data_SMR-d7181930b745fed8d72170f26a328662_1
_entry.id SMR-d7181930b745fed8d72170f26a328662_1
_struct.entry_id SMR-d7181930b745fed8d72170f26a328662_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:

  - A0A6P5Q241/ A0A6P5Q241_MUSCR, Tuberoinfundibular peptide of 39 residues
  - P0C172/ TIP39_RAT, Tuberoinfundibular peptide of 39 residues
  - Q91W27/ TIP39_MOUSE, Tuberoinfundibular peptide of 39 residues

Estimated model accuracy of this model is 0.245, calculated by SWISS-MODEL as Global Model Quality Estimate (GMQE).
;
_struct.pdbx_structure_determination_methodology computational
_struct.title 'Model for UniProtKB entries A0A6P5Q241, P0C172, Q91W27'
_audit_conform.dict_location https://raw.githubusercontent.com/ihmwg/ModelCIF/d18ba38/base/mmcif_ma-core.dic
_audit_conform.dict_name mmcif_ma.dic
_audit_conform.dict_version 1.4.6
#
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' 2024-10.3
package https://swissmodel.expasy.org 2
2 ProMod3 'model building' 'Modular homology modelling engine' 3.4.1 library
https://git.scicore.unibas.ch/schwede/ProMod3 3
3 QMEAN 'model building' 'QMEAN - Qualitative Model Energy ANalysis' 4.3.1
library https://git.scicore.unibas.ch/schwede/QMEAN 4
4 OpenStructure 'data processing'
'Open-Source Computational Structural Biology Framework' 2.8.0 package
https://openstructure.org/ 5
5 BLAST 'data collection' . 2.2.31 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'
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 . 12819.730 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 TIP39_MOUSE Q91W27 1
;METCQMSRSPRERLLLLLLLLLLVPWGTGPASGVALPLAGVFSLRAPGRAWAGLGSPLSRRSLALADDAA
FRERARLLAALERRRWLDSYMQKLLLLDAP
;
'Tuberoinfundibular peptide of 39 residues'
2 1 UNP TIP39_RAT P0C172 1
;METCQMSRSPRERLLLLLLLLLLVPWGTGPASGVALPLAGVFSLRAPGRAWAGLGSPLSRRSLALADDAA
FRERARLLAALERRRWLDSYMQKLLLLDAP
;
'Tuberoinfundibular peptide of 39 residues'
3 1 UNP A0A6P5Q241_MUSCR A0A6P5Q241 1
;METCQMSRSPRERLLLLLLLLLLVPWGTGPASGVALPLAGVFSLRAPGRAWAGLGSPLSRRSLALADDAA
FRERARLLAALERRRWLDSYMQKLLLLDAP
;
'Tuberoinfundibular peptide of 39 residues'
#
#
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 1 100 1 100
2 2 1 100 1 100
3 3 1 100 1 100
#
#
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
1 UNP . TIP39_MOUSE Q91W27 . 1 100 10090 'Mus musculus (Mouse)' 2001-12-01
DC778742E13E0243
1 UNP . TIP39_RAT P0C172 . 1 100 10116 'Rattus norvegicus (Rat)' 2006-03-21
DC778742E13E0243
1 UNP . A0A6P5Q241_MUSCR A0A6P5Q241 . 1 100 10089
'Mus caroli (Ryukyu mouse) (Ricefield mouse)' 2020-12-02 DC778742E13E0243
#
#
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
;METCQMSRSPRERLLLLLLLLLLVPWGTGPASGVALPLAGVFSLRAPGRAWAGLGSPLSRRSLALADDAA
FRERARLLAALERRRWLDSYMQKLLLLDAP
;

;METCQMSRSPRERLLLLLLLLLLVPWGTGPASGVALPLAGVFSLRAPGRAWAGLGSPLSRRSLALADDAA
FRERARLLAALERRRWLDSYMQKLLLLDAP
;

#
#
loop_
_entity_poly_seq.entity_id
_entity_poly_seq.num
_entity_poly_seq.mon_id
_entity_poly_seq.hetero
1 1 MET .
1 2 GLU .
1 3 THR .
1 4 CYS .
1 5 GLN .
1 6 MET .
1 7 SER .
1 8 ARG .
1 9 SER .
1 10 PRO .
1 11 ARG .
1 12 GLU .
1 13 ARG .
1 14 LEU .
1 15 LEU .
1 16 LEU .
1 17 LEU .
1 18 LEU .
1 19 LEU .
1 20 LEU .
1 21 LEU .
1 22 LEU .
1 23 LEU .
1 24 VAL .
1 25 PRO .
1 26 TRP .
1 27 GLY .
1 28 THR .
1 29 GLY .
1 30 PRO .
1 31 ALA .
1 32 SER .
1 33 GLY .
1 34 VAL .
1 35 ALA .
1 36 LEU .
1 37 PRO .
1 38 LEU .
1 39 ALA .
1 40 GLY .
1 41 VAL .
1 42 PHE .
1 43 SER .
1 44 LEU .
1 45 ARG .
1 46 ALA .
1 47 PRO .
1 48 GLY .
1 49 ARG .
1 50 ALA .
1 51 TRP .
1 52 ALA .
1 53 GLY .
1 54 LEU .
1 55 GLY .
1 56 SER .
1 57 PRO .
1 58 LEU .
1 59 SER .
1 60 ARG .
1 61 ARG .
1 62 SER .
1 63 LEU .
1 64 ALA .
1 65 LEU .
1 66 ALA .
1 67 ASP .
1 68 ASP .
1 69 ALA .
1 70 ALA .
1 71 PHE .
1 72 ARG .
1 73 GLU .
1 74 ARG .
1 75 ALA .
1 76 ARG .
1 77 LEU .
1 78 LEU .
1 79 ALA .
1 80 ALA .
1 81 LEU .
1 82 GLU .
1 83 ARG .
1 84 ARG .
1 85 ARG .
1 86 TRP .
1 87 LEU .
1 88 ASP .
1 89 SER .
1 90 TYR .
1 91 MET .
1 92 GLN .
1 93 LYS .
1 94 LEU .
1 95 LEU .
1 96 LEU .
1 97 LEU .
1 98 ASP .
1 99 ALA .
1 100 PRO .
#
#
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 MET 1 ? ? ? B .
