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Class: Mainly Alpha (13335)
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Architecture: Up-down Bundle (3216)
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Topology: 3 helical TM bundles of succinate and fumarate reductases (23)
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Homologous Superfamily: Fumarate reductase respiratory complex transmembrane subunits (23)
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Chicken (Gallus gallus) (6)
1YQ3C:33-141; D:2-103AVIAN RESPIRATORY COMPLEX II WITH OXALOACETATE AND UBIQUINONE
1YQ4C:33-141; D:2-103AVIAN RESPIRATORY COMPLEX II WITH 3-NITROPROPIONATE AND UBIQUINONE
2FBWC:33-141; D:3-103; Q:3-103; P:33-141AVIAN RESPIRATORY COMPLEX II WITH CARBOXIN BOUND
2H88C:33-140; P:33-140; Q:3-103; D:3-103AVIAN MITOCHONDRIAL RESPIRATORY COMPLEX II AT 1.8 ANGSTROM RESOLUTION
2H89C:33-140; D:2-103AVIAN RESPIRATORY COMPLEX II WITH MALONATE BOUND
2WQYC:33-141; D:3-103; Q:3-103; P:33-141REMODELLING OF CARBOXIN BINDING TO THE Q-SITE OF AVIAN RESPIRATORY COMPLEX II
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Escherichia coli. Organism_taxid: 562. (5)
1L0VD:0-118; C:1-130; O:1-130; P:0-118QUINOL-FUMARATE REDUCTASE WITH MENAQUINOL MOLECULES
1NEKC:1-129; D:11-115COMPLEX II (SUCCINATE DEHYDROGENASE) FROM E. COLI WITH UBIQUINONE BOUND
1NENC:1-129; D:11-115COMPLEX II (SUCCINATE DEHYDROGENASE) FROM E. COLI WITH DINITROPHENOL-17 INHIBITOR CO-CRYSTALLIZED AT THE UBIQUINONE BINDING SITE
2B76D:0-118; C:1-130; O:1-130; P:0-118E. COLI QUINOL FUMARATE REDUCTASE FRDA E49Q MUTATION
3CIRD:0-118; C:1-130; O:1-130; P:0-118E. COLI QUINOL FUMARATE REDUCTASE FRDA T234A MUTATION
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Escherichia coli. Organism_taxid: 562. (10)
1KF6D:0-118; P:0-118; C:1-130; O:1-130E. COLI QUINOL-FUMARATE REDUCTASE WITH BOUND INHIBITOR HQNO
1KFYD:0-118; P:0-118; C:1-130; O:1-130QUINOL-FUMARATE REDUCTASE WITH QUINOL INHIBITOR 2-[1-(4-CHLORO-PHENYL)-ETHYL]-4,6-DINITRO-PHENOL
2ACZC:1-129; D:11-115COMPLEX II (SUCCINATE DEHYDROGENASE) FROM E. COLI WITH ATPENIN A5 INHIBITOR CO-CRYSTALLIZED AT THE UBIQUINONE BINDING SITE
2WDQC:8-128; G:8-128; K:8-128; D:11-115; H:11-115; L:11-115E. COLI SUCCINATE:QUINONE OXIDOREDUCTASE (SQR) WITH CARBOXIN BOUND
2WDRC:8-129; G:8-129; K:8-129; D:11-115; H:11-115; L:11-115E. COLI SUCCINATE:QUINONE OXIDOREDUCTASE (SQR) WITH PENTACHLOROPHENOL BOUND
2WDVC:8-128; G:8-128; K:8-128; D:11-115; H:11-115; L:11-115E. COLI SUCCINATE:QUINONE OXIDOREDUCTASE (SQR) WITH AN EMPTY QUINONE-BINDING POCKET
2WP9C:8-129; D:11-115; H:11-115; L:11-115; G:8-129; K:8-129CRYSTAL STRUCTURE OF THE E. COLI SUCCINATE:QUINONE OXIDOREDUCTASE (SQR) SDHB HIS207THR MUTANT
2WS3C:8-128; G:8-128; K:8-128; D:11-115; H:11-115; L:11-115CRYSTAL STRUCTURE OF THE E. COLI SUCCINATE:QUINONE OXIDOREDUCTASE (SQR) SDHD TYR83PHE MUTANT
2WU2C:8-129; G:8-129; K:8-129; D:11-115; H:11-115; L:11-115CRYSTAL STRUCTURE OF THE E. COLI SUCCINATE:QUINONE OXIDOREDUCTASE (SQR) SDHC HIS84MET MUTANT
2WU5C:8-129; D:11-115; H:11-115; L:11-115; G:8-129; K:8-129CRYSTAL STRUCTURE OF THE E. COLI SUCCINATE:QUINONE OXIDOREDUCTASE (SQR) SDHD HIS71MET MUTANT
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Pig (Sus scrofa) (2)
1ZOYC:36-143; D:35-136CRYSTAL STRUCTURE OF MITOCHONDRIAL RESPIRATORY COMPLEX II FROM PORCINE HEART AT 2.4 ANGSTROMS
1ZP0C:36-143; D:35-136CRYSTAL STRUCTURE OF MITOCHONDRIAL RESPIRATORY COMPLEX II BOUND WITH 3-NITROPROPIONATE AND 2-THENOYLTRIFLUOROACETONE
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Topology: 5 helical Cullin repeat like (4)
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Homologous Superfamily: Cullin Repeats (4)
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Human (Homo sapiens) (3)
1LDJA:177-299; A:300-414; A:415-529; A:17-176STRUCTURE OF THE CUL1-RBX1-SKP1-F BOXSKP2 SCF UBIQUITIN LIGASE COMPLEX
1LDKA:171-299; A:15-170; A:300-409; B:416-529STRUCTURE OF THE CUL1-RBX1-SKP1-F BOXSKP2 SCF UBIQUITIN LIGASE COMPLEX
1U6GA:177-298; A:17-176; A:299-413; A:414-528CRYSTAL STRUCTURE OF THE CAND1-CUL1-ROC1 COMPLEX
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Mouse (Mus musculus) (1)
2WZKA:147-273STRUCTURE OF THE CUL5 N-TERMINAL DOMAIN AT 2.05A RESOLUTION.
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Topology: A middle domain of Talin 1 (2)
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Homologous Superfamily: A middle domain of Talin 1 (2)
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House mouse (Mus musculus) (2)
1SJ7B:485-654; A:488-654; C:489-654CRYSTAL STRUCTURE OF TALIN ROD 482-655
1SJ8A:486-660CRYSTAL STRUCTURE OF TALIN RESIDUES 482-789
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Topology: ABC transporter ATPase like fold (1)
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Homologous Superfamily: ABC transporter ATPase like domain (1)
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Geobacillus stearothermophilus 10. Organism_taxid: 272567. Strain: 10. (1)
2R6FA:91-129,A:248-281,A:404-485; A:689-826CRYSTAL STRUCTURE OF BACILLUS STEAROTHERMOPHILUS UVRA
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Topology: ABC transporter transmembrane region fold (2)
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Homologous Superfamily: Putative multidrug export ATP-binding/permease protein like domains (2)
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Staphylococcus aureus. Organism_taxid: 1280. (1)
2HYDA:1-323; B:1-323MULTIDRUG ABC TRANSPORTER SAV1866
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Staphylococcus aureus. Organism_taxid: 1280. (1)
2ONJA:1-323; B:1-323STRUCTURE OF THE MULTIDRUG ABC TRANSPORTER SAV1866 FROM S. AUREUS IN COMPLEX WITH AMP-PNP
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Topology: Acyl-CoA Binding Protein (47)
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Homologous Superfamily: [code=1.20.80.10, no name defined] (37)
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[unclassified] (2)
1HB6A:1-86STRUCTURE OF BOVINE ACYL-COA BINDING PROTEIN IN ORTHORHOMBIC CRYSTAL FORM
1HB8A:1-86; B:1-86; C:1-86STRUCTURE OF BOVINE ACYL-COA BINDING PROTEIN IN TETRAGONAL CRYSTAL FORM
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Baker's yeast (Saccharomyces cerevisiae) (1)
1ST7A:1-86SOLUTION STRUCTURE OF ACYL COENZYME A BINDING PROTEIN FROM YEAST
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Cattle (Bos taurus) (4)
1ACAA:1-86THREE-DIMENSIONAL STRUCTURE OF THE COMPLEX BETWEEN ACYL-COENZYME A BINDING PROTEIN AND PALMITOYL-COENZYME A
1NTIA:1-86RDC-REFINED NMR STRUCTURE OF BOVINE ACYL-COENZYME A BINDING PROTEIN, ACBP
1NVLA:1-86RDC-REFINED NMR STRUCTURE OF BOVINE ACYL-COENZYME A BINDING PROTEIN, ACBP, IN COMPLEX WITH PALMITOYL-COENZYME A
2ABDA:1-86THE THREE-DIMENSIONAL STRUCTURE OF ACYL-COENZYME A BINDING PROTEIN FROM BOVINE LIVER. STRUCTURAL REFINEMENT USING HETERONUCLEAR MULTIDIMENSIONAL NMR SPECTROSCOPY
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Chicken (Gallus gallus) (1)
1MIXA:209-306CRYSTAL STRUCTURE OF A FERM DOMAIN OF TALIN
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House mouse (Mus musculus) (9)
1GC6A:83-199CRYSTAL STRUCTURE OF THE RADIXIN FERM DOMAIN COMPLEXED WITH INOSITOL-(1,4,5)-TRIPHOSPHATE
1GC7A:83-199CRYSTAL STRUCTURE OF THE RADIXIN FERM DOMAIN
1ISNA:100-215CRYSTAL STRUCTURE OF MERLIN FERM DOMAIN
1J19A:83-199CRYSTAL STRUCTURE OF THE RADXIN FERM DOMAIN COMPLEXED WITH THE ICAM-2 CYTOPLASMIC PEPTIDE
1Y19B:209-306; D:209-306; F:209-306; H:209-306; J:209-306; L:209-306STRUCTURAL BASIS FOR PHOSPHATIDYLINOSITOL PHOSPHATE KINASE TYPE I-GAMMA BINDING TO TALIN AT FOCAL ADHESIONS
2D10A:83-199; C:83-199; D:83-199; B:83-199CRYSTAL STRUCTURE OF THE RADIXIN FERM DOMAIN COMPLEXED WITH THE NHERF-1 C-TERMINAL TAIL PEPTIDE
2D11A:83-199; B:83-199; C:83-199; D:83-199CRYSTAL STRUCTURE OF THE RADIXIN FERM DOMAIN COMPLEXED WITH THE NHERF-2 C-TERMINAL TAIL PEPTIDE
2D2QA:83-199; B:83-199CRYSTAL STRUCTURE OF THE DIMERIZED RADIXIN FERM DOMAIN
2EMTA:83-199; B:83-199CRYSTAL STRUCTURE ANALYSIS OF THE RADIXIN FERM DOMAIN COMPLEXED WITH ADHESION MOLECULE PSGL-1
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Human (Homo sapiens) (13)
1E5WA:83-199STRUCTURE OF ISOLATED FERM DOMAIN AND FIRST LONG HELIX OF MOESIN
1EF1A:83-199; B:83-199CRYSTAL STRUCTURE OF THE MOESIN FERM DOMAIN/TAIL DOMAIN COMPLEX
1GG3A:79-184; B:79-184; C:79-184CRYSTAL STRUCTURE OF THE PROTEIN 4.1R MEMBRANE BINDING DOMAIN
1H4RA:99-215; B:99-215CRYSTAL STRUCTURE OF THE FERM DOMAIN OF MERLIN, THE NEUROFIBROMATOSIS 2 TUMOR SUPPRESSOR PROTEIN.
