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SWISS-MODEL Homology Modelling Report |
Model Building Report
This document lists the results for the homology modelling project "13_July_SF_Bin2_scaffold_7244_c1_4398-5624_1" submitted to SWISS-MODEL workspace on March 29, 2023, 7:37 p.m..The submitted primary amino acid sequence is given in Table T1.
If you use any results in your research, please cite the relevant publications:
- Waterhouse, A., Bertoni, M., Bienert, S., Studer, G., Tauriello, G., Gumienny, R.,
Heer, F.T., de Beer, T.A.P., Rempfer, C., Bordoli, L., Lepore, R., Schwede, T.
SWISS-MODEL: homology modelling of protein structures and complexes.
Nucleic Acids Res. 46(W1), W296-W303 (2018).
- Bienert, S., Waterhouse, A., de Beer, T.A.P., Tauriello, G., Studer,
G., Bordoli, L., Schwede, T. The SWISS-MODEL Repository - new features and
functionality. Nucleic Acids Res. 45, D313-D319 (2017).
- Studer, G., Tauriello, G., Bienert, S.,
Biasini, M., Johner, N., Schwede, T. ProMod3 - A versatile homology
modelling toolbox. PLOS Comp. Biol. 17(1), e1008667 (2021).
- Studer, G., Rempfer, C., Waterhouse, A.M.,
Gumienny, G., Haas, J., Schwede, T. QMEANDisCo - distance constraints
applied on model quality estimation. Bioinformatics 36, 1765-1771 (2020).
- Bertoni, M., Kiefer, F., Biasini, M., Bordoli, L.,
Schwede, T. Modeling protein quaternary structure of homo- and
hetero-oligomers beyond binary interactions by homology. Scientific
Reports 7 (2017).
Results
The SWISS-MODEL template library (SMTL version 2023-03-23, PDB release 2023-03-17) was searched with for evolutionary related structures matching the target sequence in Table T1. For details on the template search, see Materials and Methods. Overall 444 templates were found (Table T2).
Models
The following models were built (see Materials and Methods "Model Building"):
Model #01 |
File | Built with | Oligo-State | Ligands | GMQE | QMEANDisCo Global |
|---|---|---|---|---|---|---|
|
PDB | ProMod3 3.2.1 | monomer |
None
|
0.68 | 0.66 ± 0.05 |
|
|
| Template | Seq Identity | Oligo-state | QSQE | Found by | Method | Resolution | Seq Similarity | Range | Coverage | Description |
|---|---|---|---|---|---|---|---|---|---|---|
| 7b04.1.B | 45.15 | monomer | 0.00 | BLAST | X-ray | 2.97Å | 0.43 | 30 - 396 | 0.96 | Nitrite oxidoreductase subunit A |
Excluded ligands
| Ligand Name.Number | Reason for Exclusion | Description |
|---|---|---|
| CA.10 | Binding site not conserved. | CALCIUM ION |
| CA.11 | Binding site not conserved. | CALCIUM ION |
| F3S.4 | Binding site not conserved. | FE3-S4 CLUSTER |
| HEM.9 | Binding site not conserved. | PROTOPORPHYRIN IX CONTAINING FE |
| MD1.5 | Binding site not conserved. | PHOSPHORIC ACID 4-(2-AMINO-4-OXO-3,4,5,6,-TETRAHYDRO-PTERIDIN-6-YL)-2-HYDROXY-3,4-DIMERCAPTO-BUT-3-EN-YL ESTER GUANYLATE ESTER |
| MD1.6 | Binding site not conserved. | PHOSPHORIC ACID 4-(2-AMINO-4-OXO-3,4,5,6,-TETRAHYDRO-PTERIDIN-6-YL)-2-HYDROXY-3,4-DIMERCAPTO-BUT-3-EN-YL ESTER GUANYLATE ESTER |
| MO.7 | Binding site not conserved. | MOLYBDENUM ATOM |
| SF4.1 | Binding site not conserved. | IRON/SULFUR CLUSTER |
| SF4.2 | Binding site not conserved. | IRON/SULFUR CLUSTER |
| SF4.3 | Binding site not conserved. | IRON/SULFUR CLUSTER |
| SF4.8 | Binding site not conserved. | IRON/SULFUR CLUSTER |