A 1 2 GLU 2 ? ? ? B .
A 1 3 THR 3 ? ? ? B .
A 1 4 CYS 4 ? ? ? B .
A 1 5 GLN 5 ? ? ? B .
A 1 6 MET 6 ? ? ? B .
A 1 7 SER 7 ? ? ? B .
A 1 8 ARG 8 ? ? ? B .
A 1 9 SER 9 ? ? ? B .
A 1 10 PRO 10 ? ? ? B .
A 1 11 ARG 11 ? ? ? B .
A 1 12 GLU 12 ? ? ? B .
A 1 13 ARG 13 ? ? ? B .
A 1 14 LEU 14 ? ? ? B .
A 1 15 LEU 15 ? ? ? B .
A 1 16 LEU 16 ? ? ? B .
A 1 17 LEU 17 ? ? ? B .
A 1 18 LEU 18 ? ? ? B .
A 1 19 LEU 19 ? ? ? B .
A 1 20 LEU 20 ? ? ? B .
A 1 21 LEU 21 ? ? ? B .
A 1 22 LEU 22 ? ? ? B .
A 1 23 LEU 23 ? ? ? B .
A 1 24 VAL 24 ? ? ? B .
A 1 25 PRO 25 ? ? ? B .
A 1 26 TRP 26 ? ? ? B .
A 1 27 GLY 27 ? ? ? B .
A 1 28 THR 28 ? ? ? B .
A 1 29 GLY 29 ? ? ? B .
A 1 30 PRO 30 ? ? ? B .
A 1 31 ALA 31 ? ? ? B .
A 1 32 SER 32 ? ? ? B .
A 1 33 GLY 33 ? ? ? B .
A 1 34 VAL 34 ? ? ? B .
A 1 35 ALA 35 ? ? ? B .
A 1 36 LEU 36 ? ? ? B .
A 1 37 PRO 37 ? ? ? B .
A 1 38 LEU 38 ? ? ? B .
A 1 39 ALA 39 ? ? ? B .
A 1 40 GLY 40 ? ? ? B .
A 1 41 VAL 41 ? ? ? B .
A 1 42 PHE 42 ? ? ? B .
A 1 43 SER 43 ? ? ? B .
A 1 44 LEU 44 ? ? ? B .
A 1 45 ARG 45 ? ? ? B .
A 1 46 ALA 46 ? ? ? B .
A 1 47 PRO 47 ? ? ? B .
A 1 48 GLY 48 ? ? ? B .
A 1 49 ARG 49 ? ? ? B .
A 1 50 ALA 50 ? ? ? B .
A 1 51 TRP 51 ? ? ? B .
A 1 52 ALA 52 ? ? ? B .
A 1 53 GLY 53 ? ? ? B .
A 1 54 LEU 54 ? ? ? B .
A 1 55 GLY 55 ? ? ? B .
A 1 56 SER 56 ? ? ? B .
A 1 57 PRO 57 ? ? ? B .
A 1 58 LEU 58 ? ? ? B .
A 1 59 SER 59 ? ? ? B .
A 1 60 ARG 60 ? ? ? B .
A 1 61 ARG 61 ? ? ? B .
A 1 62 SER 62 62 SER SER B .
A 1 63 LEU 63 63 LEU LEU B .
A 1 64 ALA 64 64 ALA ALA B .
A 1 65 LEU 65 65 LEU LEU B .
A 1 66 ALA 66 66 ALA ALA B .
A 1 67 ASP 67 67 ASP ASP B .
A 1 68 ASP 68 68 ASP ASP B .
A 1 69 ALA 69 69 ALA ALA B .
A 1 70 ALA 70 70 ALA ALA B .
A 1 71 PHE 71 71 PHE PHE B .
A 1 72 ARG 72 72 ARG ARG B .
A 1 73 GLU 73 73 GLU GLU B .
A 1 74 ARG 74 74 ARG ARG B .
A 1 75 ALA 75 75 ALA ALA B .
A 1 76 ARG 76 76 ARG ARG B .
A 1 77 LEU 77 77 LEU LEU B .
A 1 78 LEU 78 78 LEU LEU B .
A 1 79 ALA 79 79 ALA ALA B .
A 1 80 ALA 80 80 ALA ALA B .
A 1 81 LEU 81 81 LEU LEU B .
A 1 82 GLU 82 82 GLU GLU B .
A 1 83 ARG 83 83 ARG ARG B .
A 1 84 ARG 84 84 ARG ARG B .
A 1 85 ARG 85 85 ARG ARG B .
A 1 86 TRP 86 86 TRP TRP B .
A 1 87 LEU 87 87 LEU LEU B .
A 1 88 ASP 88 88 ASP ASP B .
A 1 89 SER 89 89 SER SER B .
A 1 90 TYR 90 90 TYR TYR B .
A 1 91 MET 91 91 MET MET B .
A 1 92 GLN 92 92 GLN GLN B .
A 1 93 LYS 93 93 LYS LYS B .
A 1 94 LEU 94 94 LEU LEU B .
A 1 95 LEU 95 95 LEU LEU B .
A 1 96 LEU 96 ? ? ? B .
A 1 97 LEU 97 ? ? ? B .
A 1 98 ASP 98 ? ? ? B .
A 1 99 ALA 99 ? ? ? B .
A 1 100 PRO 100 ? ? ? B .
#
#
loop_
_ma_data.id
_ma_data.name
_ma_data.content_type
_ma_data.content_type_other_details
1
'Tuberoinfundibular peptide of 39 residues {PDB ID=7f16, label_asym_id=B, auth_asym_id=P, SMTL ID=7f16.1.B}'
'template structure' .
2 . target .