1MIZB:209-306CRYSTAL STRUCTURE OF AN INTEGRIN BETA3-TALIN CHIMERA
1MK7B:209-306; D:209-306CRYSTAL STRUCTURE OF AN INTEGRIN BETA3-TALIN CHIMERA
1MK9B:209-306; D:209-306; F:209-306; H:209-306CRYSTAL STRUCTURE OF AN INTEGRIN BETA3-TALIN CHIMERA
1NI2A:83-199; B:83-199STRUCTURE OF THE ACTIVE FERM DOMAIN OF EZRIN
1SGHA:85-200MOESIN FERM DOMAIN BOUND TO EBP50 C-TERMINAL PEPTIDE
2HE7A:188-295FERM DOMAIN OF EPB41L3 (DAL-1)
2WH5A:9-98; C:9-98; B:9-97; D:9-97; E:9-97; F:9-97CRYSTAL STRUCTURE OF HUMAN ACYL-COA BINDING DOMAIN 4 COMPLEXED WITH STEAROYL-COA
3BINA:188-295STRUCTURE OF THE DAL-1 AND TSLC1 (372-383) COMPLEX
3FLVA:3-94; B:3-91THE CRYSTAL STRUCTURE OF HUMAN ACYL-COENZYMEA BINDING DOMAIN CONTAINING 5
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Large hairy armadillo (Chaetophractus villosus) (1)
2FDQB:1-86CRYSTAL STRUCTURE OF ACBP FROM ARMADILLO HARDERIAN GLAND
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Moniliophthora perniciosa. Organism_taxid: 153609. (1)
3FP5A:1-106CRYSTAL STRUCTURE OF ACBP FROM MONILIOPHTHORA PERNICIOSA
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Mouse (Mus musculus) (4)
2EMSA:83-199CRYSTAL STRUCTURE ANALYSIS OF THE RADIXIN FERM DOMAIN COMPLEXED WITH ADHESION MOLECULE CD43
2YVCA:83-199; B:83-199; C:83-199CRYSTAL STRUCTURE OF THE RADIXIN FERM DOMAIN COMPLEXED WITH THE NEP CYTOPLASMIC TAIL
2ZPYA:83-199CRYSTAL STRUCTURE OF THE MOUSE RADXIN FERM DOMAIN COMPLEXED WITH THE MOUSE CD44 CYTOPLASMIC PEPTIDE
3G9WA:211-309; B:211-309CRYSTAL STRUCTURE OF TALIN2 F2-F3 IN COMPLEX WITH THE INTEGRIN BETA1D CYTOPLASMIC TAIL
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Plasmodium falciparum. Organism_taxid: 5833. (1)
1HBKA:0-88ACYL-COA BINDING PROTEIN FROM PLASMODIUM FALCIPARUM
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Homologous Superfamily: [code=1.20.80.30, no name defined] (10)
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Clostridium symbiosum. Organism_taxid: 1512. (5)
1DIKA:110-198PYRUVATE PHOSPHATE DIKINASE
1JDEA:110-198K22A MUTANT OF PYRUVATE, PHOSPHATE DIKINASE
1KBLA:110-198PYRUVATE PHOSPHATE DIKINASE
1KC7A:110-198PYRUVATE PHOSPHATE DIKINASE WITH BOUND MG-PHOSPHONOPYRUVATE
2R82A:110-196PYRUVATE PHOSPHATE DIKINASE (PPDK) TRIPLE MUTANT R219E/E271R/S262D ADAPTS A SECOND CONFORMATIONAL STATE
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Clostridium symbiosum. Organism_taxid: 1512. Strain: jm 101. (2)
1GGOA:110-198T453A MUTANT OF PYRUVATE, PHOSPHATE DIKINASE
2DIKA:110-198R337A MUTANT OF PYRUVATE PHOSPHATE DIKINASE
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Trypanosoma brucei. Organism_taxid: 5691. Strain: antat1. (1)
2X0SA:112-2063.0 A RESOLUTION CRYSTAL STRUCTURE OF GLYCOSOMAL PYRUVATE PHOSPHATE DIKINASE FROM TRYPANOSOMA BRUCEI
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Zea mays. Organism_taxid: 4577. (2)
1VBGA:115-199PYRUVATE PHOSPHATE DIKINASE FROM MAIZE
1VBHA:115-199PYRUVATE PHOSPHATE DIKINASE WITH BOUND MG-PEP FROM MAIZE
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Topology: ADP Ribosyl Cyclase; Chain A, domain 1 (29)
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Homologous Superfamily: ADP Ribosyl Cyclase; Chain A, domain 1 (29)
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California sea hare (Aplysia californica) (9)
1LBEA:1-67,A:100-151; B:1-67,B:100-151APLYSIA ADP RIBOSYL CYCLASE
1R0SA:1-67,A:100-151; B:1-67,B:100-151CRYSTAL STRUCTURE OF ADP-RIBOSYL CYCLASE GLU179ALA MUTANT
1R12A:1-67,A:100-151; B:1-67,B:100-151NATIVE APLYSIA ADP RIBOSYL CYCLASE
1R15A:1-67,A:100-151; B:1-67,B:100-151; C:1-67,C:100-151; D:1-67,D:100-151; E:1-67,E:100-151; F:1-67,F:100-151; G:1-67,G:100-151; H:1-67,H:100-151APLYSIA ADP RIBOSYL CYCLASE WITH BOUND NICOTINAMIDE AND R5P
1R16A:1-67,A:100-151; B:1-67,B:100-151APLYSIA ADP RIBOSYL CYCLASE WITH BOUND PYRIDYLCARBINOL AND R5P
3I9JA:1-67,A:100-151; B:1-67,B:100-151CRYSTAL STRUCTURE OF ADP RIBOSYL CYCLASE COMPLEXED WITH A SUBSTRATE ANALOG AND A PRODUCT NICOTINAMIDE
3I9KA:1-67,A:100-151; B:1-67,B:100-151CRYSTAL STRUCTURE OF ADP RIBOSYL CYCLASE COMPLEXED WITH SUBSTRATE NAD
3I9LA:1-67,A:100-151; B:1-67,B:100-151CRYSTAL STRUCTURE OF ADP RIBOSYL CYCLASE COMPLEXED WITH N1-CIDPR
3I9OA:1-67,A:100-151; B:1-67,B:100-151CRYSTAL STRUCTURE OF ADP RIBOSYL CYCLASE COMPLEXED WITH RIBO-2'F-ADP RIBOSE
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Human (Homo sapiens) (20)
1ISFA:2-68,A:96-150; B:2-68,B:96-150CRYSTAL STRUCTURE ANALYSIS OF BST-1/CD157
1ISGA:2-68,A:96-150; B:2-68,B:96-150CRYSTAL STRUCTURE ANALYSIS OF BST-1/CD157 WITH ATPGAMMAS
1ISHA:2-68,A:96-150; B:2-68,B:96-150CRYSTAL STRUCTURE ANALYSIS OF BST-1/CD157 COMPLEXED WITH ETHENONADP
1ISIA:2-68,A:96-150; B:2-68,B:96-150CRYSTAL STRUCTURE ANALYSIS OF BST-1/CD157 COMPLEXED WITH ETHENONAD
1ISJA:2-68,A:96-150; B:2-68,B:96-150CRYSTAL STRUCTURE ANALYSIS OF BST-1/CD157 COMPLEXED WITH NMN
1ISMA:2-68,A:96-150; B:2-68,B:96-150CRYSTAL STRUCTURE ANALYSIS OF BST-1/CD157 COMPLEXED WITH NICOTINAMIDE
1YH3A:45-116,A:144-199; B:45-116,B:144-199CRYSTAL STRUCTURE OF HUMAN CD38 EXTRACELLULAR DOMAIN
1ZVMA:46-116,A:144-199; B:46-116,B:144-199; C:46-116,C:144-199; D:46-116,D:144-199CRYSTAL STRUCTURE OF HUMAN CD38: CYCLIC-ADP-RIBOSYL SYNTHETASE/NAD+ GLYCOHYDROLASE
2EF1A:45-116,A:144-199; B:45-116,B:144-199CRYSTAL STRUCTURE OF THE EXTRACELLULAR DOMAIN OF HUMAN CD38
2HCTA:45-116,A:144-199; B:45-116,B:144-199ACIDIC RESIDUES AT THE ACTIVE SITES OF CD38 AND ADP-RIBOSYL CYCLASE DETERMINE NAAPD SYNTHESIS AND HYDROLYSIS ACTIVITIES
2I65A:48-116,A:144-199; B:45-116,B:144-199STRUCTURAL BASIS FOR THE MECHANISTIC UNDERSTANDING HUMAN CD38 CONTROLLED MULTIPLE CATALYSIS
2I66A:45-116,A:144-199; B:45-116,B:144-199STRUCTURAL BASIS FOR THE MECHANISTIC UNDERSTANDING HUMAN CD38 CONTROLLED MULTIPLE CATALYSIS
2I67A:45-116,A:144-199; B:45-116,B:144-199STRUCTURAL BASIS FOR THE MECHANISTIC UNDERSTANDING HUMAN CD38 CONTROLLED MULTIPLE CATALYSIS
2O3QA:45-116,A:144-199; B:45-116,B:144-199STRUCTURAL BASIS FOR FORMATION AND HYDROLYSIS OF CALCIUM MESSENGER CYCLIC ADP-RIBOSE BY HUMAN CD38
2O3RA:45-116,A:144-199; B:45-116,B:144-199STRUCTURAL BASIS FOR FORMATION AND HYDROLYSIS OF CALCIUM MESSENGER CYCLIC ADP-RIBOSE BY HUMAN CD38
2O3SA:45-116,A:144-199; B:45-116,B:144-199STRUCTURAL BASIS FOR FORMATION AND HYDROLYSIS OF CALCIUM MESSENGER CYCLIC ADP-RIBOSE BY HUMAN CD38
2O3TA:45-116,A:144-199; B:45-116,B:144-199STRUCTURAL BASIS FOR FORMATION AND HYDROLYSIS OF CALCIUM MESSENGER CYCLIC ADP-RIBOSE BY HUMAN CD38
2O3UA:45-116,A:144-199; B:45-116,B:144-199STRUCTURAL BASIS FOR FORMATION AND HYDROLYSIS OF CALCIUM MESSENGER CYCLIC ADP-RIBOSE BY HUMAN CD38
2PGJA:45-116,A:144-199; B:45-116,B:144-199CATALYSIS ASSOCIATED CONFORMATIONAL CHANGES REVEALED BY HUMAN CD38 COMPLEXED WITH A NON-HYDROLYZABLE SUBSTRATE ANALOG
2PGLA:45-116,A:144-199; B:45-116,B:144-199CATALYSIS ASSOCIATED CONFORMATIONAL CHANGES REVEALED BY HUMAN CD38 COMPLEXED WITH A NON-HYDROLYZABLE SUBSTRATE ANALOG