Target NNVNRREFLQWIGAAGFSTFALSASNAWGLQ------AIENPLAAYPNREWEKTYRDLWKSDASFTFLCAPNDTHNCILN
7b04.1.B --LTRRAFLQVAGATG-ATLTL-AKNAMAFRLLKPAVVVDNPLDTYPDRRWESVYRDQYQYDRTFTYCCSPNDTHACRIR
Target AHVRDGVITRIGPTMKYGEATDLYGSKVTHRWDPRVCQKGLALTRRFYGDRRVRYPMVRKGFKAWADKGFPREKDGRPPK
7b04.1.B AFVRNNVMMRVEQNYDHQNYSDLYGNKATRNWNPRMCLKGYTFHRRVYGPYRLRYPLIRKGWKRWADDGFPELTPENKTK
Target DYF-NRARDEWLRLTHEEAADLVAAALINIATTYSGDNGQKLLLQQGYEKEIVEATRGAGTQVLKFRGGMPLLGLTRIFG
7b04.1.B YMFDNRGNDELLRASWDEAFTYASKGIIHITKKYSGPEGAQKLIDQGYPKEMVDRMQGAGTRTFKGRGGMGLLGVIGKYG
Target LYRMANSMALLDHKIRGVKPEDALGARGWDNYSWHTDLPPGHPMVTGQQTVDFDLHAVEQARIVVVWGMNWVTTKMPDTH
7b04.1.B MYRFNNCLAIVDAHNRGVGPDQALGGRNWSNYTWHGDQAPGHPFSHGLQTSDVDMNDVRFSKLLIQTGKNLIENKMPEAH
Target WLTEARLKGTKVVVIACEYSSSSIKADDAIVVRPGTTPALALGLCNVIMREKIYDGDYVRRFSDLPLLVRADNLKLLRAE
7b04.1.B WVTEVMERGGKIVVITPEYSPSAQKADYWIPIRNNTDTALFLGITKILIDNKWYDADYVKKFTDFPLLIRTDTLKRVSPK
Target EVFGTPQAALKNQTR
7b04.1.B DII------------
Model #03 |
File | Built with | Oligo-State | Ligands | GMQE | QMEANDisCo Global |
|---|---|---|---|---|---|---|
|
PDB | ProMod3 3.2.1 | monomer |
None
|
0.41 | 0.46 ± 0.05 |
|
|
| Template | Seq Identity | Oligo-state | QSQE | Found by | Method | Resolution | Seq Similarity | Range | Coverage | Description |
|---|---|---|---|---|---|---|---|---|---|---|
| 1e5v.2.A | 24.29 | monomer | 0.00 | HHblits | X-ray | 2.40Å | 0.31 | 56 - 408 | 0.78 | Dimethyl sulfoxide/trimethylamine N-oxide reductase |
Excluded ligands
| Ligand Name.Number | Reason for Exclusion | Description |
|---|---|---|
| 2MO.3 | Binding site not conserved. | MOLYBDENUM (IV)OXIDE |
| PGD.1 | Binding site not conserved. | 2-AMINO-5,6-DIMERCAPTO-7-METHYL-3,7,8A,9-TETRAHYDRO-8-OXA-1,3,9,10-TETRAAZA-ANTHRACEN-4-ONE GUANOSINE DINUCLEOTIDE |
| PGD.2 | Binding site not conserved. | 2-AMINO-5,6-DIMERCAPTO-7-METHYL-3,7,8A,9-TETRAHYDRO-8-OXA-1,3,9,10-TETRAAZA-ANTHRACEN-4-ONE GUANOSINE DINUCLEOTIDE |
| SO4.4 | Not biologically relevant. | SULFATE ION |
Target NNVNRREFLQWIGAAGFSTFALSASNAWGLQAIENPLAAYPNREWEKTYRDLWKSDASFTFLCAPNDTHNCI-LNAHVRD
1e5v.2.A -ELYRRAFLSYSVAPGALGMFGR-SL---LAK-----GARA--EA----------LAN---GT-VMSGSHWGVFTATVEN
Target GVITRIGPTMKYGEATDLYGSKVTHRWDPRVCQKGLALTRRFYGDRRVRYPMVRKGFKAWADKGFPREKDGRPPKDYFNR
1e5v.2.A GRATAFTPWEK------------DP----HPSPMLAGVLDSIYSPTRIKYPMVRREFL---EKGVN--------ADRSTR
Target ARDEWLRLTHEEAADLVAAALINIATTYSGDNGQKLLLQQGYEKEIVEATRGAGTQVLKFRGGMPLLGLTRIFGLYRMAN
1e5v.2.A GNGDFVRVSWDQALDLVAAEVKRVEETYGPEG---VFGG-SYGWKSPGRLHNCTTLLRRM---------LTLAGGY--VN
Target SMALLDHKIRGVKPEDALGARGWDNYSWH-----TDLPPGHPMVTGQQTVDFDLHAVEQARIVVVWGMNWVTTKMPD---
1e5v.2.A GA---------------------GDYSTGAAQVIMPHVVGTLEVYEQQ--TAWPVLAENTEVMVFWAADPIKTSQIGWVI
Target -----THWLTEARLKGTKVVVIACEYSSSSIK-ADDAIVVRPGTTPALALGLCNVIMREKIYDGDYVRRFSDLPL----L
1e5v.2.A PEHGAYPGLEALKAKGTKVIVIDPVRTKTVEFFGAEHITPKPQTDVAIMLGMAHTLVAEDLYDKDFIANYTSGFDKFLPY
Target VR----ADNLKLLRAEEVFGTPQAALKNQTR
1e5v.2.A LDGETDSTPKTAEWAEGISGVPAETIKELAR
Model #02 |
File | Built with | Oligo-State | Ligands | GMQE | QMEANDisCo Global |
|---|---|---|---|---|---|---|
|
PDB | ProMod3 3.2.1 | monomer |
None
|
0.39 | 0.45 ± 0.05 |
|
|
| Template | Seq Identity | Oligo-state | QSQE | Found by | Method | Resolution | Seq Similarity | Range | Coverage | Description |
|---|---|---|---|---|---|---|---|---|---|---|