3 'Target-template alignment by HHblits to 7f16, 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/ . 2024-12-25
6 PDB https://www.wwpdb.org . 2024-12-20
#
#
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 2 1 P
#
#
loop_
_ma_template_poly.template_id
_ma_template_poly.seq_one_letter_code
_ma_template_poly.seq_one_letter_code_can
1 SLALADDAAFRERARLLAALERRHWLNSYMHKLLVLDAP
SLALADDAAFRERARLLAALERRHWLNSYMHKLLVLDAP
#
#
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 1 39
#
#
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 . 7f16 2024-11-13
#
#
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 1 100
#
#
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 1 100 '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' . 1.8e-26 89.744
'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
METCQMSRSPRERLLLLLLLLLLVPWGTGPASGVALPLAGVFSLRAPGRAWAGLGSPLSRRSLALADDAAFRERARLLAALERRRWLDSYMQKLLLLDAP
2 1 2
-------------------------------------------------------------SLALADDAAFRERARLLAALERRHWLNSYMHKLLVLDAP
#
#
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=0.000}' 3 2 4
3 1 3 modeling 'homology modeling'
'SWISS-MODEL auto-model mode using ProMod3 on 7f16.1' 4 3 5
#
#
loop_
_ma_model_list.ordinal_id
_ma_model_list.model_id
_ma_model_list.model_group_id
_ma_model_list.model_name
_ma_model_list.model_group_name
_ma_model_list.data_id
_ma_model_list.model_type
_ma_model_list.model_type_other_details
1 1 1 'model 1' . 4 'Homology model' .
#
#
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 . SER 62 62 ? A 116.012 124.470 151.538 1 1 B SER 0.660 1
ATOM 2 C CA . SER 62 62 ? A 115.553 125.049 152.831 1 1 B SER 0.660 1
ATOM 3 C C . SER 62 62 ? A 115.129 126.456 152.551 1 1 B SER 0.660 1
ATOM 4 O O . SER 62 62 ? A 114.004 126.660 152.130 1 1 B SER 0.660 1
ATOM 5 C CB . SER 62 62 ? A 116.606 124.965 153.979 1 1 B SER 0.660 1
ATOM 6 O OG . SER 62 62 ? A 116.042 125.474 155.187 1 1 B SER 0.660 1
ATOM 7 N N . LEU 63 63 ? A 116.018 127.458 152.701 1 1 B LEU 0.500 1
ATOM 8 C CA . LEU 63 63 ? A 115.691 128.843 152.419 1 1 B LEU 0.500 1
ATOM 9 C C . LEU 63 63 ? A 115.463 129.173 150.945 1 1 B LEU 0.500 1
ATOM 10 O O . LEU 63 63 ? A 114.530 129.883 150.589 1 1 B LEU 0.500 1
ATOM 11 C CB . LEU 63 63 ? A 116.825 129.727 152.984 1 1 B LEU 0.500 1
ATOM 12 C CG . LEU 63 63 ? A 116.565 131.246 152.930 1 1 B LEU 0.500 1
ATOM 13 C CD1 . LEU 63 63 ? A 115.333 131.648 153.756 1 1 B LEU 0.500 1
ATOM 14 C CD2 . LEU 63 63 ? A 117.806 132.020 153.401 1 1 B LEU 0.500 1
ATOM 15 N N . ALA 64 64 ? A 116.330 128.663 150.045 1 1 B ALA 0.750 1
ATOM 16 C CA . ALA 64 64 ? A 116.289 129.035 148.646 1 1 B ALA 0.750 1
ATOM 17 C C . ALA 64 64 ? A 115.382 128.175 147.773 1 1 B ALA 0.750 1
ATOM 18 O O . ALA 64 64 ? A 114.457 128.654 147.124 1 1 B ALA 0.750 1
ATOM 19 C CB . ALA 64 64 ? A 117.727 128.926 148.099 1 1 B ALA 0.750 1
ATOM 20 N N . LEU 65 65 ? A 115.640 126.857 147.708 1 1 B LEU 0.720 1
ATOM 21 C CA . LEU 65 65 ? A 114.911 125.967 146.827 1 1 B LEU 0.720 1
ATOM 22 C C . LEU 65 65 ? A 113.487 125.694 147.271 1 1 B LEU 0.720 1
ATOM 23 O O . LEU 65 65 ? A 113.256 125.286 148.402 1 1 B LEU 0.720 1
ATOM 24 C CB . LEU 65 65 ? A 115.674 124.637 146.651 1 1 B LEU 0.720 1
ATOM 25 C CG . LEU 65 65 ? A 117.065 124.801 146.014 1 1 B LEU 0.720 1
ATOM 26 C CD1 . LEU 65 65 ? A 117.795 123.451 145.980 1 1 B LEU 0.720 1
ATOM 27 C CD2 . LEU 65 65 ? A 116.975 125.403 144.604 1 1 B LEU 0.720 1
ATOM 28 N N . ALA 66 66 ? A 112.500 125.906 146.375 1 1 B ALA 0.700 1
ATOM 29 C CA . ALA 66 66 ? A 111.087 125.873 146.698 1 1 B ALA 0.700 1
ATOM 30 C C . ALA 66 66 ? A 110.532 124.526 147.160 1 1 B ALA 0.700 1
ATOM 31 O O . ALA 66 66 ? A 109.835 124.449 148.169 1 1 B ALA 0.700 1
ATOM 32 C CB . ALA 66 66 ? A 110.297 126.383 145.476 1 1 B ALA 0.700 1