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Topology: Adp-ribosylation factor-like protein 2-binding protein fold (1)
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Homologous Superfamily: Adp-ribosylation factor-like protein 2-binding protein domain (1)
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Zebrafish (Danio rerio) (1)
2K0SA:1-130SOLUTION NMR STRUCTURE OF PROTEIN BC066483
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Topology: AhpD-like (17)
(-)
Homologous Superfamily: AhpD-like (17)
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Burkholderia xenovorans lb400. Organism_taxid: 266265. Strain: lb400. (2)
2Q0TB:9-254; C:9-254; A:9-257CRYSTAL STRUCTURE OF A PUTATIVE GAMMA-CARBOXYMUCONOLACTONE DECARBOXYLASE SUBUNIT (BXE_B0980) FROM BURKHOLDERIA XENOVORANS LB400 AT 1.70 A RESOLUTION
2QEUB:8-140; A:7-138; C:7-138CRYSTAL STRUCTURE OF PUTATIVE CARBOXYMUCONOLACTONE DECARBOXYLASE (YP_555818.1) FROM BURKHOLDERIA XENOVORANS LB400 AT 1.65 A RESOLUTION
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C58 (Agrobacterium tumefaciens str) (1)
2GMYD:2-146; E:2-146; B:1-146; C:2-147; A:2-148; F:2-148CRYSTAL STRUCTURE OF A PROTEIN OF UNKNOWN FUNCTION ATU0492 FROM AGROBACTERIUM TUMEFACIENS, PUTATIVE ANTIOXIDANT DEFENCE PROTEIN AHPD
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Deinococcus geothermalis dsm 11300. Organism_taxid: 319795. Strain: dsm 11300. (1)
2OYOA:71-195; B:71-195CRYSTAL STRUCTURE OF UNCHARACTERIZED PEROXIDASE-RELATED PROTEIN (YP_604910.1) FROM DEINOCOCCUS GEOTHERMALIS DSM 11300 AT 1.51 A RESOLUTION
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Delta h (Methanothermobacter thermautotrophicus str) (1)
3BEYD:2-95; C:4-95; F:4-95; A:7-95; B:6-94; E:9-95CRYSTAL STRUCTURE OF THE PROTEIN O27018 FROM METHANOBACTERIUM THERMOAUTOTROPHICUM. NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET TT217
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Mesorhizobium loti maff303099. Organism_taxid: 266835. Strain: maff303099. (1)
3C1LA:64-187; B:64-187; K:64-187; L:64-187; C:64-187; D:64-187; E:64-187; F:64-187; G:64-187; H:64-187; I:64-187; J:64-187CRYSTAL STRUCTURE OF AN ANTIOXIDANT DEFENSE PROTEIN (MLR4105) FROM MESORHIZOBIUM LOTI MAFF303099 AT 2.00 A RESOLUTION
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Mycobacterium tuberculosis h37rv. Organism_taxid: 83332. Strain: h37rv. (1)
1LW1C:3-174; B:3-175; A:3-177CRYSTAL STRUCTURE OF MYCOBACTERIUM TUBERCULOSIS ALKYLPEROXIDASE AHPD H137F MUTANT
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Mycobacterium tuberculosis. Organism_taxid: 1773. (2)
1KNCC:3-175; A:2-175; B:2-175STRUCTURE OF AHPD FROM MYCOBACTERIUM TUBERCULOSIS, A NOVEL ENZYME WITH THIOREDOXIN-LIKE ACTIVITY.
1ME5C:3-171; A:3-175; B:3-175CRYSTAL STRUCTURE OF MYCOBACTERIUM TUBERCULOSIS ALKYLPEROXIDASE AHPD H132Q MUTANT
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Mycobacterium tuberculosis. Organism_taxid: 83332. Strain: h37rv. (1)
1GU9C:3-170; G:3-170; I:3-175; K:3-175; L:4-171; F:3-171; H:5-175; A:4-175; D:4-175; J:4-175; B:3-175; E:3-175CRYSTAL STRUCTURE OF MYCOBACTERIUM TUBERCULOSIS ALKYLPEROXIDASE AHPD
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Pseudomonas aeruginosa pao1. Organism_taxid: 208964. Strain: pa01. (1)
2IJCB:3-144; C:3-144; D:3-144; E:3-144; G:3-144; H:3-144; A:2-144; F:2-144; I:2-145STRUCTURE OF A CONSERVED PROTEIN OF UNKNOWN FUNCTION PA0269 FROM PSEUDOMONAS AERUGINOSA
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Pseudomonas aeruginosa. Organism_taxid: 287. Strain: 633. (1)
2O4DA:2-145CRYSTAL STRUCTURE OF A HYPOTHETICAL PROTEIN FROM PSEUDOMONAS AERUGINOSA
(-)
Ralstonia eutropha jmp134. Organism_taxid: 264198. Strain: jmp134. (1)
2PRRA:68-194; B:68-194; L:68-193; J:68-192; E:68-194; F:68-194; H:68-194; C:68-193; D:68-193; G:68-193; I:68-193; K:68-193CRYSTAL STRUCTURE OF ALKYLHYDROPEROXIDASE AHPD CORE: UNCHARACTERIZED PEROXIDASE-RELATED PROTEIN (YP_296737.1) FROM RALSTONIA EUTROPHA JMP134 AT 2.15 A RESOLUTION
(-)
Rhodospirillum rubrum. Organism_taxid: 1085. Strain: ncib 8255. (1)
2OUWB:0-135; A:0-134CRYSTAL STRUCTURE OF ALKYLHYDROPEROXIDASE AHPD CORE (YP_425393.1) FROM RHODOSPIRILLUM RUBRUM ATCC 11170 AT 1.95 A RESOLUTION
(-)
Thermotoga maritima msb8. Organism_taxid: 243274. Strain: msb8. (1)
1VKEE:2-121; A:4-121; B:21-121; D:19-119; C:21-120; F:20-116CRYSTAL STRUCTURE OF CARBOXYMUCONOLACTONE DECARBOXYLASE FAMILY PROTEIN POSSIBLY INVOLVED IN ANTIOXIDATIVE RESPONSE (TM1620) FROM THERMOTOGA MARITIMA AT 1.56 A RESOLUTION
(-)
Thermotoga maritima. Organism_taxid: 2336. (1)
1P8CC:2-120; E:2-120; D:2-119; F:2-116; B:3-116; A:10-120CRYSTAL STRUCTURE OF TM1620 (APC4843) FROM THERMOTOGA MARITIMA
(-)
Tm1040 (Silicibacter sp) (1)
2PFXA:66-190; B:66-190CRYSTAL STRUCTURE OF UNCHARACTERIZED PEROXIDASE-RELATED PROTEIN (YP_614459.1) FROM SILICIBACTER SP. TM1040 AT 1.70 A RESOLUTION
(-)
Topology: Alpha-lytic protease prodomain-like (2)
(-)
Homologous Superfamily: Cation efflux protein cytoplasmic domain-like (2)
(-)
Escherichia coli k-12. Organism_taxid: 83333. (1)
3H90A:8-206; B:8-206; C:8-206; D:8-206STRUCTURAL BASIS FOR THE AUTOREGULATION OF THE ZINC TRANSPORTER YIIP
(-)
Escherichia coli. Organism_taxid: 562. (1)
2QFIA:5-205; B:5-205STRUCTURE OF THE ZINC TRANSPORTER YIIP
(-)
Topology: Alpha-t-alpha (2)
(-)
Homologous Superfamily: [code=1.20.860.10, no name defined] (1)
(-)
[unclassified] (1)
1ABZA:1-38ALPHA-T-ALPHA, A DE NOVO DESIGNED PEPTIDE, NMR, 23 STRUCTURES
(-)
Homologous Superfamily: [code=1.20.860.20, no name defined] (1)
(-)
Synechococcus elongatus. Organism_taxid: 32046. Synechococcus elongatus. Organism_taxid: 32046. Synechococcus elongatus. Organism_taxid: 32046. Synechococcus elongatus. Organism_taxid: 32046. Synechococcus elongatus. Organism_taxid: 32046. Synechococcus elongatus. Organism_taxid:32046. Synechococcus elongatus. Organism_taxid: 32046. Synechococcuselongatus. Organism_taxid: 32046. Synechococcus elongatus. Organism_taxid: 32046. Synechococcus elongatus. Organism_taxid: 32046. Synechococcus elongatus. Organism_taxid: 32046. (1)
1JB0K:20-77CRYSTAL STRUCTURE OF PHOTOSYSTEM I: A PHOTOSYNTHETIC REACTION CENTER AND CORE ANTENNA SYSTEM FROM CYANOBACTERIA
(-)
Topology: b2 immunity protein (1)
(-)
Homologous Superfamily: Carnobacteriocin B2 immunity protein (1)
(-)
Carnobacterium maltaromaticum. Organism_taxid: 2751. (1)
1TDPA:1-111NMR SOLUTION STRUCTURE OF THE CARNOBACTERIOCIN B2 IMMUNITY PROTEIN
(-)
Topology: Bacteriocin As-48; Chain A (4)
(-)
Homologous Superfamily: Bacteriocin As-48; Chain A (4)
(-)
Enterococcus faecalis. Organism_taxid: 1351. (1)
1E68A:1-70SOLUTION STRUCTURE OF BACTERIOCIN AS-48
(-)
Streptococcus liquefaciens (Enterococcus faecalis) (3)
1O82A:1-70; B:1-70; C:1-70; D:1-70X-RAY STRUCTURE OF BACTERIOCIN AS-48 AT PH 4.5. SULPHATE BOUND FORM
1O83A:1-70; B:1-70; C:1-70; D:1-70CRYSTAL STRUCTURE OF BACTERIOCIN AS-48 AT PH 7.5, PHOSPHATE BOUND. CRYSTAL FORM I
1O84A:1-70; B:1-70CRYSTAL STRUCTURE OF BACTERIOCIN AS-48. N-DECYL-BETA-D-MALTOSIDE BOUND.
