157 -66.043 1 1 B GLY 0.430 1
ATOM 207 C C . GLY 26 26 ? A 7.562 33.832 -64.710 1 1 B GLY 0.430 1
ATOM 208 O O . GLY 26 26 ? A 8.484 34.427 -64.166 1 1 B GLY 0.430 1
ATOM 209 N N . GLY 27 27 ? A 6.326 33.770 -64.182 1 1 B GLY 0.460 1
ATOM 210 C CA . GLY 27 27 ? A 5.958 34.284 -62.875 1 1 B GLY 0.460 1
ATOM 211 C C . GLY 27 27 ? A 5.644 33.152 -61.950 1 1 B GLY 0.460 1
ATOM 212 O O . GLY 27 27 ? A 6.166 32.051 -62.097 1 1 B GLY 0.460 1
ATOM 213 N N . GLY 28 28 ? A 4.785 33.405 -60.945 1 1 B GLY 0.920 1
ATOM 214 C CA . GLY 28 28 ? A 4.403 32.395 -59.967 1 1 B GLY 0.920 1
ATOM 215 C C . GLY 28 28 ? A 3.481 31.334 -60.485 1 1 B GLY 0.920 1
ATOM 216 O O . GLY 28 28 ? A 3.084 31.345 -61.650 1 1 B GLY 0.920 1
ATOM 217 N N . LEU 29 29 ? A 3.129 30.405 -59.588 1 1 B LEU 0.900 1
ATOM 218 C CA . LEU 29 29 ? A 2.185 29.341 -59.842 1 1 B LEU 0.900 1
ATOM 219 C C . LEU 29 29 ? A 0.707 29.753 -59.596 1 1 B LEU 0.900 1
ATOM 220 O O . LEU 29 29 ? A 0.443 30.897 -59.135 1 1 B LEU 0.900 1
ATOM 221 C CB . LEU 29 29 ? A 2.511 28.116 -58.945 1 1 B LEU 0.900 1
ATOM 222 C CG . LEU 29 29 ? A 3.943 27.545 -59.094 1 1 B LEU 0.900 1
ATOM 223 C CD1 . LEU 29 29 ? A 4.089 26.264 -58.253 1 1 B LEU 0.900 1
ATOM 224 C CD2 . LEU 29 29 ? A 4.321 27.255 -60.559 1 1 B LEU 0.900 1
ATOM 225 O OXT . LEU 29 29 ? A -0.174 28.890 -59.865 1 1 B LEU 0.900 1
#
#
loop_
_atom_type.symbol
C
N
O
S
#
#
loop_
_ma_qa_metric.id
_ma_qa_metric.name
_ma_qa_metric.description
_ma_qa_metric.type
_ma_qa_metric.mode
_ma_qa_metric.type_other_details
_ma_qa_metric.software_group_id
1 QMEANDisCo 'Predicted accuracy according to all-atom lDDT in [0,1].'
'pLDDT all-atom in [0,1]' local . 5
2 QMEANDisCo 'Predicted accuracy according to all-atom lDDT in [0,1].'
'pLDDT all-atom in [0,1]' global . 5
3 GMQE
'Global Model Quality Estimate of the model accuracy, calculated by SWISS-MODEL.'
'normalized score' global . 6
#
#
loop_
_ma_qa_metric_global.ordinal_id
_ma_qa_metric_global.model_id
_ma_qa_metric_global.metric_id
_ma_qa_metric_global.metric_value
1 1 2 0.516
2 1 3 0.516
#
#
loop_
_ma_qa_metric_local.ordinal_id
_ma_qa_metric_local.model_id
_ma_qa_metric_local.label_asym_id
_ma_qa_metric_local.label_seq_id
_ma_qa_metric_local.label_comp_id
_ma_qa_metric_local.metric_id
_ma_qa_metric_local.metric_value
1 1 A 1 PHE 1 0.630
2 1 A 2 VAL 1 0.880
3 1 A 3 VAL 1 0.440
4 1 A 4 GLU 1 0.480
5 1 A 5 THR 1 0.470
6 1 A 6 GLU 1 0.670
7 1 A 7 ASN 1 0.490
8 1 A 8 GLN 1 0.470
9 1 A 9 LEU 1 0.460
10 1 A 10 MET 1 0.450
11 1 A 11 SER 1 0.430
12 1 A 12 GLN 1 0.540
13 1 A 13 GLY 1 0.750
14 1 A 14 GLY 1 0.400
15 1 A 15 ARG 1 0.460
16 1 A 16 TYR 1 0.500
17 1 A 17 TYR 1 0.440
18 1 A 18 ILE 1 0.430
19 1 A 19 LEU 1 0.440
20 1 A 20 PRO 1 0.450
21 1 A 21 VAL 1 0.390
22 1 A 22 ILE 1 0.430
23 1 A 23 TYR 1 0.410
24 1 A 24 GLY 1 0.340
25 1 A 25 LYS 1 0.390
26 1 A 26 GLY 1 0.430
27 1 A 27 GLY 1 0.460
28 1 A 28 GLY 1 0.920
29 1 A 29 LEU 1 0.900
#
#
loop_
_pdbx_data_usage.id
_pdbx_data_usage.type
_pdbx_data_usage.details
_pdbx_data_usage.url
1 license
;This SWISS-MODEL protein model is copyright.
It is produced by the SWISS-MODEL server, developed by the Computational
Structural Biology Group at the SIB Swiss Institute of Bioinformatics at the
Biozentrum, University of Basel (https://swissmodel.expasy.org). This
model is licensed under the CC BY-SA 4.0 Creative Commons
Attribution-ShareAlike 4.0 International License
(https://creativecommons.org/licenses/by-sa/4.0/legalcode), i.e. you
can copy and redistribute the model in any medium or format,
transform and build upon the model for any purpose, even
commercially, under the following terms:
Attribution - You must give appropriate credit, provide a link to
the license, and indicate if changes were made. You may do so in any
reasonable manner, but not in any way that suggests the licensor
endorses you or your use. When you publish, patent or distribute
results that were fully or partially based on the model, please cite
the corresponding papers mentioned under JRNL.
ShareAlike - If you remix, transform, or build upon the material,
you must distribute your contributions under the same license as the
original.
No additional restrictions - you may not apply legal terms or
technological measures that legally restrict others from doing
anything the license permits.
Find a human-readable summary of (and not a substitute for) the
CC BY-SA 4.0 license at this link:
https://creativecommons.org/licenses/by-sa/4.0/
;
https://creativecommons.org/licenses/by-sa/4.0/legalcode
2 disclaimer
;The SWISS-MODEL SERVER produces theoretical models for
proteins. The results of any theoretical modelling procedure is
NON-EXPERIMENTAL and MUST be considered with care. These models may
contain significant errors. This is especially true for automated
modeling since there is no human intervention during model
building. Please read the header section and the logfile carefully
to know what templates and alignments were used during the model
building process. All information by the SWISS-MODEL SERVER is
provided "AS-IS", without any warranty, expressed or implied.
;
https://swissmodel.expasy.org/docs/terms_of_use#disclaimer
#