ATOM 33 N N . ASP 67 67 ? A 110.863 123.422 146.460 1 1 B ASP 0.720 1
ATOM 34 C CA . ASP 67 67 ? A 110.477 122.078 146.850 1 1 B ASP 0.720 1
ATOM 35 C C . ASP 67 67 ? A 111.154 121.662 148.168 1 1 B ASP 0.720 1
ATOM 36 O O . ASP 67 67 ? A 110.524 121.197 149.120 1 1 B ASP 0.720 1
ATOM 37 C CB . ASP 67 67 ? A 110.784 121.139 145.652 1 1 B ASP 0.720 1
ATOM 38 C CG . ASP 67 67 ? A 110.004 119.834 145.730 1 1 B ASP 0.720 1
ATOM 39 O OD1 . ASP 67 67 ? A 109.152 119.702 146.642 1 1 B ASP 0.720 1
ATOM 40 O OD2 . ASP 67 67 ? A 110.249 118.976 144.848 1 1 B ASP 0.720 1
ATOM 41 N N . ASP 68 68 ? A 112.469 121.954 148.304 1 1 B ASP 0.710 1
ATOM 42 C CA . ASP 68 68 ? A 113.234 121.735 149.522 1 1 B ASP 0.710 1
ATOM 43 C C . ASP 68 68 ? A 112.684 122.555 150.697 1 1 B ASP 0.710 1
ATOM 44 O O . ASP 68 68 ? A 112.644 122.093 151.833 1 1 B ASP 0.710 1
ATOM 45 C CB . ASP 68 68 ? A 114.739 122.045 149.285 1 1 B ASP 0.710 1
ATOM 46 C CG . ASP 68 68 ? A 115.630 121.505 150.390 1 1 B ASP 0.710 1
ATOM 47 O OD1 . ASP 68 68 ? A 115.415 120.438 150.989 1 1 B ASP 0.710 1
ATOM 48 O OD2 . ASP 68 68 ? A 116.640 122.224 150.729 1 1 B ASP 0.710 1
ATOM 49 N N . ALA 69 69 ? A 112.235 123.809 150.447 1 1 B ALA 0.700 1
ATOM 50 C CA . ALA 69 69 ? A 111.531 124.641 151.406 1 1 B ALA 0.700 1
ATOM 51 C C . ALA 69 69 ? A 110.242 123.991 151.870 1 1 B ALA 0.700 1
ATOM 52 O O . ALA 69 69 ? A 110.020 123.850 153.069 1 1 B ALA 0.700 1
ATOM 53 C CB . ALA 69 69 ? A 111.219 126.040 150.815 1 1 B ALA 0.700 1
ATOM 54 N N . ALA 70 70 ? A 109.403 123.489 150.942 1 1 B ALA 0.700 1
ATOM 55 C CA . ALA 70 70 ? A 108.177 122.798 151.277 1 1 B ALA 0.700 1
ATOM 56 C C . ALA 70 70 ? A 108.382 121.517 152.082 1 1 B ALA 0.700 1
ATOM 57 O O . ALA 70 70 ? A 107.728 121.302 153.101 1 1 B ALA 0.700 1
ATOM 58 C CB . ALA 70 70 ? A 107.408 122.460 149.984 1 1 B ALA 0.700 1
ATOM 59 N N . PHE 71 71 ? A 109.328 120.650 151.667 1 1 B PHE 0.730 1
ATOM 60 C CA . PHE 71 71 ? A 109.653 119.432 152.386 1 1 B PHE 0.730 1
ATOM 61 C C . PHE 71 71 ? A 110.249 119.682 153.772 1 1 B PHE 0.730 1
ATOM 62 O O . PHE 71 71 ? A 109.777 119.131 154.768 1 1 B PHE 0.730 1
ATOM 63 C CB . PHE 71 71 ? A 110.599 118.554 151.516 1 1 B PHE 0.730 1
ATOM 64 C CG . PHE 71 71 ? A 110.992 117.269 152.207 1 1 B PHE 0.730 1
ATOM 65 C CD1 . PHE 71 71 ? A 110.030 116.293 152.509 1 1 B PHE 0.730 1
ATOM 66 C CD2 . PHE 71 71 ? A 112.316 117.067 152.629 1 1 B PHE 0.730 1
ATOM 67 C CE1 . PHE 71 71 ? A 110.385 115.134 153.211 1 1 B PHE 0.730 1
ATOM 68 C CE2 . PHE 71 71 ? A 112.673 115.910 153.332 1 1 B PHE 0.730 1
ATOM 69 C CZ . PHE 71 71 ? A 111.707 114.941 153.620 1 1 B PHE 0.730 1
ATOM 70 N N . ARG 72 72 ? A 111.274 120.548 153.884 1 1 B ARG 0.690 1
ATOM 71 C CA . ARG 72 72 ? A 111.914 120.843 155.153 1 1 B ARG 0.690 1
ATOM 72 C C . ARG 72 72 ? A 111.035 121.598 156.133 1 1 B ARG 0.690 1
ATOM 73 O O . ARG 72 72 ? A 111.037 121.295 157.324 1 1 B ARG 0.690 1
ATOM 74 C CB . ARG 72 72 ? A 113.249 121.582 154.961 1 1 B ARG 0.690 1
ATOM 75 C CG . ARG 72 72 ? A 114.313 120.704 154.289 1 1 B ARG 0.690 1
ATOM 76 C CD . ARG 72 72 ? A 115.636 121.437 154.193 1 1 B ARG 0.690 1
ATOM 77 N NE . ARG 72 72 ? A 116.560 120.577 153.418 1 1 B ARG 0.690 1
ATOM 78 C CZ . ARG 72 72 ? A 117.399 119.671 153.912 1 1 B ARG 0.690 1
ATOM 79 N NH1 . ARG 72 72 ? A 118.180 118.970 153.092 1 1 B ARG 0.690 1
ATOM 80 N NH2 . ARG 72 72 ? A 117.448 119.429 155.219 1 1 B ARG 0.690 1
ATOM 81 N N . GLU 73 73 ? A 110.244 122.582 155.660 1 1 B GLU 0.660 1
ATOM 82 C CA . GLU 73 73 ? A 109.281 123.296 156.482 1 1 B GLU 0.660 1
ATOM 83 C C . GLU 73 73 ? A 108.176 122.380 156.998 1 1 B GLU 0.660 1
ATOM 84 O O . GLU 73 73 ? A 107.830 122.386 158.181 1 1 B GLU 0.660 1
ATOM 85 C CB . GLU 73 73 ? A 108.690 124.487 155.698 1 1 B GLU 0.660 1