(-)
Topology: Bromodomain-like (2)
(-)
Homologous Superfamily: DsbB-like (2)
(-)
Escherichia coli k12. Organism_taxid: 83333. Strain: k12. (1)
2K74A:1-183SOLUTION NMR STRUCTURE OF DSBB-UBIQUINONE COMPLEX
(-)
Escherichia coli. Organism_taxid: 562. (1)
2HI7B:14-162CRYSTAL STRUCTURE OF DSBA-DSBB-UBIQUINONE COMPLEX
(-)
Topology: Butyryl-CoA Dehydrogenase, subunit A; domain 3 (76)
(-)
Homologous Superfamily: [code=1.20.140.20, no name defined] (25)
(-)
Homo sapiens. Organism_taxid: 9606. (1)
3D2RA:21-189; B:20-189CRYSTAL STRUCTURE OF PYRUVATE DEHYDROGENASE KINASE ISOFORM 4 IN COMPLEX WITH ADP
(-)
Human (Homo sapiens) (18)
1Y8NA:13-172CRYSTAL STRUCTURE OF THE PDK3-L2 COMPLEX
1Y8OA:13-172CRYSTAL STRUCTURE OF THE PDK3-L2 COMPLEX
1Y8PA:12-172CRYSTAL STRUCTURE OF THE PDK3-L2 COMPLEX
2BTZA:6-178CRYSTAL STRUCTURES OF HUMAN PYRUVATE DEHYDROGENASE KINASE 2 CONTAINING PHYSIOLOGICAL AND SYNTHETIC LIGANDS
2BU2A:6-178CRYSTAL STRUCTURES OF HUMAN PYRUVATE DEHYDROGENASE KINASE 2 CONTAINING PHYSIOLOGICAL AND SYNTHETIC LIGANDS
2BU5A:6-178CRYSTAL STRUCTURES OF HUMAN PYRUVATE DEHYDROGENASE KINASE 2 CONTAINING PHYSIOLOGICAL AND SYNTHETIC LIGANDS
2BU6A:6-178CRYSTAL STRUCTURES OF HUMAN PYRUVATE DEHYDROGENASE KINASE 2 CONTAINING PHYSIOLOGICAL AND SYNTHETIC LIGANDS
2BU7A:6-178CRYSTAL STRUCTURES OF HUMAN PYRUVATE DEHYDROGENASE KINASE 2 CONTAINING PHYSIOLOGICAL AND SYNTHETIC LIGANDS
2BU8A:6-178CRYSTAL STRUCTURES OF HUMAN PYRUVATE DEHYDROGENASE KINASE 2 CONTAINING PHYSIOLOGICAL AND SYNTHETIC LIGANDS
2E0AA:20-189; B:20-189CRYSTAL STRUCTURE OF HUMAN PYRUVATE DEHYDROGENASE KINASE 4 IN COMPLEX WITH AMPPNP
2PNRA:13-172; E:13-172; B:14-172; F:14-172CRYSTAL STRUCTURE OF THE ASYMMETRIC PDK3-L2 COMPLEX
2Q8FA:41-203STRUCTURE OF PYRUVATE DEHYDROGENASE KINASE ISOFORM 1
2Q8GA:41-214STRUCTURE OF PYRUVATE DEHYDROGENASE KINASE ISOFORM 1 IN COMPLEX WITH GLUCOSE-LOWERING DRUG AZD7545
2Q8HA:41-203STRUCTURE OF PYRUVATE DEHYDROGENASE KINASE ISOFORM 1 IN COMPLEX WITH DICHLOROACETATE (DCA)
2Q8IA:13-172PYRUVATE DEHYDROGENASE KINASE ISOFORM 3 IN COMPLEX WITH ANTITUMOR DRUG RADICICOL
2ZDXA:20-189; B:20-189INHIBITOR-BOUND STRUCTURES OF HUMAN PYRUVATE DEHYDROGENASE KINASE 4
2ZDYA:19-189; B:21-189INHIBITOR-BOUND STRUCTURES OF HUMAN PYRUVATE DEHYDROGENASE KINASE 4
2ZKJB:20-189; A:20-189CRYSTAL STRUCTURE OF HUMAN PDK4-ADP COMPLEX
(-)
Norway rat (Rattus norvegicus) (3)
1JM6B:1003-1180; A:1003-1180PYRUVATE DEHYDROGENASE KINASE, ISOZYME 2, CONTAINING ADP
3CRKB:12-177; A:12-186CRYSTAL STRUCTURE OF THE PDHK2-L2 COMPLEX.
3CRLA:12-186; B:12-186CRYSTAL STRUCTURE OF THE PDHK2-L2 COMPLEX.
(-)
Rat (Rattus norvegicus) (3)
1GJVA:38-193BRANCHED-CHAIN ALPHA-KETOACID DEHYDROGENASE KINASE (BCK) COMPLXED WITH ATP-GAMMA-S
1GKXA:38-193BRANCHED-CHAIN ALPHA-KETOACID DEHYDROGENASE KINASE (BCK)
1GKZA:38-193BRANCHED-CHAIN ALPHA-KETOACID DEHYDROGENASE KINASE (BCK) COMPLXED WITH ADP
(-)
Homologous Superfamily: alix/aip1 like domains (4)
(-)
Human (Homo sapiens) (4)
2OEVA:406-538,A:642-697CRYSTAL STRUCTURE OF ALIX/AIP1
2R02A:406-538,A:642-697CRYSTAL STRUCTURE OF ALIX/AIP1 IN COMPLEX WITH THE HIV-1 YPLTSL LATE DOMAIN
2R03A:406-538,A:642-697CRYSTAL STRUCTURE OF ALIX/AIP1 IN COMPLEX WITH THE YPDL LATE DOMAIN
2R05A:406-538,A:642-697CRYSTAL STRUCTURE OF ALIX/AIP1 IN COMPLEX WITH THE HIV-1 YPLASL LATE DOMAIN
(-)
Homologous Superfamily: Butyryl-CoA Dehydrogenase, subunit A, domain 3 (37)
(-)
Clostridium aminobutyricum. Organism_taxid: 33953 (1)
1U8VB:278-490; A:277-490; C:277-490; D:277-490CRYSTAL STRUCTURE OF 4-HYDROXYBUTYRYL-COA DEHYDRATASE FROM CLOSTRIDIUM AMINOBUTYRICUM: RADICAL CATALYSIS INVOLVING A [4FE-4S] CLUSTER AND FLAVIN
(-)
Desulfovibrio desulfuricans. Organism_taxid: 876. (1)
1OAHA:339-480; B:339-480CYTOCHROME C NITRITE REDUCTASE FROM DESULFOVIBRIO DESULFURICANS ATCC 27774: THE RELEVANCE OF THE TWO CALCIUM SITES IN THE STRUCTURE OF THE CATALYTIC SUBUNIT (NRFA).
(-)
Desulfovibrio vulgaris. Organism_taxid: 882. Strain: hildenborough. (1)
2VR0A:355-478; B:355-478; D:355-478; E:355-478CRYSTAL STRUCTURE OF CYTOCHROME C NITRITE REDUCTASE NRFHA COMPLEX BOUND TO THE HQNO INHIBITOR
(-)
Desulfovibrio vulgaris. Organism_taxid: 882. Strain: hildenborough. (1)
2J7AA:355-478; B:355-478; P:355-478; Q:355-478; D:355-478; E:355-478; G:355-478; H:355-478; J:355-478; K:355-478; M:355-478; N:355-478CRYSTAL STRUCTURE OF CYTOCHROME C NITRITE REDUCTASE NRFHA COMPLEX FROM DESULFOVIBRIO VULGARIS
(-)
Geobacillus kaustophilus hta426. Organism_taxid: 235909. Strain: hta426. (1)
2PG0A:236-384; B:236-384CRYSTAL STRUCTURE OF ACYL-COA DEHYDROGENASE FROM GEOBACILLUS KAUSTOPHILUS
(-)
Human (Homo sapiens) (13)
1EGCA:252-392; B:252-392; C:252-392; D:252-392STRUCTURE OF T255E, E376G MUTANT OF HUMAN MEDIUM CHAIN ACYL-COA DEHYDROGENASE COMPLEXED WITH OCTANOYL-COA
1EGDA:252-392; C:252-392; D:252-392; B:252-392STRUCTURE OF T255E, E376G MUTANT OF HUMAN MEDIUM CHAIN ACYL-COA DEHYDROGENASE
1EGEA:252-392; B:252-392; C:252-392; D:252-392STRUCTURE OF T255E, E376G MUTANT OF HUMAN MEDIUM CHAIN ACYL-COA DEHYDROGENASE
1IVHA:251-391; B:251-391; C:251-391; D:251-391STRUCTURE OF HUMAN ISOVALERYL-COA DEHYDROGENASE AT 2.6 ANGSTROMS RESOLUTION: STRUCTURAL BASIS FOR SUBSTRATE SPECIFICITY
1RX0A:239-393; B:239-393; C:239-393; D:239-393CRYSTAL STRUCTURE OF ISOBUTYRYL-COA DEHYDROGENASE COMPLEXED WITH SUBSTRATE/LIGAND.