| 3ir5.1.A | 30.49 | monomer | 0.00 | BLAST | X-ray | 2.30Å | 0.37 | 42 - 382 | 0.75 | Respiratory nitrate reductase 1 alpha chain |
Excluded ligands
| Ligand Name.Number | Reason for Exclusion | Description |
|---|---|---|
| 6MO.3 | Binding site not conserved. | MOLYBDENUM(VI) ION |
| AGA.5 | Binding site not conserved. | (1S)-2-{[{[(2S)-2,3-DIHYDROXYPROPYL]OXY}(HYDROXY)PHOSPHORYL]OXY}-1-[(PENTANOYLOXY)METHYL]ETHYL OCTANOATE |
| F3S.9 | Binding site not conserved. | FE3-S4 CLUSTER |
| HEM.10 | Binding site not conserved. | PROTOPORPHYRIN IX CONTAINING FE |
| HEM.11 | Binding site not conserved. | PROTOPORPHYRIN IX CONTAINING FE |
| MD1.1 | Binding site not conserved. | PHOSPHORIC ACID 4-(2-AMINO-4-OXO-3,4,5,6,-TETRAHYDRO-PTERIDIN-6-YL)-2-HYDROXY-3,4-DIMERCAPTO-BUT-3-EN-YL ESTER GUANYLATE ESTER |
| MD1.2 | Binding site not conserved. | PHOSPHORIC ACID 4-(2-AMINO-4-OXO-3,4,5,6,-TETRAHYDRO-PTERIDIN-6-YL)-2-HYDROXY-3,4-DIMERCAPTO-BUT-3-EN-YL ESTER GUANYLATE ESTER |
| SF4.4 | Binding site not conserved. | IRON/SULFUR CLUSTER |
| SF4.6 | Binding site not conserved. | IRON/SULFUR CLUSTER |
| SF4.7 | Binding site not conserved. | IRON/SULFUR CLUSTER |
| SF4.8 | Binding site not conserved. | IRON/SULFUR CLUSTER |
Target NNVNRREFLQWIGAAGFSTFALSASNAWGLQAIENPLAAYPNREWEKTYRDLWKSDASFTFLCAPNDTHNCILNAHVRDG
3ir5.1.A -----------------------------------------NRDWEDGYRQRWQHDKIVRSTCGVNCTGSCSWKIYVKNG
Target VITRIGPTMKYGEA-TDLYGSKVTHRWDPRVCQKGLALTRRFYGDRRVRYPMVRKGF-KAWADKGFPREKDGRPPKDYFN
3ir5.1.A LVTWETQQTDYPRTRPDLPNH------EPRGCPRGASYSWYLYSANRLKYPMMRKRLMKMW-----------REAKALHS
Target RARDEWLRLTHEEAADLVAAALINIATTYSGDNGQKLLLQQGYEKEIVEATRGAGTQVLKFRGGMPLLGLTRIFGLYRMA
3ir5.1.A DPVEAWASII--EDADK--------AKSFKQARGRGGFVRSSWQ-EVNELIAASNVYTIKNYGPDRVAGFSPI-------
Target NSMALLDHKIRGVKPEDALGARGWDNYSWHTDLPPGHPMVTGQQTVDFDLHAVEQARIVVVWGMNWVTTKMPDTHWLTEA
3ir5.1.A PAMSMVSYA-SGARYLSLIGGTCLSFYDWYCDLPPASPQTWGEQTDVPESADWYNSSYIIAWGSNVPQTRTPDAHFFTEV
Target RLKGTKVVVIACEYSSSSIKADDAIVVRPGTTPALALGLCNVIMRE------KIYDGDYVRRFSDLPLLVRADNLKLLRA
3ir5.1.A RYKGTKTVAVTPDYAEIAKLCDLWLAPKQGTDAAMALAMGHVMLREFHLDNPSQYFTDYVRRYTDMPMLV----------
Target EEVFGTPQAALKNQTR
3ir5.1.A ----------------
Model #04 |
File | Built with | Oligo-State | Ligands | GMQE | QMEANDisCo Global |
|---|---|---|---|---|---|---|
|
PDB | ProMod3 3.2.1 | monomer |
None
|
0.30 | 0.43 ± 0.05 |
|
|
| Template | Seq Identity | Oligo-state | QSQE | Found by | Method | Resolution | Seq Similarity | Range | Coverage | Description |
|---|---|---|---|---|---|---|---|---|---|---|
| 7l5i.1.A | 25.73 | monomer | 0.00 | BLAST | X-ray | 1.73Å | 0.35 | 77 - 377 | 0.59 | Trimethylamine-N-oxide reductase |
Excluded ligands
| Ligand Name.Number | Reason for Exclusion | Description |
|---|---|---|
| CL.6 | Not biologically relevant. | CHLORIDE ION |
| EPE.1 | Not biologically relevant. | 4-(2-HYDROXYETHYL)-1-PIPERAZINE ETHANESULFONIC ACID |
| EPE.2 | Not biologically relevant. | 4-(2-HYDROXYETHYL)-1-PIPERAZINE ETHANESULFONIC ACID |
| EPE.7 | Not biologically relevant. | 4-(2-HYDROXYETHYL)-1-PIPERAZINE ETHANESULFONIC ACID |
| MGD.3 | Binding site not conserved. | 2-AMINO-5,6-DIMERCAPTO-7-METHYL-3,7,8A,9-TETRAHYDRO-8-OXA-1,3,9,10-TETRAAZA-ANTHRACEN-4-ONE GUANOSINE DINUCLEOTIDE |
| MGD.4 | Binding site not conserved. | 2-AMINO-5,6-DIMERCAPTO-7-METHYL-3,7,8A,9-TETRAHYDRO-8-OXA-1,3,9,10-TETRAAZA-ANTHRACEN-4-ONE GUANOSINE DINUCLEOTIDE |