ATOM 86 C CG . GLU 73 73 ? A 107.817 125.448 156.532 1 1 B GLU 0.660 1
ATOM 87 C CD . GLU 73 73 ? A 108.552 126.121 157.682 1 1 B GLU 0.660 1
ATOM 88 O OE1 . GLU 73 73 ? A 109.781 126.380 157.623 1 1 B GLU 0.660 1
ATOM 89 O OE2 . GLU 73 73 ? A 107.858 126.372 158.704 1 1 B GLU 0.660 1
ATOM 90 N N . ARG 74 74 ? A 107.641 121.487 156.132 1 1 B ARG 0.640 1
ATOM 91 C CA . ARG 74 74 ? A 106.691 120.461 156.527 1 1 B ARG 0.640 1
ATOM 92 C C . ARG 74 74 ? A 107.259 119.482 157.546 1 1 B ARG 0.640 1
ATOM 93 O O . ARG 74 74 ? A 106.600 119.143 158.526 1 1 B ARG 0.640 1
ATOM 94 C CB . ARG 74 74 ? A 106.191 119.687 155.285 1 1 B ARG 0.640 1
ATOM 95 C CG . ARG 74 74 ? A 105.067 118.666 155.547 1 1 B ARG 0.640 1
ATOM 96 C CD . ARG 74 74 ? A 104.578 118.015 154.251 1 1 B ARG 0.640 1
ATOM 97 N NE . ARG 74 74 ? A 103.493 117.032 154.596 1 1 B ARG 0.640 1
ATOM 98 C CZ . ARG 74 74 ? A 103.691 115.734 154.868 1 1 B ARG 0.640 1
ATOM 99 N NH1 . ARG 74 74 ? A 102.643 114.948 155.113 1 1 B ARG 0.640 1
ATOM 100 N NH2 . ARG 74 74 ? A 104.909 115.206 154.909 1 1 B ARG 0.640 1
ATOM 101 N N . ALA 75 75 ? A 108.520 119.033 157.362 1 1 B ALA 0.620 1
ATOM 102 C CA . ALA 75 75 ? A 109.244 118.218 158.318 1 1 B ALA 0.620 1
ATOM 103 C C . ALA 75 75 ? A 109.442 118.917 159.661 1 1 B ALA 0.620 1
ATOM 104 O O . ALA 75 75 ? A 109.230 118.327 160.717 1 1 B ALA 0.620 1
ATOM 105 C CB . ALA 75 75 ? A 110.607 117.801 157.726 1 1 B ALA 0.620 1
ATOM 106 N N . ARG 76 76 ? A 109.799 120.219 159.650 1 1 B ARG 0.600 1
ATOM 107 C CA . ARG 76 76 ? A 109.910 121.039 160.843 1 1 B ARG 0.600 1
ATOM 108 C C . ARG 76 76 ? A 108.597 121.182 161.589 1 1 B ARG 0.600 1
ATOM 109 O O . ARG 76 76 ? A 108.550 121.078 162.816 1 1 B ARG 0.600 1
ATOM 110 C CB . ARG 76 76 ? A 110.469 122.441 160.489 1 1 B ARG 0.600 1
ATOM 111 C CG . ARG 76 76 ? A 111.004 123.254 161.691 1 1 B ARG 0.600 1
ATOM 112 C CD . ARG 76 76 ? A 109.997 124.099 162.494 1 1 B ARG 0.600 1
ATOM 113 N NE . ARG 76 76 ? A 109.430 125.172 161.609 1 1 B ARG 0.600 1
ATOM 114 C CZ . ARG 76 76 ? A 109.961 126.386 161.414 1 1 B ARG 0.600 1
ATOM 115 N NH1 . ARG 76 76 ? A 109.355 127.256 160.624 1 1 B ARG 0.600 1
ATOM 116 N NH2 . ARG 76 76 ? A 111.119 126.750 161.950 1 1 B ARG 0.600 1
ATOM 117 N N . LEU 77 77 ? A 107.487 121.409 160.858 1 1 B LEU 0.610 1
ATOM 118 C CA . LEU 77 77 ? A 106.158 121.450 161.433 1 1 B LEU 0.610 1
ATOM 119 C C . LEU 77 77 ? A 105.730 120.128 162.045 1 1 B LEU 0.610 1
ATOM 120 O O . LEU 77 77 ? A 105.241 120.096 163.173 1 1 B LEU 0.610 1
ATOM 121 C CB . LEU 77 77 ? A 105.095 121.883 160.395 1 1 B LEU 0.610 1
ATOM 122 C CG . LEU 77 77 ? A 103.692 122.124 160.998 1 1 B LEU 0.610 1
ATOM 123 C CD1 . LEU 77 77 ? A 103.692 123.324 161.960 1 1 B LEU 0.610 1
ATOM 124 C CD2 . LEU 77 77 ? A 102.632 122.297 159.900 1 1 B LEU 0.610 1
ATOM 125 N N . LEU 78 78 ? A 105.949 118.995 161.342 1 1 B LEU 0.620 1
ATOM 126 C CA . LEU 78 78 ? A 105.657 117.668 161.861 1 1 B LEU 0.620 1
ATOM 127 C C . LEU 78 78 ? A 106.462 117.344 163.109 1 1 B LEU 0.620 1
ATOM 128 O O . LEU 78 78 ? A 105.890 116.918 164.115 1 1 B LEU 0.620 1
ATOM 129 C CB . LEU 78 78 ? A 105.864 116.576 160.782 1 1 B LEU 0.620 1
ATOM 130 C CG . LEU 78 78 ? A 104.816 116.590 159.647 1 1 B LEU 0.620 1
ATOM 131 C CD1 . LEU 78 78 ? A 105.214 115.587 158.554 1 1 B LEU 0.620 1
ATOM 132 C CD2 . LEU 78 78 ? A 103.395 116.288 160.155 1 1 B LEU 0.620 1
ATOM 133 N N . ALA 79 79 ? A 107.778 117.640 163.114 1 1 B ALA 0.610 1
ATOM 134 C CA . ALA 79 79 ? A 108.649 117.466 164.260 1 1 B ALA 0.610 1
ATOM 135 C C . ALA 79 79 ? A 108.223 118.298 165.471 1 1 B ALA 0.610 1
ATOM 136 O O . ALA 79 79 ? A 108.166 117.829 166.607 1 1 B ALA 0.610 1
ATOM 137 C CB . ALA 79 79 ? A 110.095 117.832 163.871 1 1 B ALA 0.610 1
ATOM 138 N N . ALA 80 80 ? A 107.859 119.581 165.255 1 1 B ALA 0.630 1