1SIQA:238-392THE CRYSTAL STRUCTURE AND MECHANISM OF HUMAN GLUTARYL-COA DEHYDROGENASE
1SIRA:238-392THE CRYSTAL STRUCTURE AND MECHANISM OF HUMAN GLUTARYL-COA DEHYDROGENASE
1T9GA:252-392; B:252-392; C:252-392; D:252-392STRUCTURE OF THE HUMAN MCAD:ETF COMPLEX
2A1TA:252-392; B:252-392; C:252-392; D:252-392STRUCTURE OF THE HUMAN MCAD:ETF E165BETAA COMPLEX
2JIFA:279-432; B:279-432; C:279-432; D:279-432STRUCTURE OF HUMAN SHORT-BRANCHED CHAIN ACYL-COA DEHYDROGENASE (ACADSB)
2UXWA:-2-90,A:327-490CRYSTAL STRUCTURE OF HUMAN VERY LONG CHAIN ACYL-COA DEHYDROGENASE (ACADVL)
2VIGA:268-408; B:268-408; C:268-408; D:268-408; E:268-408; F:268-408; G:268-408; H:268-408CRYSTAL STRUCTURE OF HUMAN SHORT-CHAIN ACYL COA DEHYDROGENASE
3B96A:29-50,A:287-445STRUCTURAL BASIS FOR SUBSTRATE FATTY-ACYL CHAIN SPECIFICITY: CRYSTAL STRUCTURE OF HUMAN VERY-LONG-CHAIN ACYL-COA DEHYDROGENASE
(-)
Megasphaera elsdenii. Organism_taxid: 907 (1)
1BUCA:243-383; B:243-383THREE-DIMENSIONAL STRUCTURE OF BUTYRYL-COA DEHYDROGENASE FROM MEGASPHAERA ELSDENII
(-)
Mouse-ear cress (Arabidopsis thaliana) (1)
1W07A:279-449; B:279-449; A:480-608; B:480-608ARABIDOPSIS THALIANA ACYL-COA OXIDASE 1
(-)
Mycobacterium tuberculosis. Organism_taxid: 1773. (2)
3AFEB:210-394; D:210-388; C:210-394; A:210-394CRYSTAL STRUCTURE OF THE HSAA MONOOXYGENASE FROM M.TUBERCULOSIS
3AFFB:210-394; A:210-394CRYSTAL STRUCTURE OF THE HSAA MONOOXYGENASE FROM M. TUBERCULOSIS
(-)
Norway rat (Rattus norvegicus) (3)
1IS2A:282-446; B:280-446; A:480-611; B:480-611CRYSTAL STRUCTURE OF PEROXISOMAL ACYL-COA OXIDASE-II FROM RAT LIVER
1JQIA:244-384; B:644-784CRYSTAL STRUCTURE OF RAT SHORT CHAIN ACYL-COA DEHYDROGENASE COMPLEXED WITH ACETOACETYL-COA
2DDHA:280-446; A:480-611CRYSTAL STRUCTURE OF ACYL-COA OXIDASE COMPLEXED WITH 3-OH-DODECANOATE
(-)
Pig (Sus scrofa) (3)
1UDYA:252-395; C:252-395; D:252-395; B:252-393MEDIUM-CHAIN ACYL-COA DEHYDROGENASE WITH 3-THIAOCTANOYL-COA
3MDDA:252-395; B:252-395CRYSTAL STRUCTURES OF MEDIUM CHAIN ACYL-COA DEHYDROGENASE FROM PIG LIVER MITOCHONDRIA WITH AND WITHOUT SUBSTRATE
3MDEA:252-395; B:252-395CRYSTAL STRUCTURES OF MEDIUM CHAIN ACYL-COA DEHYDROGENASE FROM PIG LIVER MITOCHONDRIA WITH AND WITHOUT SUBSTRATE
(-)
Rha1 (Rhodococcus sp) (2)
2OR0A:206-391; B:206-391STRUCTURAL GENOMICS, THE CRYSTAL STRUCTURE OF A PUTATIVE HYDROXYLASE FROM RHODOCOCCUS SP. RHA1
2RFQC:207-391; D:207-391; B:207-391; A:207-391CRYSTAL STRUCTURE OF 3-HSA HYDROXYLASE FROM RHODOCOCCUS SP. RHA1
(-)
Solanum lycopersicum. Organism_taxid: 4081. (1)
2FONA:279-449; B:279-449; C:279-449; A:480-608; B:480-608; C:480-608X-RAY CRYSTAL STRUCTURE OF LEACX1, AN ACYL-COA OXIDASE FROM LYCOPERSICON ESCULENTUM (TOMATO)
(-)
Streptomyces hygroscopicus. Organism_taxid: 1912. Strain: ascomyceticus. (1)
1R2JA:213-365FKBI FOR BIOSYNTHESIS OF METHOXYMALONYL EXTENDER UNIT OF FK520 POLYKETIDE IMMUNOSUPPRESANT
(-)
Thermus thermophilus hb8. Organism_taxid: 300852. Strain: hb8. (3)
1WS9A:236-384; B:236-384CRYSTAL STRUCTURE OF PROJECT ID TT0172 FROM THERMUS THERMOPHILUS HB8
2D29A:236-384; B:236-384STRUCTURAL STUDY ON PROJECT ID TT0172 FROM THERMUS THERMOPHILUS HB8
2DVLA:223-371; B:223-371CRYSTAL STRUCTURE OF PROJECT TT0160 FROM THERMUS THERMOPHILUS HB8
(-)
Thermus thermophilus. Organism_taxid: 274. (2)
1UKWA:258-410; B:258-410CRYSTAL STRUCTURE OF MEDIUM-CHAIN ACYL-COA DEHYDROGENASE FROM THERMUS THERMOPHILUS HB8
2CX9A:236-384; B:236-384; C:236-384; D:236-384CRYSTAL STRUCTURE OF ACYL-COA DEHYDROGENASE
(-)
Homologous Superfamily: Invertase/pectin methylesterase inhibitor family protein (9)
(-)
Common tobacco (Nicotiana tabacum) (7)
1RJ1A:0-147CRYSTAL STRUCTURE OF A CELL WALL INVERTASE INHIBITOR FROM TOBACCO
1RJ4A:1-147; C:2-147; D:2-147; B:2-147STRUCTURE OF A CELL WALL INVERTASE INHIBITOR FROM TOBACCO IN COMPLEX WITH CD2+
2CJ4A:4-150; B:5-150CRYSTAL STRUCTURE OF A CELL WALL INVERTASE INHIBITOR FROM TOBACCO AT PH 4.6
2CJ5A:4-150CRYSTAL STRUCTURE OF A CELL WALL INVERTASE INHIBITOR FROM TOBACCO (PH 5.0)
2CJ6A:5-150CRYSTAL STRUCTURE OF A CELL WALL INVERTASE INHIBITOR FROM TOBACCO (PH 7.5)
2CJ7A:4-150CRYSTAL STRUCTURE OF A CELL WALL INVERTASE INHIBITOR FROM TOBACCO (PH 9.0)
2CJ8A:4-150; B:5-149CRYSTAL STRUCTURE OF A CELL WALL INVERTASE INHIBITOR FROM TOBACCO (PH 9.5)
(-)
Thale cress (Arabidopsis thaliana) (2)
1X8ZB:2-148; C:0-149; A:-1-149CRYSTAL STRUCTURE OF A PECTIN METHYLESTERASE INHIBITOR FROM ARABIDOPSIS THALIANA
1X90A:3-149; B:3-149CRYSTAL STRUCTURE OF MUTANT FORM B OF A PECTIN METHYLESTERASE INHIBITOR FROM ARABIDOPSIS
(-)
Homologous Superfamily: Mob1/phocein (1)
(-)
Human (Homo sapiens) (1)
1PI1A:11-195CRYSTAL STRUCTURE OF A HUMAN MOB1 PROTEIN; TOWARD UNDERSTANDING MOB-REGULATED CELL CYCLE PATHWAYS.
(-)
Topology: Calcium-transporting ATPase, transmembrane domain (36)
(-)
Homologous Superfamily: Calcium-transporting ATPase, transmembrane domain (36)
(-)
Pig (Sus scrofa) (2)
3B8EA:87-140,A:270-363,A:749-1016; C:87-140,C:270-363,C:749-1016CRYSTAL STRUCTURE OF THE SODIUM-POTASSIUM PUMP
3KDPA:87-140,A:270-363,A:749-1016; C:87-140,C:270-363,C:749-1016CRYSTAL STRUCTURE OF THE SODIUM-POTASSIUM PUMP
(-)
Rabbit (Oryctolagus cuniculus) (31)
1IWOA:55-112,A:241-345,A:746-994; B:55-112,B:241-345,B:746-994CRYSTAL STRUCTURE OF THE SR CA2+-ATPASE IN THE ABSENCE OF CA2+
1SU4A:44-123,A:243-345,A:746-994CRYSTAL STRUCTURE OF CALCIUM ATPASE WITH TWO BOUND CALCIUM IONS
1T5SA:55-120,A:243-345,A:746-994STRUCTURE OF THE (SR)CA2+-ATPASE CA2-E1-AMPPCP FORM
1T5TA:51-120,A:243-345,A:746-994STRUCTURE OF THE (SR)CA2+-ATPASE CA2-E1-ADP:ALF4- FORM
1VFPA:50-120,A:243-345,A:746-994; B:50-116,B:243-345,B:746-994CRYSTAL STRUCTURE OF THE SR CA2+-ATPASE WITH BOUND AMPPCP
1WPGB:56-112,B:241-345,B:746-994; C:56-112,C:241-345,C:746-994; A:52-110,A:221-345,A:746-994; D:52-110,D:221-345,D:746-994CRYSTAL STRUCTURE OF THE SR CA2+-ATPASE WITH MGF4
1XP5A:55-112,A:241-345,A:746-994STRUCTURE OF THE (SR)CA2+-ATPASE E2-ALF4- FORM
2AGVA:55-112,A:241-345,A:746-994; B:55-112,B:241-345,B:746-994CRYSTAL STRUCTURE OF THE SR CA2+-ATPASE WITH BHQ AND TG
2BY4A:55-112,A:241-345,A:746-994SR CA(2+)-ATPASE IN THE HNE2 STATE COMPLEXED WITH THE THAPSIGARGIN DERIVATIVE BOC-12ADT.