| MO.5 | Binding site not conserved. | MOLYBDENUM ATOM |
| O.8 | Binding site not conserved. | OXYGEN ATOM |
Target NNVNRREFLQWIGAAGFSTFALSASNAWGLQAIENPLAAYPNREWEKTYRDLWKSDASFTFLCAPNDTHNCILNAHVRDG
7l5i.1.A ----------------------------------------------------------------------------VQDG
Target VITRIGPTMKYGEATDLYGSKVTHRWDPRVCQKGLALTRRFYGDRRVRYPMVRKGFKAWADKGFPREKDGRPPKDYFNRA
7l5i.1.A KVVKSGPAIEPAVPNELQ----------------TVVADQLYSEARVKCPMVRKGFLANPGK-----------SDTTMRG
Target RDEWLRLTHEEAADLVAAALINIATTYSGDNGQKLLLQQGYEKEIVEATRGAGTQVLKFRGGMPLLGLTRIFGLYRMANS
7l5i.1.A RDEWVRVSWDEALDLVHNQLKRVRDEH-GSTGIFAGSYGWFSCGSLHASRTLLQRYMNATGG--FVGHK---GDYSTGAA
Target MALLDHKIRGVKPEDALGARGWDNYSWHTDLPPGHPMVTGQQTVDFDLHAVEQARIVVVWGMN--------WVTTKMPDT
7l5i.1.A QVIMPHVLGTIEVYE-------QQTSWESIL--------------------ESSDIIVLWSANPLTTMRIAWMSTDQKGI
Target HWLTEARLKGTKVVVIACEYSSSSIKAD-DAIVVRPGTTPALALGLCNVIMREKIYDGDYVRRFSDLPLLVRADNLKLLR
7l5i.1.A EYFKKFQASGKRIICIDPQKSETCQMLNAEWIPVNTATDVPLMLGIAHTLVEQGKHDKDFLKKYTS--------------
Target AEEVFGTPQAALKNQTR
7l5i.1.A -----------------
Materials and Methods
Template Search
Template search with has been performed against the SWISS-MODEL template library (SMTL, last update: 2023-03-23, last included PDB release: 2023-03-17).
Template Selection
For each identified template, the template's quality has been predicted from features of the target-template alignment. The templates with the highest quality have then been selected for model building.
Model Building
Models are built based on the target-template alignment using ProMod3 (Studer et al.). Coordinates which are conserved between the target and the template are copied from the template to the model. Insertions and deletions are remodelled using a fragment library. Side chains are then rebuilt. Finally, the geometry of the resulting model is regularized by using a force field.
Model Quality Estimation
The global and per-residue model quality has been assessed using the QMEAN scoring function (Studer et al.).
Ligand Modelling
Ligands present in the template structure are transferred by homology to the model when the following criteria are met: (a) The ligands are annotated as biologically relevant in the template library, (b) the ligand is in contact with the model, (c) the ligand is not clashing with the protein, (d) the residues in contact with the ligand are conserved between the target and the template. If any of these four criteria is not satisfied, a certain ligand will not be included in the model. The model summary includes information on why and which ligand has not been included.
Oligomeric State Conservation
The quaternary structure annotation of the template is used to model the target sequence in its oligomeric form. The method (Bertoni et al.) is based on a supervised machine learning algorithm, Support Vector Machines (SVM), which combines interface conservation, structural clustering, and other template features to provide a quaternary structure quality estimate (QSQE). The QSQE score is a number between 0 and 1, reflecting the expected accuracy of the interchain contacts for a model built based a given alignment and template. Higher numbers indicate higher reliability. This complements the GMQE score which estimates the accuracy of the tertiary structure of the resulting model.