ATOM 139 C CA . ALA 80 80 ? A 107.321 120.437 166.291 1 1 B ALA 0.630 1
ATOM 140 C C . ALA 80 80 ? A 105.979 119.968 166.830 1 1 B ALA 0.630 1
ATOM 141 O O . ALA 80 80 ? A 105.730 120.049 168.035 1 1 B ALA 0.630 1
ATOM 142 C CB . ALA 80 80 ? A 107.190 121.887 165.786 1 1 B ALA 0.630 1
ATOM 143 N N . LEU 81 81 ? A 105.091 119.481 165.942 1 1 B LEU 0.650 1
ATOM 144 C CA . LEU 81 81 ? A 103.812 118.900 166.287 1 1 B LEU 0.650 1
ATOM 145 C C . LEU 81 81 ? A 103.913 117.621 167.105 1 1 B LEU 0.650 1
ATOM 146 O O . LEU 81 81 ? A 103.279 117.513 168.153 1 1 B LEU 0.650 1
ATOM 147 C CB . LEU 81 81 ? A 103.008 118.625 164.997 1 1 B LEU 0.650 1
ATOM 148 C CG . LEU 81 81 ? A 101.569 118.116 165.190 1 1 B LEU 0.650 1
ATOM 149 C CD1 . LEU 81 81 ? A 100.694 119.135 165.941 1 1 B LEU 0.650 1
ATOM 150 C CD2 . LEU 81 81 ? A 100.998 117.765 163.809 1 1 B LEU 0.650 1
ATOM 151 N N . GLU 82 82 ? A 104.741 116.632 166.698 1 1 B GLU 0.590 1
ATOM 152 C CA . GLU 82 82 ? A 104.943 115.409 167.462 1 1 B GLU 0.590 1
ATOM 153 C C . GLU 82 82 ? A 105.599 115.669 168.808 1 1 B GLU 0.590 1
ATOM 154 O O . GLU 82 82 ? A 105.175 115.134 169.832 1 1 B GLU 0.590 1
ATOM 155 C CB . GLU 82 82 ? A 105.677 114.310 166.655 1 1 B GLU 0.590 1
ATOM 156 C CG . GLU 82 82 ? A 107.152 114.598 166.303 1 1 B GLU 0.590 1
ATOM 157 C CD . GLU 82 82 ? A 107.778 113.527 165.409 1 1 B GLU 0.590 1
ATOM 158 O OE1 . GLU 82 82 ? A 107.082 112.534 165.077 1 1 B GLU 0.590 1
ATOM 159 O OE2 . GLU 82 82 ? A 108.971 113.714 165.057 1 1 B GLU 0.590 1
ATOM 160 N N . ARG 83 83 ? A 106.593 116.582 168.855 1 1 B ARG 0.570 1
ATOM 161 C CA . ARG 83 83 ? A 107.230 117.030 170.077 1 1 B ARG 0.570 1
ATOM 162 C C . ARG 83 83 ? A 106.280 117.696 171.054 1 1 B ARG 0.570 1
ATOM 163 O O . ARG 83 83 ? A 106.324 117.434 172.253 1 1 B ARG 0.570 1
ATOM 164 C CB . ARG 83 83 ? A 108.375 118.006 169.725 1 1 B ARG 0.570 1
ATOM 165 C CG . ARG 83 83 ? A 109.287 118.441 170.896 1 1 B ARG 0.570 1
ATOM 166 C CD . ARG 83 83 ? A 108.897 119.698 171.692 1 1 B ARG 0.570 1
ATOM 167 N NE . ARG 83 83 ? A 108.709 120.830 170.720 1 1 B ARG 0.570 1
ATOM 168 C CZ . ARG 83 83 ? A 109.689 121.568 170.181 1 1 B ARG 0.570 1
ATOM 169 N NH1 . ARG 83 83 ? A 109.386 122.498 169.274 1 1 B ARG 0.570 1
ATOM 170 N NH2 . ARG 83 83 ? A 110.965 121.401 170.508 1 1 B ARG 0.570 1
ATOM 171 N N . ARG 84 84 ? A 105.390 118.581 170.558 1 1 B ARG 0.610 1
ATOM 172 C CA . ARG 84 84 ? A 104.346 119.204 171.351 1 1 B ARG 0.610 1
ATOM 173 C C . ARG 84 84 ? A 103.332 118.199 171.871 1 1 B ARG 0.610 1
ATOM 174 O O . ARG 84 84 ? A 103.044 118.163 173.063 1 1 B ARG 0.610 1
ATOM 175 C CB . ARG 84 84 ? A 103.646 120.300 170.512 1 1 B ARG 0.610 1
ATOM 176 C CG . ARG 84 84 ? A 102.660 121.180 171.308 1 1 B ARG 0.610 1
ATOM 177 C CD . ARG 84 84 ? A 101.946 122.251 170.473 1 1 B ARG 0.610 1
ATOM 178 N NE . ARG 84 84 ? A 102.985 123.203 169.938 1 1 B ARG 0.610 1
ATOM 179 C CZ . ARG 84 84 ? A 103.471 124.257 170.611 1 1 B ARG 0.610 1
ATOM 180 N NH1 . ARG 84 84 ? A 103.038 124.564 171.828 1 1 B ARG 0.610 1
ATOM 181 N NH2 . ARG 84 84 ? A 104.411 125.022 170.054 1 1 B ARG 0.610 1
ATOM 182 N N . ARG 85 85 ? A 102.835 117.286 171.014 1 1 B ARG 0.630 1
ATOM 183 C CA . ARG 85 85 ? A 101.909 116.241 171.415 1 1 B ARG 0.630 1
ATOM 184 C C . ARG 85 85 ? A 102.485 115.277 172.445 1 1 B ARG 0.630 1
ATOM 185 O O . ARG 85 85 ? A 101.807 114.869 173.387 1 1 B ARG 0.630 1
ATOM 186 C CB . ARG 85 85 ? A 101.457 115.420 170.190 1 1 B ARG 0.630 1
ATOM 187 C CG . ARG 85 85 ? A 100.531 116.177 169.222 1 1 B ARG 0.630 1
ATOM 188 C CD . ARG 85 85 ? A 100.221 115.323 167.995 1 1 B ARG 0.630 1
ATOM 189 N NE . ARG 85 85 ? A 99.282 116.096 167.125 1 1 B ARG 0.630 1
ATOM 190 C CZ . ARG 85 85 ? A 98.885 115.676 165.916 1 1 B ARG 0.630 1
ATOM 191 N NH1 . ARG 85 85 ? A 99.355 114.550 165.390 1 1 B ARG 0.630 1