2C88A:55-112,A:241-345,A:746-994CRYSTAL STRUCTURE OF (SR) CALCIUM-ATPASE E2(TG):AMPPCP FORM
2C8KA:55-112,A:241-345,A:746-994CRYSTAL STRUCTURE OF (SR) CALCIUM-ATPASE E2(TG) WITH PARTIALLY OCCUPIED AMPPCP SITE
2C8LA:55-112,A:241-345,A:746-994CRYSTAL STRUCTURE OF (SR) CALCIUM-ATPASE E2(TG) FORM
2C9MB:44-124,B:237-345,B:746-994; A:49-121,A:242-345,A:739-994STRUCTURE OF (SR) CALCIUM-ATPASE IN THE CA2E1 STATE SOLVED IN A P1 CRYSTAL FORM.
2DQSA:47-112,A:245-346,A:739-994CRYSTAL STRUCTURE OF THE CALCIUM PUMP WITH AMPPCP IN THE ABSENCE OF CALCIUM
2EARA:47-112,A:241-345,A:739-994P21 CRYSTAL OF THE SR CA2+-ATPASE WITH BOUND TG
2EAS  [entry was replaced by entry 4YCL without any CATH domain information]
2EATA:47-112,A:241-345,A:739-994CRYSTAL STRUCTURE OF THE SR CA2+-ATPASE WITH BOUND CPA AND TG
2EAUA:47-112,A:244-345,A:739-994CRYSTAL STRUCTURE OF THE SR CA2+-ATPASE WITH BOUND CPA IN THE PRESENCE OF CURCUMIN
2O9JA:55-112,A:241-345,A:746-994CRYSTAL STRUCTURE OF CALCIUM ATPASE WITH BOUND MAGNESIUM FLUORIDE AND CYCLOPIAZONIC ACID
2OA0A:55-112,A:241-345,A:746-994CRYSTAL STRUCTURE OF CALCIUM ATPASE WITH BOUND ADP AND CYCLOPIAZONIC ACID
2ZBDA:54-120,A:243-345,A:746-994CRYSTAL STRUCTURE OF THE SR CALCIUM PUMP WITH BOUND ALUMINIUM FLUORIDE, ADP AND CALCIUM
2ZBEA:49-112,A:244-345,A:739-994; B:49-112,B:244-345,B:739-994CALCIUM PUMP CRYSTAL STRUCTURE WITH BOUND BEF3 IN THE ABSENCE OF CALCIUM AND TG
2ZBFA:55-112,A:241-345,A:746-994CALCIUM PUMP CRYSTAL STRUCTURE WITH BOUND BEF3 AND TG IN THE ABSENCE OF CALCIUM
2ZBGA:55-112,A:241-345,A:746-994CALCIUM PUMP CRYSTAL STRUCTURE WITH BOUND ALF4 AND TG IN THE ABSENCE OF CALCIUM
3B9BA:55-112,A:241-345,A:746-994STRUCTURE OF THE E2 BERYLLIUM FLUORIDE COMPLEX OF THE SERCA CA2+-ATPASE
3B9RA:55-112,A:241-345,A:746-994; B:55-112,B:241-345,B:746-994SERCA CA2+-ATPASE E2 ALUMINIUM FLUORIDE COMPLEX WITHOUT THAPSIGARGIN
3BA6A:55-120,A:243-345,A:746-994STRUCTURE OF THE CA2E1P PHOSPHOENZYME INTERMEDIATE OF THE SERCA CA2+-ATPASE
3FGOA:55-112,A:241-345,A:746-994; B:55-112,B:241-345,B:746-994CRYSTAL STRUCTURE OF THE E2 MAGNESIUM FLUORIDE COMPLEX OF THE (SR) CA2+-ATPASE WITH BOUND CPA AND AMPPCP
3FPBA:52-110,A:221-345,A:746-994THE STRUCTURE OF SARCOPLASMIC RETICULUM CA2+-ATPASE BOUND TO CYCLOPIAZONIC ACID WITH ATP
3FPSA:55-112,A:241-345,A:746-994THE STRUCTURE OF SARCOPLASMIC RETICULUM CA2+-ATPASE BOUND TO CYCLOPIAZONIC AND ADP
(-)
Spiny dogfish (Squalus acanthias) (2)
2ZXEA:94-147,A:277-370,A:756-1023CRYSTAL STRUCTURE OF THE SODIUM - POTASSIUM PUMP IN THE E2.2K+.PI STATE
3A3YA:94-147,A:277-370,A:756-1023CRYSTAL STRUCTURE OF THE SODIUM-POTASSIUM PUMP WITH BOUND POTASSIUM AND OUABAIN
(-)
Thale cress (Arabidopsis thaliana) (1)
3B8C  [entry was replaced by entry 5KSD without any CATH domain information]
(-)
Topology: cAMP-dependent Protein Kinase, Chain A (8)
(-)
Homologous Superfamily: cAMP-dependent Protein Kinase, Chain A (7)
(-)
House mouse (Mus musculus) (2)
1L6EA:1-46; B:1-46SOLUTION STRUCTURE OF THE DOCKING AND DIMERIZATION DOMAIN OF PROTEIN KINASE A II-ALPHA (RIIALPHA D/D). ALTERNATIVELY CALLED THE N-TERMINAL DIMERIZATION DOMAIN OF THE REGULATORY SUBUNIT OF PROTEIN KINASE A.
1R2AA:1-46; B:1-46THE MOLECULAR BASIS FOR PROTEIN KINASE A ANCHORING REVEALED BY SOLUTION NMR
(-)
Human (Homo sapiens) (1)
2IZXB:3-43MOLECULAR BASIS OF AKAP SPECIFICITY FOR PKA REGULATORY SUBUNITS
(-)
Mouse (Mus musculus) (1)
2IZYD:5-52MOLECULAR BASIS OF AKAP SPECIFICITY FOR PKA REGULATORY SUBUNITS
(-)
Norway rat (Rattus norvegicus) (3)
2DRNA:1-46; B:1-46DOCKING AND DIMERIZATION DOMAIN (D/D) OF THE TYPE II-ALPHA REGULATORY SUBUNITY OF PROTEIN KINASE A (PKA) IN COMPLEX WITH A PEPTIDE FROM AN A-KINASE ANCHORING PROTEIN
2H9RA:1-46; B:1-46DOCKING AND DIMERIZATION DOMAIN (D/D) OF THE REGULATORY SUBUNIT OF THE TYPE II-ALPHA CAMP-DEPENDENT PROTEIN KINASE A ASSOCIATED WITH A PEPTIDE DERIVED FROM AN A-KINASE ANCHORING PROTEIN (AKAP)
2HWNB:0-44; D:1-43; C:4-43CRYSTAL STRUCTURE OF RII ALPHA DIMERIZATION/DOCKING DOMAIN OF PKA BOUND TO THE D-AKAP2 PEPTIDE
(-)
Homologous Superfamily: mpn423 like domain (1)
(-)
Mycoplasma pneumoniae. Organism_taxid: 2104. (1)
2I15A:1-38; B:201-238; C:401-438CRYSTAL STRUCTURE OF MPN423 FROM MYCOPLASMA PNEUMONIAE
(-)
Topology: Chitosanase, subunit A; domain 1 (6)
(-)
Homologous Superfamily: Chitosanase, subunit A, domain 1 (6)
(-)
Bacillus circulans. Organism_taxid: 1397. Strain: mh-k1. (2)
1QGIA:148-258CHITOSANASE FROM BACILLUS CIRCULANS
2D05A:148-258CHITOSANASE FROM BACILLUS CIRCULANS MUTANT K218P
(-)
N174 (Streptomyces sp) (1)
1CHKA:1-26,A:122-238; B:1-26,B:122-238STREPTOMYCES N174 CHITOSANASE PH5.5 298K
(-)
Neisseria meningitidis mc58. Organism_taxid: 122586. Strain: mc58. (1)
2IKBB:3-163; C:2-164; A:2-163; D:2-165CRYSTAL STRUCTURE OF A PROTEIN OF UNKNOWN FUNCTION NMB1012 FROM NEISSERIA MENINGITIDIS
(-)
Neisseria meningitidis serogroup b. Organism_taxid: 491. Strain: serogroup b. (1)
2IS5B:2-162; D:3-164; A:1-163; C:0-162CRYSTAL STRUCTURE OF 3 RESIDUES TRUNCATED VERSION OF PROTEIN NMB1012 FROM NEISSERIA MENINGITIDES
(-)
Porphyromonas gingivalis w83. Organism_taxid: 242619. Strain: w83. (1)
2NR7A:-1-192STRUCTURAL GENOMICS, THE CRYSTAL STRUCTURE OF PUTATIVE SECRETION ACTIVATOR PROTEIN FROM PORPHYROMONAS GINGIVALIS W83
(-)
Topology: Chorismate Mutase Domain, subunit A (2)
(-)
Homologous Superfamily: Chorismate Mutase Domain, subunit A (2)
(-)
Escherichia coli. Organism_taxid: 562. Strain: pjs47. Cell_line: nk6024 (1)
1ECMA:5-95; B:6-100ATOMIC STRUCTURE OF THE BURIED CATALYTIC POCKET OF ESCHERICHIA COLI CHORISMATE MUTASE
(-)
Pyrococcus furiosus. Organism_taxid: 2261. (1)
1YBZA:0-75CONSERVED HYPOTHETICAL PROTEIN FROM PYROCOCCUS FURIOSUS PFU-1581948-001
(-)
Topology: Clostridium botulinum neurotoxin B, 'coiled-coil' domain (13)
(-)
Homologous Superfamily: Clostridium botulinum neurotoxin b, 'coiled-coil' domain (13)
(-)