References
- BLAST
Camacho, C., Coulouris, G., Avagyan, V., Ma, N., Papadopoulos, J., Bealer, K., Madden, T.L. BLAST+: architecture and applications. BMC Bioinformatics 10, 421-430 (2009).
- HHblits
Steinegger, M., Meier, M., Mirdita, M., Vöhringer, H., Haunsberger, S. J., Söding, J. HH-suite3 for fast remote homology detection and deep protein annotation. BMC Bioinformatics 20, 473 (2019).
Table T1:
Primary amino acid sequence for which templates were searched and models were built.
NNVNRREFLQWIGAAGFSTFALSASNAWGLQAIENPLAAYPNREWEKTYRDLWKSDASFTFLCAPNDTHNCILNAHVRDGVITRIGPTMKYGEATDLYGS
KVTHRWDPRVCQKGLALTRRFYGDRRVRYPMVRKGFKAWADKGFPREKDGRPPKDYFNRARDEWLRLTHEEAADLVAAALINIATTYSGDNGQKLLLQQG
YEKEIVEATRGAGTQVLKFRGGMPLLGLTRIFGLYRMANSMALLDHKIRGVKPEDALGARGWDNYSWHTDLPPGHPMVTGQQTVDFDLHAVEQARIVVVW
GMNWVTTKMPDTHWLTEARLKGTKVVVIACEYSSSSIKADDAIVVRPGTTPALALGLCNVIMREKIYDGDYVRRFSDLPLLVRADNLKLLRAEEVFGTPQ
AALKNQTR
KVTHRWDPRVCQKGLALTRRFYGDRRVRYPMVRKGFKAWADKGFPREKDGRPPKDYFNRARDEWLRLTHEEAADLVAAALINIATTYSGDNGQKLLLQQG
YEKEIVEATRGAGTQVLKFRGGMPLLGLTRIFGLYRMANSMALLDHKIRGVKPEDALGARGWDNYSWHTDLPPGHPMVTGQQTVDFDLHAVEQARIVVVW
GMNWVTTKMPDTHWLTEARLKGTKVVVIACEYSSSSIKADDAIVVRPGTTPALALGLCNVIMREKIYDGDYVRRFSDLPLLVRADNLKLLRAEEVFGTPQ
AALKNQTR
Table T2:
| Template | Seq Identity | Oligo-state | QSQE | Found by | Method | Resolution | Seq Similarity | Coverage | Description |
|---|---|---|---|---|---|---|---|---|---|
| 7b04.1.B | 45.15 | monomer | - | BLAST | X-ray | 2.97Å | 0.43 | 0.96 | Nitrite oxidoreductase subunit A |
| 7b04.2.B | 45.15 | monomer | - | BLAST | X-ray | 2.97Å | 0.43 | 0.96 | Nitrite oxidoreductase subunit A |
| 7b04.1.B | 43.98 | monomer | - | HHblits | X-ray | 2.97Å | 0.42 | 0.94 | Nitrite oxidoreductase subunit A |
| 7b04.2.B | 43.98 | monomer | - | HHblits | X-ray | 2.97Å | 0.42 | 0.94 | Nitrite oxidoreductase subunit A |
| 4ydd.1.A | 31.49 | monomer | - | BLAST | X-ray | 1.86Å | 0.37 | 0.71 | DMSO reductase family type II enzyme, molybdopterin subunit |
| 5e7o.1.A | 31.49 | monomer | - | BLAST | X-ray | 2.40Å | 0.37 | 0.71 | DMSO reductase family type II enzyme, molybdopterin subunit |
| 4ydd.1.A | 30.22 | monomer | - | HHblits | X-ray | 1.86Å | 0.36 | 0.68 | DMSO reductase family type II enzyme, molybdopterin subunit |
| 5e7o.1.A | 29.86 | monomer | - | HHblits | X-ray | 2.40Å | 0.35 | 0.68 | DMSO reductase family type II enzyme, molybdopterin subunit |
| 3ir7.1.A | 27.64 | monomer | - | HHblits | X-ray | 2.50Å | 0.34 | 0.79 | Respiratory nitrate reductase 1 alpha chain |
| 3ir5.1.A | 28.26 | monomer | - | HHblits | X-ray | 2.30Å | 0.35 | 0.79 | Respiratory nitrate reductase 1 alpha chain |
| 1r27.4.A | 27.95 | homo-dimer | 0.16 | HHblits | X-ray | 2.00Å | 0.35 | 0.79 | Respiratory nitrate reductase 1 alpha chain |