ATOM 192 N NH2 . ARG 85 85 ? A 98.034 116.410 165.201 1 1 B ARG 0.630 1
ATOM 193 N N . TRP 86 86 ? A 103.769 114.890 172.290 1 1 B TRP 0.650 1
ATOM 194 C CA . TRP 86 86 ? A 104.476 114.113 173.288 1 1 B TRP 0.650 1
ATOM 195 C C . TRP 86 86 ? A 104.618 114.855 174.608 1 1 B TRP 0.650 1
ATOM 196 O O . TRP 86 86 ? A 104.360 114.285 175.666 1 1 B TRP 0.650 1
ATOM 197 C CB . TRP 86 86 ? A 105.869 113.668 172.774 1 1 B TRP 0.650 1
ATOM 198 C CG . TRP 86 86 ? A 106.601 112.736 173.743 1 1 B TRP 0.650 1
ATOM 199 C CD1 . TRP 86 86 ? A 106.291 111.445 174.061 1 1 B TRP 0.650 1
ATOM 200 C CD2 . TRP 86 86 ? A 107.671 113.133 174.605 1 1 B TRP 0.650 1
ATOM 201 N NE1 . TRP 86 86 ? A 107.122 110.998 175.059 1 1 B TRP 0.650 1
ATOM 202 C CE2 . TRP 86 86 ? A 107.981 112.001 175.421 1 1 B TRP 0.650 1
ATOM 203 C CE3 . TRP 86 86 ? A 108.367 114.322 174.761 1 1 B TRP 0.650 1
ATOM 204 C CZ2 . TRP 86 86 ? A 108.989 112.069 176.361 1 1 B TRP 0.650 1
ATOM 205 C CZ3 . TRP 86 86 ? A 109.390 114.380 175.711 1 1 B TRP 0.650 1
ATOM 206 C CH2 . TRP 86 86 ? A 109.705 113.263 176.500 1 1 B TRP 0.650 1
ATOM 207 N N . LEU 87 87 ? A 104.984 116.151 174.572 1 1 B LEU 0.670 1
ATOM 208 C CA . LEU 87 87 ? A 105.110 116.992 175.746 1 1 B LEU 0.670 1
ATOM 209 C C . LEU 87 87 ? A 103.800 117.158 176.506 1 1 B LEU 0.670 1
ATOM 210 O O . LEU 87 87 ? A 103.766 116.985 177.726 1 1 B LEU 0.670 1
ATOM 211 C CB . LEU 87 87 ? A 105.666 118.372 175.331 1 1 B LEU 0.670 1
ATOM 212 C CG . LEU 87 87 ? A 105.980 119.337 176.490 1 1 B LEU 0.670 1
ATOM 213 C CD1 . LEU 87 87 ? A 107.043 118.774 177.447 1 1 B LEU 0.670 1
ATOM 214 C CD2 . LEU 87 87 ? A 106.409 120.703 175.933 1 1 B LEU 0.670 1
ATOM 215 N N . ASP 88 88 ? A 102.683 117.420 175.793 1 1 B ASP 0.650 1
ATOM 216 C CA . ASP 88 88 ? A 101.350 117.492 176.358 1 1 B ASP 0.650 1
ATOM 217 C C . ASP 88 88 ? A 100.943 116.160 177.000 1 1 B ASP 0.650 1
ATOM 218 O O . ASP 88 88 ? A 100.534 116.120 178.160 1 1 B ASP 0.650 1
ATOM 219 C CB . ASP 88 88 ? A 100.330 117.930 175.263 1 1 B ASP 0.650 1
ATOM 220 C CG . ASP 88 88 ? A 100.539 119.374 174.807 1 1 B ASP 0.650 1
ATOM 221 O OD1 . ASP 88 88 ? A 101.216 120.149 175.528 1 1 B ASP 0.650 1
ATOM 222 O OD2 . ASP 88 88 ? A 100.000 119.722 173.721 1 1 B ASP 0.650 1
ATOM 223 N N . SER 89 89 ? A 101.147 115.014 176.307 1 1 B SER 0.660 1
ATOM 224 C CA . SER 89 89 ? A 100.902 113.669 176.841 1 1 B SER 0.660 1
ATOM 225 C C . SER 89 89 ? A 101.750 113.355 178.063 1 1 B SER 0.660 1
ATOM 226 O O . SER 89 89 ? A 101.258 112.837 179.063 1 1 B SER 0.660 1
ATOM 227 C CB . SER 89 89 ? A 101.135 112.568 175.756 1 1 B SER 0.660 1
ATOM 228 O OG . SER 89 89 ? A 100.937 111.220 176.208 1 1 B SER 0.660 1
ATOM 229 N N . TYR 90 90 ? A 103.051 113.706 178.044 1 1 B TYR 0.690 1
ATOM 230 C CA . TYR 90 90 ? A 103.952 113.562 179.171 1 1 B TYR 0.690 1
ATOM 231 C C . TYR 90 90 ? A 103.507 114.388 180.376 1 1 B TYR 0.690 1
ATOM 232 O O . TYR 90 90 ? A 103.440 113.879 181.492 1 1 B TYR 0.690 1
ATOM 233 C CB . TYR 90 90 ? A 105.386 113.946 178.715 1 1 B TYR 0.690 1
ATOM 234 C CG . TYR 90 90 ? A 106.422 113.718 179.779 1 1 B TYR 0.690 1
ATOM 235 C CD1 . TYR 90 90 ? A 106.852 112.422 180.094 1 1 B TYR 0.690 1
ATOM 236 C CD2 . TYR 90 90 ? A 106.963 114.804 180.483 1 1 B TYR 0.690 1
ATOM 237 C CE1 . TYR 90 90 ? A 107.824 112.217 181.083 1 1 B TYR 0.690 1
ATOM 238 C CE2 . TYR 90 90 ? A 107.936 114.600 181.473 1 1 B TYR 0.690 1
ATOM 239 C CZ . TYR 90 90 ? A 108.371 113.304 181.766 1 1 B TYR 0.690 1
ATOM 240 O OH . TYR 90 90 ? A 109.356 113.082 182.747 1 1 B TYR 0.690 1
ATOM 241 N N . MET 91 91 ? A 103.121 115.664 180.171 1 1 B MET 0.700 1
ATOM 242 C CA . MET 91 91 ? A 102.566 116.499 181.222 1 1 B MET 0.700 1
ATOM 243 C C . MET 91 91 ? A 101.251 115.972 181.781 1 1 B MET 0.700 1