Clostridium botulinum. Organism_taxid: 1491 (7)
1EPWA:444-475,A:532-830CRYSTAL STRUCTURE OF CLOSTRIDIUM NEUROTOXIN TYPE B
1F31A:444-475,A:532-830CRYSTAL STRUCTURE OF CLOSTRIDIUM BOTULINUM NEUROTOXIN B COMPLEXED WITH A TRISACCHARIDE
1G9AA:444-475,A:532-830CRYSTAL STRUCTURE OF CLOSTRIDIUM BOTULINUM NEUROTOXIN B COMPLEXED WITH AN INHIBITOR (EXPERIMENT 3)
1G9BA:444-475,A:532-830CRYSTAL STRUCTURE OF CLOSTRIDIUM BOTULINUM NEUROTOXIN B COMPLEXED WITH AN INHIBITOR (EXPERIMENT 1)
1G9CA:444-475,A:532-830CRYSTAL STRUCTURE OF CLOSTRIDIUM BOTULINUM NEUROTOXIN B COMPLEXED WITH AN INHIBITOR (EXPERIMENT 4)
1G9DA:444-475,A:532-830CRYSTAL STRUCTURE OF CLOSTRIDIUM BOTULINUM NEUROTOXIN B COMPLEXED WITH AN INHIBITOR (EXPERIMENT 2)
1I1EA:444-475,A:532-830CRYSTAL STRUCTURE OF CLOSTRIDIUM BOTULINUM NEUROTOXIN B COMPLEXED WITH DOXORUBICIN
(-)
Clostridium botulinum. Organism_taxid: 1491. Strain: type b (6)
1S0BA:444-475,A:532-830CRYSTAL STRUCTURE OF BOTULINUM NEUROTOXIN TYPE B AT PH 4.0
1S0CA:444-475,A:532-830CRYSTAL STRUCTURE OF BOTULINUM NEUROTOXIN TYPE B AT PH 5.0
1S0DA:444-475,A:532-830CRYSTAL STRUCTURE OF BOTULINUM NEUROTOXIN TYPE B AT PH 5.5
1S0EA:444-475,A:532-830CRYSTAL STRUCTURE OF BOTULINUM NEUROTOXIN TYPE B AT PH 6.0
1S0FA:444-475,A:532-830CRYSTAL STRUCTURE OF BOTULINUM NEUROTOXIN TYPE B AT PH 7.0
1S0GA:444-475,A:532-830CRYSTAL STRUCTURE OF BOTULINUM NEUROTOXIN TYPE B APO FORM
(-)
Topology: Colicin Ia; domain 1 (1)
(-)
Homologous Superfamily: Colicin Ia, domain 1 (1)
(-)
Escherichia coli. Organism_taxid: 562. Strain: 294. (1)
1CIIA:23-283,A:385-467COLICIN IA
(-)
Topology: CREB-binding Protein; Chain A (10)
(-)
Homologous Superfamily: CREB-binding Protein; Chain A (10)
(-)
House mouse (Mus musculus) (3)
1F81A:1-87SOLUTION STRUCTURE OF THE TAZ2 DOMAIN OF THE TRANSCRIPTIONAL ADAPTOR PROTEIN CBP
1L8CA:1-95STRUCTURAL BASIS FOR HIF-1ALPHA/CBP RECOGNITION IN THE CELLULAR HYPOXIC RESPONSE
1U2NA:340-439STRUCTURE CBP TAZ1 DOMAIN
(-)
Human (Homo sapiens) (5)
1L3EB:101-201NMR STRUCTURES OF THE HIF-1ALPHA CTAD/P300 CH1 COMPLEX
1P4QB:101-201SOLUTION STRUCTURE OF THE CITED2 TRANSACTIVATION DOMAIN IN COMPLEX WITH THE P300 CH1 DOMAIN
1R8UB:340-439NMR STRUCTURE OF CBP TAZ1/CITED2 COMPLEX
2K8FA:1-90STRUCTURAL BASIS FOR THE REGULATION OF P53 FUNCTION BY P300
2KJEA:1764-1855NMR STRUCTURE OF CBP TAZ2 AND ADENOVIRAL E1A COMPLEX
(-)
Mouse (Mus musculus) (2)
2KA4A:340-439NMR STRUCTURE OF THE CBP-TAZ1/STAT2-TAD COMPLEX
2KA6A:1-92NMR STRUCTURE OF THE CBP-TAZ2/STAT1-TAD COMPLEX
(-)
Topology: Cytochrome Bc1 Complex; Chain C (51)
(-)
Homologous Superfamily: Cytochrome Bc1 Complex; Chain C (51)
(-)
Baker's yeast (Saccharomyces cerevisiae) (5)
1EZVC:1-385STRUCTURE OF THE YEAST CYTOCHROME BC1 COMPLEX CO-CRYSTALLIZED WITH AN ANTIBODY FV-FRAGMENT
1KB9C:1-385YEAST CYTOCHROME BC1 COMPLEX
1KYOC:1-385; N:1-385YEAST CYTOCHROME BC1 COMPLEX WITH BOUND SUBSTRATE CYTOCHROME C
1P84C:1-385HDBT INHIBITED YEAST CYTOCHROME BC1 COMPLEX
2IBZC:1-385YEAST CYTOCHROME BC1 COMPLEX WITH STIGMATELLIN
(-)
Cattle (Bos taurus) (17)
1BE3C:1-379CYTOCHROME BC1 COMPLEX FROM BOVINE
1BGYC:1-379; O:1-379CYTOCHROME BC1 COMPLEX FROM BOVINE
1L0LC:3-379STRUCTURE OF BOVINE MITOCHONDRIAL CYTOCHROME BC1 COMPLEX WITH A BOUND FUNGICIDE FAMOXADONE
1L0NC:3-379NATIVE STRUCTURE OF BOVINE MITOCHONDRIAL CYTOCHROME BC1 COMPLEX
1NTKC:2-379CRYSTAL STRUCTURE OF MITOCHONDRIAL CYTOCHROME BC1 IN COMPLEX WITH ANTIMYCIN A1
1NTMC:2-379CRYSTAL STRUCTURE OF MITOCHONDRIAL CYTOCHROME BC1 COMPLEX AT 2.4 ANGSTROM
1NTZC:2-379CRYSTAL STRUCTURE OF MITOCHONDRIAL CYTOCHROME BC1 COMPLEX BOUND WITH UBIQUINONE
1NU1C:2-379CRYSTAL STRUCTURE OF MITOCHONDRIAL CYTOCHROME BC1 COMPLEXED WITH 2-NONYL-4-HYDROXYQUINOLINE N-OXIDE (NQNO)
1PP9P:10-379; C:15-379BOVINE CYTOCHROME BC1 COMPLEX WITH STIGMATELLIN BOUND
1PPJC:15-379; P:15-379BOVINE CYTOCHROME BC1 COMPLEX WITH STIGMATELLIN AND ANTIMYCIN
1SQBC:2-379CRYSTAL STRUCTURE ANALYSIS OF BOVINE BC1 WITH AZOXYSTROBIN
1SQPC:2-379CRYSTAL STRUCTURE ANALYSIS OF BOVINE BC1 WITH MYXOTHIAZOL
1SQQC:2-379CRYSTAL STRUCTURE ANALYSIS OF BOVINE BC1 WITH METHOXY ACRYLATE STILBENE (MOAS)
1SQVC:2-379CRYSTAL STRUCTURE ANALYSIS OF BOVINE BC1 WITH UHDBT
1SQXC:2-379CRYSTAL STRUCTURE ANALYSIS OF BOVINE BC1 WITH STIGMATELLIN A
2A06P:10-379; C:15-379BOVINE CYTOCHROME BC1 COMPLEX WITH STIGMATELLIN BOUND
2FYUC:2-379CRYSTAL STRUCTURE OF BOVINE HEART MITOCHONDRIAL BC1 WITH JG144 INHIBITOR
(-)
Chicken (Gallus gallus) (15)
1BCCC:2-380CYTOCHROME BC1 COMPLEX FROM CHICKEN
2BCCC:2-380STIGMATELLIN-BOUND CYTOCHROME BC1 COMPLEX FROM CHICKEN
3BCCC:2-380STIGMATELLIN AND ANTIMYCIN BOUND CYTOCHROME BC1 COMPLEX FROM CHICKEN
3CWBP:2-380; C:1-380CHICKEN CYTOCHROME BC1 COMPLEX INHIBITED BY AN IODINATED ANALOGUE OF THE POLYKETIDE CROCACIN-D
3H1HP:2-380; C:1-380CYTOCHROME BC1 COMPLEX FROM CHICKEN
3H1IP:2-380; C:1-380STIGMATELLIN AND ANTIMYCIN BOUND CYTOCHROME BC1 COMPLEX FROM CHICKEN
3H1JP:2-380; C:1-380STIGMATELLIN-BOUND CYTOCHROME BC1 COMPLEX FROM CHICKEN
3H1KP:2-380; C:1-380CHICKEN CYTOCHROME BC1 COMPLEX WITH ZN++ AND AN IODINATED DERIVATIVE OF KRESOXIM-METHYL BOUND
3H1LP:2-380; C:1-380CHICKEN CYTOCHROME BC1 COMPLEX WITH ASCOCHLORIN BOUND AT QO AND QI SITES
3L70P:2-380; C:1-380CYTOCHROME BC1 COMPLEX FROM CHICKEN WITH TRIFLOXYSTROBIN BOUND
3L71P:2-380; C:1-380CYTOCHROME BC1 COMPLEX FROM CHICKEN WITH AZOXYSTROBIN BOUND
3L72P:2-380; C:1-380CHICKEN CYTOCHROME BC1 COMPLEX WITH KRESOXYM-I-DIMETHYL BOUND
3L73P:2-380; C:1-380CYTOCHROME BC1 COMPLEX FROM CHICKEN WITH TRIAZOLONE INHIBITOR
3L74P:2-380; C:1-380CYTOCHROME BC1 COMPLEX FROM CHICKEN WITH FAMOXADONE BOUND
3L75P:2-380; C:1-380CYTOCHROME BC1 COMPLEX FROM CHICKEN WITH FENAMIDONE BOUND
(-)
Chlamydomonas reinhardtii. Organism_taxid: 3055. Strain: h6f5. (1)
1Q90B:4-215STRUCTURE OF THE CYTOCHROME B6F (PLASTOHYDROQUINONE : PLASTOCYANIN OXIDOREDUCTASE) FROM CHLAMYDOMONAS REINHARDTII
(-)
Mastigocladus laminosus. Organism_taxid: 83541. (1)