| 1q16.1.A | 27.33 | monomer | - | HHblits | X-ray | 1.90Å | 0.34 | 0.79 | Respiratory nitrate reductase 1 alpha chain |
| 3egw.1.A | 29.19 | homo-dimer | 0.15 | HHblits | X-ray | 1.90Å | 0.35 | 0.73 | Respiratory nitrate reductase 1 alpha chain |
| 6sdv.1.A | 18.96 | monomer | - | HHblits | X-ray | 1.90Å | 0.29 | 0.80 | Formate dehydrogenase, alpha subunit, selenocysteine-containing,Formate dehydrogenase, alpha subunit, selenocysteine-containing,W-formate dehydrogenase - alpha subunit |
| 3ir6.1.A | 27.02 | monomer | - | HHblits | X-ray | 2.80Å | 0.34 | 0.79 | Respiratory nitrate reductase 1 alpha chain |
| 6sdr.1.A | 19.27 | monomer | - | HHblits | X-ray | 2.10Å | 0.29 | 0.80 | Formate dehydrogenase, alpha subunit, selenocysteine-containing |
| 2ivf.1.A | 29.84 | monomer | - | HHblits | X-ray | 1.88Å | 0.34 | 0.77 | ETHYLBENZENE DEHYDROGENASE ALPHA-SUBUNIT |
| 3ir5.1.A | 30.49 | monomer | - | BLAST | X-ray | 2.30Å | 0.37 | 0.75 | Respiratory nitrate reductase 1 alpha chain |
| 3ir7.1.A | 30.16 | monomer | - | BLAST | X-ray | 2.50Å | 0.36 | 0.75 | Respiratory nitrate reductase 1 alpha chain |
| 1r27.4.A | 30.16 | homo-dimer | 0.13 | BLAST | X-ray | 2.00Å | 0.36 | 0.75 | Respiratory nitrate reductase 1 alpha chain |
| 3egw.1.A | 30.16 | homo-dimer | 0.13 | BLAST | X-ray | 1.90Å | 0.36 | 0.75 | Respiratory nitrate reductase 1 alpha chain |
| 8bqg.1.A | 18.43 | monomer | - | HHblits | X-ray | 1.95Å | 0.29 | 0.72 | Formate dehydrogenase, alpha subunit, selenocysteine-containing |
| 1q16.1.A | 30.16 | monomer | - | BLAST | X-ray | 1.90Å | 0.36 | 0.75 | Respiratory nitrate reductase 1 alpha chain |
| 3ir6.1.A | 30.16 | monomer | - | BLAST | X-ray | 2.80Å | 0.36 | 0.75 | Respiratory nitrate reductase 1 alpha chain |
| 1e5v.2.A | 24.29 | monomer | - | HHblits | X-ray | 2.40Å | 0.31 | 0.78 | Dimethyl sulfoxide/trimethylamine N-oxide reductase |
| 1e18.1.A | 23.66 | monomer | - | HHblits | X-ray | 2.00Å | 0.31 | 0.78 | DMSO REDUCTASE. |
| 2ivf.1.A | 36.07 | monomer | - | BLAST | X-ray | 1.88Å | 0.38 | 0.69 | ETHYLBENZENE DEHYDROGENASE ALPHA-SUBUNIT |
| 4dmr.1.A | 24.29 | monomer | - | HHblits | X-ray | 1.90Å | 0.31 | 0.78 | DMSO REDUCTASE |
| 1e60.1.A | 24.92 | monomer | - | HHblits | X-ray | 2.00Å | 0.31 | 0.78 | Dimethyl sulfoxide/trimethylamine N-oxide reductase |
| 2iv2.1.A | 19.93 | monomer | - | HHblits | X-ray | 2.27Å | 0.30 | 0.66 | Formate dehydrogenase H |
| 7z0t.1.G | 19.93 | monomer | - | HHblits | EM | NA | 0.30 | 0.66 | Formate dehydrogenase H |
| 1aa6.1.A | 19.93 | monomer | - | HHblits | X-ray | 2.30Å | 0.30 | 0.66 | FORMATE DEHYDROGENASE H |
| 1fdo.1.A | 19.93 | monomer | - | HHblits | X-ray | 2.80Å | 0.30 | 0.66 | FORMATE DEHYDROGENASE H |