ATOM 244 O O . MET 91 91 ? A 101.042 115.986 182.989 1 1 B MET 0.700 1
ATOM 245 C CB . MET 91 91 ? A 102.386 117.965 180.763 1 1 B MET 0.700 1
ATOM 246 C CG . MET 91 91 ? A 101.955 118.911 181.906 1 1 B MET 0.700 1
ATOM 247 S SD . MET 91 91 ? A 101.711 120.641 181.411 1 1 B MET 0.700 1
ATOM 248 C CE . MET 91 91 ? A 103.470 121.054 181.263 1 1 B MET 0.700 1
ATOM 249 N N . GLN 92 92 ? A 100.343 115.468 180.927 1 1 B GLN 0.710 1
ATOM 250 C CA . GLN 92 92 ? A 99.114 114.808 181.340 1 1 B GLN 0.710 1
ATOM 251 C C . GLN 92 92 ? A 99.308 113.524 182.130 1 1 B GLN 0.710 1
ATOM 252 O O . GLN 92 92 ? A 98.504 113.209 182.994 1 1 B GLN 0.710 1
ATOM 253 C CB . GLN 92 92 ? A 98.214 114.502 180.127 1 1 B GLN 0.710 1
ATOM 254 C CG . GLN 92 92 ? A 97.630 115.773 179.483 1 1 B GLN 0.710 1
ATOM 255 C CD . GLN 92 92 ? A 96.849 115.431 178.221 1 1 B GLN 0.710 1
ATOM 256 O OE1 . GLN 92 92 ? A 97.055 114.405 177.562 1 1 B GLN 0.710 1
ATOM 257 N NE2 . GLN 92 92 ? A 95.905 116.320 177.847 1 1 B GLN 0.710 1
ATOM 258 N N . LYS 93 93 ? A 100.352 112.731 181.824 1 1 B LYS 0.700 1
ATOM 259 C CA . LYS 93 93 ? A 100.775 111.604 182.643 1 1 B LYS 0.700 1
ATOM 260 C C . LYS 93 93 ? A 101.370 111.966 183.998 1 1 B LYS 0.700 1
ATOM 261 O O . LYS 93 93 ? A 101.232 111.207 184.959 1 1 B LYS 0.700 1
ATOM 262 C CB . LYS 93 93 ? A 101.824 110.749 181.900 1 1 B LYS 0.700 1
ATOM 263 C CG . LYS 93 93 ? A 101.233 109.969 180.723 1 1 B LYS 0.700 1
ATOM 264 C CD . LYS 93 93 ? A 102.298 109.142 179.994 1 1 B LYS 0.700 1
ATOM 265 C CE . LYS 93 93 ? A 101.719 108.402 178.791 1 1 B LYS 0.700 1
ATOM 266 N NZ . LYS 93 93 ? A 102.783 107.627 178.122 1 1 B LYS 0.700 1
ATOM 267 N N . LEU 94 94 ? A 102.135 113.071 184.073 1 1 B LEU 0.800 1
ATOM 268 C CA . LEU 94 94 ? A 102.641 113.647 185.311 1 1 B LEU 0.800 1
ATOM 269 C C . LEU 94 94 ? A 101.583 114.301 186.203 1 1 B LEU 0.800 1
ATOM 270 O O . LEU 94 94 ? A 101.708 114.259 187.429 1 1 B LEU 0.800 1
ATOM 271 C CB . LEU 94 94 ? A 103.767 114.678 185.033 1 1 B LEU 0.800 1
ATOM 272 C CG . LEU 94 94 ? A 105.203 114.112 185.083 1 1 B LEU 0.800 1
ATOM 273 C CD1 . LEU 94 94 ? A 105.518 113.106 183.967 1 1 B LEU 0.800 1
ATOM 274 C CD2 . LEU 94 94 ? A 106.212 115.271 185.056 1 1 B LEU 0.800 1
ATOM 275 N N . LEU 95 95 ? A 100.589 114.977 185.597 1 1 B LEU 0.830 1
ATOM 276 C CA . LEU 95 95 ? A 99.442 115.580 186.256 1 1 B LEU 0.830 1
ATOM 277 C C . LEU 95 95 ? A 98.365 114.538 186.695 1 1 B LEU 0.830 1
ATOM 278 O O . LEU 95 95 ? A 98.428 113.356 186.265 1 1 B LEU 0.830 1
ATOM 279 C CB . LEU 95 95 ? A 98.847 116.681 185.314 1 1 B LEU 0.830 1
ATOM 280 C CG . LEU 95 95 ? A 97.746 117.592 185.909 1 1 B LEU 0.830 1
ATOM 281 C CD1 . LEU 95 95 ? A 98.248 118.397 187.121 1 1 B LEU 0.830 1
ATOM 282 C CD2 . LEU 95 95 ? A 97.103 118.520 184.856 1 1 B LEU 0.830 1
ATOM 283 O OXT . LEU 95 95 ? A 97.473 114.922 187.506 1 1 B LEU 0.830 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 0.667
2 1 3 0.245
#
#
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 62 SER 1 0.660
2 1 A 63 LEU 1 0.500
3 1 A 64 ALA 1 0.750
4 1 A 65 LEU 1 0.720
5 1 A 66 ALA 1 0.700
6 1 A 67 ASP 1 0.720
7 1 A 68 ASP 1 0.710
8 1 A 69 ALA 1 0.700
9 1 A 70 ALA 1 0.700
10 1 A 71 PHE 1 0.730
11 1 A 72 ARG 1 0.690
12 1 A 73 GLU 1 0.660
13 1 A 74 ARG 1 0.640
14 1 A 75 ALA 1 0.620
15 1 A 76 ARG 1 0.600
16 1 A 77 LEU 1 0.610
17 1 A 78 LEU 1 0.620
18 1 A 79 ALA 1 0.610
19 1 A 80 ALA 1 0.630
20 1 A 81 LEU 1 0.650
21 1 A 82 GLU 1 0.590
22 1 A 83 ARG 1 0.570
23 1 A 84 ARG 1 0.610
24 1 A 85 ARG 1 0.630
25 1 A 86 TRP 1 0.650
26 1 A 87 LEU 1 0.670
27 1 A 88 ASP 1 0.650
28 1 A 89 SER 1 0.660
29 1 A 90 TYR 1 0.690
30 1 A 91 MET 1 0.700
31 1 A 92 GLN 1 0.710
32 1 A 93 LYS 1 0.700
33 1 A 94 LEU 1 0.800
34 1 A 95 LEU 1 0.830
#
#
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
#