| 7l5i.1.A | 25.73 | monomer | - | BLAST | X-ray | 1.73Å | 0.35 | 0.59 | Trimethylamine-N-oxide reductase |
| 7l5s.1.A | 25.73 | monomer | - | BLAST | X-ray | 2.09Å | 0.35 | 0.59 | Trimethylamine-N-oxide reductase |
| 1dms.1.A | 27.06 | monomer | - | BLAST | X-ray | 1.88Å | 0.34 | 0.63 | DMSO REDUCTASE |
| 6q8o.1.C | 19.91 | monomer | - | HHblits | X-ray | 3.61Å | 0.27 | 0.52 | NADH-quinone oxidoreductase subunit 3 |
| 3m9s.1.C | 19.91 | monomer | - | HHblits | X-ray | 4.50Å | 0.27 | 0.52 | NADH-quinone oxidoreductase subunit 3 |
| 6zjn.1.C | 19.91 | monomer | - | HHblits | EM | NA | 0.27 | 0.52 | NADH-quinone oxidoreductase subunit 3 |
| 6ziy.1.C | 19.91 | monomer | - | HHblits | EM | NA | 0.27 | 0.52 | NADH-quinone oxidoreductase subunit 3 |
| 7qsd.1.G | 16.91 | monomer | - | HHblits | EM | NA | 0.27 | 0.51 | NADH-ubiquinone oxidoreductase 75 kDa subunit, mitochondrial |
| 6g72.1.G | 16.59 | monomer | - | HHblits | EM | NA | 0.26 | 0.50 | NADH-ubiquinone oxidoreductase 75 kDa subunit, mitochondrial |
| 6zr2.1.G | 16.59 | monomer | - | HHblits | EM | 3.10Å | 0.26 | 0.50 | NADH-ubiquinone oxidoreductase 75 kDa subunit, mitochondrial |
| 2fug.2.C | 19.91 | monomer | - | HHblits | X-ray | 3.30Å | 0.27 | 0.52 | NADH-quinone oxidoreductase chain 3 |
| 6zjy.1.C | 19.91 | monomer | - | HHblits | EM | NA | 0.27 | 0.52 | NADH-quinone oxidoreductase subunit 3 |
| 7ak6.1.G | 16.59 | monomer | - | HHblits | EM | NA | 0.26 | 0.50 | NADH-ubiquinone oxidoreductase 75 kDa subunit, mitochondrial |
| 7vxu.1.L | 15.61 | monomer | - | HHblits | EM | NA | 0.27 | 0.50 | NADH-ubiquinone oxidoreductase 75 kDa subunit, mitochondrial |
| 6zjl.1.C | 19.91 | monomer | - | HHblits | EM | NA | 0.27 | 0.52 | NADH-quinone oxidoreductase subunit 3 |
| 6qc5.1.C | 16.59 | monomer | - | HHblits | EM | NA | 0.27 | 0.50 | NADH:ubiquinone oxidoreductase core subunit S1 |
| 6qcf.1.C | 16.59 | monomer | - | HHblits | EM | NA | 0.27 | 0.50 | NADH:ubiquinone oxidoreductase core subunit S1 |
The table above shows the top 50 filtered templates. A further 330 templates were found which were considered to be less suitable for modelling than the filtered list.
1aa6.1.A, 1be3.1.E, 1bgy.1.P, 1dms.1.A, 1e18.1.A, 1e5v.2.A, 1e60.1.A, 1eiw.1.A, 1eu1.1.A, 1fdo.1.A, 1fxk.1.C, 1g8j.1.A, 1g8k.1.A, 1h0h.1.A, 1ici.1.A, 1jeo.1.A, 1kb9.1.E, 1kqf.1.A, 1l0l.1.E, 1l0n.1.E, 1m2g.1.A, 1m2h.1.A, 1m2j.1.A, 1m2k.1.A, 1m2n.1.A, 1m2n.1.B, 1ma3.1.A, 1nri.1.A, 1ntk.1.E, 1ntm.1.E, 1ogy.1.A, 1q16.1.A, 1r27.4.A, 1s5p.1.A, 1s7g.1.A, 1s7g.1.B, 1s7g.1.C, 1s7g.1.D, 1s7g.1.E, 1sqb.1.E, 1sqp.1.P, 1sqq.1.P, 1sqv.1.E, 1tk9.1.A, 1tmo.1.A, 1tzb.1.A, 1tzb.1.B, 1vf5.1.D, 1vf5.1.L, 1vim.1.A, 1vim.1.D, 1viv.1.A, 1x94.1.A, 1x94.1.B, 1yc5.1.A, 1zrt.1.C, 1zrt.1.F, 2a3n.1.A, 2b4y.1.A, 2b4y.3.A, 2d2c.1.D, 2d2c.1.L, 2e75.1.D, 2e76.1.D, 2e7z.1.A, 2fug.2.C, 2fyn.1.C, 2fyn.2.C, 2fyu.1.E, 2h2i.1.A, 2h4h.1.A, 2h59.1.B, 2i2w.1.A, 2i2w.2.B, 2iv2.1.A, 2ivf.1.A, 2nya.1.A, 2nyr.1.A, 2nyr.1.B, 2pq4.1.B, 2qjk.1.C, 2qjp.1.C, 2qjy.3.F, 2v3v.1.A, 2v45.1.A, 2v4m.1.A, 2vpx.1.D, 2vpz.1.A, 2x3y.1.A, 2xbl.1.A, 2ybb.1.b, 2yva.1.A, 2zdi.1.C, 2zj4.1.A, 3egw.1.A, 3etn.1.A, 3eua.1.A, 3hba.1.A, 3hba.1.B, 3ir5.1.A, 3ir6.1.A, 3ir7.1.A, 3jr3.1.A, 3jwp.1.A, 3k35.1.A, 3m9s.1.C, 3o5a.1.A, 3pki.1.A, 3riy.2.A, 3sho.1.A, 3sho.1.C, 3u31.1.A, 3zg6.1.A, 4aay.1.A, 4bv2.3.A, 4d6t.1.E, 4dmr.1.A, 4g1c.1.A, 4g1c.2.A, 4h44.1.D, 4hda.1.A, 4hda.2.A, 4ivn.1.A, 4jja.1.A, 4lzj.1.A, 4lzj.1.B, 4lzj.2.B, 4m0d.1.A, 4m0d.2.A, 4m0d.2.B, 4ogq.1.L, 4pv1.1.L, 4s12.1.A, 4s12.2.A, 4s12.2.B, 4twi.1.A, 4twj.1.A, 4utn.1.A, 4utn.2.A, 4v4c.1.A, 4ydd.1.A, 5bwl.1.A, 5e7o.1.A, 5gpn.17.A, 5gpn.24.A, 5gpn.5.A, 5j8k.55.A, 5kkz.1.C, 5kli.1.C, 5klv.1.P, 5ltz.1.A, 5lu5.1.A, 5lu6.1.A, 5lu7.1.A, 5mf6.1.A, 5nmi.1.E, 5nqd.1.A, 5o31.1.8, 5oj7.1.A, 5ojn.1.A, 5okd.1.E, 5t5i.1.B, 5x16.1.A, 5xhs.1.A, 5xtb.1.L, 5xte.1.C, 5y2f.1.A, 6aco.1.A, 6acp.1.A, 6adq.1.L, 6btm.1.B, 6cz7.1.A, 6enx.1.A, 6eo0.1.A, 6eqs.3.A, 6f0k.1.B, 6fky.1.A, 6fky.2.A, 6flg.1.A, 6fo0.1.E, 6fo6.1.J, 6g72.1.G, 6gcs.1.A, 6giq.1.E, 6hu9.1.E, 6hwh.1.A, 6ljk.1.A, 6ljm.1.A, 6lod.1.B, 6nhg.1.E, 6nr8.1.C, 6nr8.1.E, 6nr9.1.S, 6nr9.1.U, 6nrb.1.S, 6nrb.1.U, 6nrc.1.C, 6nrc.1.E, 6nrd.1.S, 6nrd.1.U, 6o1x.1.A, 6o1x.2.A, 6o1y.1.A, 6o1y.2.A, 6q8o.1.C, 6q9e.1.E, 6q9e.1.O, 6qbx.15.A, 6qbx.5.A, 6qc2.33.A, 6qc2.43.A, 6qc3.15.A, 6qc3.5.A, 6qc4.15.A, 6qc4.5.A, 6qc5.1.C, 6qcf.1.C, 6r4i.1.A, 6r4i.1.B, 6rfq.1.A, 6rfs.1.A, 6rqf.1.D, 6rqf.1.L, 6rxj.1.A, 6rxm.1.A, 6rxm.2.A, 6rxm.3.A, 6rxm.4.A, 6rxm.5.A, 6rxm.6.A, 6rxo.1.A, 6rxo.2.A, 6rxp.2.A, 6rxq.4.A, 6rxs.1.A, 6s6y.1.B, 6sdr.1.A, 6sdv.1.A, 6t0b.1.E, 6t0b.1.O, 6t15.1.E, 6t15.1.O, 6tg9.1.A, 6vy1.1.A, 6vy1.1.G, 6vy1.1.M, 6x89.1.H, 6xvg.3.A, 6yj4.1.G, 6ymx.1.Q, 6ymx.1.Z, 6ziy.1.C, 6zjl.1.C, 6zjn.1.C, 6zjy.1.C, 6zk9.1.C, 6zmk.1.A, 6zmk.1.B, 6zr2.1.G, 7a23.1.O, 7ak5.1.G, 7ak6.1.G, 7aqr.1.F, 7ar7.1.G, 7ar8.1.G, 7arc.1.F, 7b04.1.B, 7b04.2.B, 7bkb.1.F, 7bkb.1.L, 7cl0.1.A, 7dgr.10.A, 7dgr.60.A, 7dgs.50.A, 7dgs.60.A, 7e1v.1.P, 7e5z.1.A, 7en5.1.A, 7en6.1.A, 7en6.1.B, 7en6.1.C, 7en6.1.D, 7jrg.1.E, 7l5i.1.A, 7l5s.1.A, 7nz1.1.E, 7o37.1.E, 7o37.1.O, 7o3c.1.E, 7o3c.1.O, 7o3h.1.E, 7o3h.1.O, 7p61.1.C, 7p63.1.C, 7q5y.1.A, 7qrm.1.D, 7qsd.1.G, 7qv7.1.L, 7qv7.1.O, 7r0w.1.L, 7r0w.1.Q, 7rh5.1.V, 7rja.1.H, 7rjb.1.I, 7t2r.1.A, 7t30.1.A, 7tce.2.F, 7tgh.58.A, 7tlj.1.C, 7tz6.1.E, 7tz6.1.P, 7v2c.1.L, 7vw6.1.A, 7vxu.1.L, 7z0t.1.G, 7zd6.1.4, 7zm7.1.I, 7zxy.1.D, 7zxy.1.L, 8asi.1.A, 8asi.1.E, 8asj.1.E, 8b9z.1.G, 8ba0.1.G, 8bel.1.B, 8bel.1.I, 8bpx.51.A, 8bqg.1.A, 8e73.55.A, 8e9g.1.G