1VF5A:13-214; N:13-214CRYSTAL STRUCTURE OF CYTOCHROME B6F COMPLEX FROM M.LAMINOSUS
(-)
Mastigocladus laminosus. Organism_taxid: 83541. Mastigocladus laminosus. Organism_taxid: 83541. Mastigocladus laminosus. Organism_taxid: 83541. Mastigocladus laminosus. Organism_taxid: 83541. Mastigocladus laminosus. Organism_taxid: 83541. Mastigocladus laminosus. Organism_taxid:83541. Mastigocladus laminosus. Organism_taxid: 83541. (4)
2D2CA:13-214; N:13-214CRYSTAL STRUCTURE OF CYTOCHROME B6F COMPLEX WITH DBMIB FROM M. LAMINOSUS
2E74A:1-215CRYSTAL STRUCTURE OF THE CYTOCHROME B6F COMPLEX FROM M.LAMINOSUS
2E75A:1-215CRYSTAL STRUCTURE OF THE CYTOCHROME B6F COMPLEX WITH 2-NONYL-4-HYDROXYQUINOLINE N-OXIDE (NQNO) FROM M.LAMINOSUS
2E76A:1-215CRYSTAL STRUCTURE OF THE CYTOCHROME B6F COMPLEX WITH TRIDECYL-STIGMATELLIN (TDS) FROM M.LAMINOSUS
(-)
Pcc 7120 (Nostoc sp) (1)
2ZT9A:1-215CRYSTAL STRUCTURE OF THE CYTOCHROME B6F COMPLEX FROM NOSTOC SP. PCC 7120
(-)
Rhodobacter capsulatus. Organism_taxid: 1061. (1)
1ZRTC:2-428; P:2-428RHODOBACTER CAPSULATUS CYTOCHROME BC1 COMPLEX WITH STIGMATELLIN BOUND
(-)
Rhodobacter sphaeroides. Organism_taxid: 1063. (4)
2FYNA:3-430; D:3-430; G:3-430; J:3-430; M:3-430; P:3-430CRYSTAL STRUCTURE ANALYSIS OF THE DOUBLE MUTANT RHODOBACTER SPHAEROIDES BC1 COMPLEX
2QJKA:3-430; M:3-430; P:3-430; D:3-430; G:3-430; J:3-430CRYSTAL STRUCTURE ANALYSIS OF MUTANT RHODOBACTER SPHAEROIDES BC1 WITH STIGMATELLIN AND ANTIMYCIN
2QJPA:3-430; D:3-430; G:3-430; J:3-430CRYSTAL STRUCTURE OF WILD TYPE RHODOBACTER SPHAEROIDES WITH STIGMATELLIN AND ANTIMYCIN INHIBITED
2QJYA:3-430; D:3-430; G:3-430; J:3-430; M:3-430; P:3-430CRYSTAL STRUCTURE OF RHODOBACTER SPHAEROIDES DOUBLE MUTANT WITH STIGMATELLIN AND UQ2
(-)
Yeast (Saccharomyces cerevisiae) (2)
3CX5C:1-385; N:1-385STRUCTURE OF COMPLEX III WITH BOUND CYTOCHROME C IN REDUCED STATE AND DEFINITION OF A MINIMAL CORE INTERFACE FOR ELECTRON TRANSFER.
3CXHC:1-385; N:1-385STRUCTURE OF YEAST COMPLEX III WITH ISOFORM-2 CYTOCHROME C BOUND AND DEFINITION OF A MINIMAL CORE INTERFACE FOR ELECTRON TRANSFER.
(-)
Topology: Cytochrome C Oxidase; Chain A (41)
(-)
Homologous Superfamily: Cytochrome C Oxidase, chain A (41)
(-)
Bovine (Bos taurus) (7)
3ABKA:2-514; N:2-514BOVINE HEART CYTOCHROME C OXIDASE AT THE NO-BOUND FULLY REDUCED STATE (50K)
3ABLA:2-514; N:2-514BOVINE HEART CYTOCHROME C OXIDASE AT THE FULLY OXIDIZED STATE (15-S X-RAY EXPOSURE DATASET)
3ABMA:2-514; N:2-514BOVINE HEART CYTOCHROME C OXIDASE AT THE FULLY OXIDIZED STATE (200-S X-RAY EXPOSURE DATASET)
3AG1A:2-514; N:2-514BOVINE HEART CYTOCHROME C OXIDASE IN THE CARBON MONOXIDE-BOUND FULLY REDUCED STATE AT 280 K
3AG2A:2-514; N:2-514BOVINE HEART CYTOCHROME C OXIDASE IN THE CARBON MONOXIDE-BOUND FULLY REDUCED STATE AT 100 K
3AG3A:2-514; N:2-514BOVINE HEART CYTOCHROME C OXIDASE IN THE NITRIC OXIDE-BOUND FULLY REDUCED STATE AT 100 K
3AG4A:2-514; N:2-514BOVINE HEART CYTOCHROME C OXIDASE IN THE CYANIDE ION-BOUND FULLY REDUCED STATE AT 100 K
(-)
Cattle (Bos taurus) (15)
1OCCA:1-514; N:1-514STRUCTURE OF BOVINE HEART CYTOCHROME C OXIDASE AT THE FULLY OXIDIZED STATE
1OCOA:1-514; N:1-514BOVINE HEART CYTOCHROME C OXIDASE IN CARBON MONOXIDE-BOUND STATE
1OCRA:1-514; N:1-514BOVINE HEART CYTOCHROME C OXIDASE IN THE FULLY REDUCED STATE
1OCZA:1-514; N:1-514BOVINE HEART CYTOCHROME C OXIDASE IN AZIDE-BOUND STATE
1V54A:2-514; N:2-514BOVINE HEART CYTOCHROME C OXIDASE AT THE FULLY OXIDIZED STATE
1V55A:2-514; N:2-514BOVINE HEART CYTOCHROME C OXIDASE AT THE FULLY REDUCED STATE
2DYRA:2-514; N:2-514BOVINE HEART CYTOCHROME C OXIDASE AT THE FULLY OXIDIZED STATE
2DYSA:2-514; N:2-514BOVINE HEART CYTOCHROME C OXIDASE MODIFIED BY DCCD
2EIJA:2-514; N:2-514BOVINE HEART CYTOCHROME C OXIDASE IN THE FULLY REDUCED STATE
2EIKA:2-514; N:2-514CADMIUM ION BINDING STRUCTURE OF BOVINE HEART CYTOCHROME C OXIDASE IN THE FULLY REDUCED STATE
2EILA:2-514; N:2-514CADMIUM ION BINDING STRUCTURE OF BOVINE HEART CYTOCHROME C OXIDASE IN THE FULLY OXIDIZED STATE
2EIMA:2-514; N:2-514ZINC ION BINDING STRUCTURE OF BOVINE HEART CYTOCHROME C OXIDASE IN THE FULLY REDUCED STATE
2EINA:2-514; N:2-514ZINC ION BINDING STRUCTURE OF BOVINE HEART CYTOCHROME C OXIDASE IN THE FULLY OXIDIZED STATE
2OCCA:1-514; N:1-514BOVINE HEART CYTOCHROME C OXIDASE AT THE FULLY OXIDIZED STATE
2ZXWA:2-514; N:2-514BOVINE HEART CYTOCHROME C OXIDASE AT THE FULLY OXIDIZED STATE (1-S X-RAY EXPOSURE DATASET)
(-)
Escherichia coli. Organism_taxid: 562. (1)
1FFTA:52-552; F:52-552THE STRUCTURE OF UBIQUINOL OXIDASE FROM ESCHERICHIA COLI
(-)
Paracoccus denitrificans. Organism_taxid: 266. (3)
1AR1A:17-545STRUCTURE AT 2.7 ANGSTROM RESOLUTION OF THE PARACOCCUS DENITRIFICANS TWO-SUBUNIT CYTOCHROME C OXIDASE COMPLEXED WITH AN ANTIBODY FV FRAGMENT
1QLEA:17-554CRYO-STRUCTURE OF THE PARACOCCUS DENITRIFICANS FOUR-SUBUNIT CYTOCHROME C OXIDASE IN THE COMPLETELY OXIDIZED STATE COMPLEXED WITH AN ANTIBODY FV FRAGMENT
3HB3A:17-545HIGH RESOLUTION CRYSTAL STRUCTURE OF PARACOCCUS DENITRIFICANS CYTOCHROME C OXIDASE
(-)
Paracoccus denitrificans. Organism_taxid: 266. (1)
3EHBA:17-546A D-PATHWAY MUTATION DECOUPLES THE PARACOCCUS DENITRIFICANS CYTOCHROME C OXIDASE BY ALTERING THE SIDE CHAIN ORIENTATION OF A DISTANT, CONSERVED GLUTAMATE
(-)
Rhodobacter sphaeroides. Organism_taxid: 1063. (1)
2GSMC:17-550; A:17-551CATALYTIC CORE (SUBUNITS I AND II) OF CYTOCHROME C OXIDASE FROM RHODOBACTER SPHAEROIDES
(-)
Rhodobacter sphaeroides. Organism_taxid: 1063. (1)
1M57A:14-560; G:14-560STRUCTURE OF CYTOCHROME C OXIDASE FROM RHODOBACTER SPHAEROIDES (EQ(I-286) MUTANT))
(-)
Rhodobacter sphaeroides. Organism_taxid: 1063. Rhodobacter sphaeroides. Organism_taxid: 1063. Rhodobacter sphaeroides. Organism_taxid: 1063. (1)
1M56A:14-560; G:14-560STRUCTURE OF CYTOCHROME C OXIDASE FROM RHODOBACTOR SPHAEROIDES (WILD TYPE)
(-)
Rhodopseudomonas sphaeroides (Rhodobacter sphaeroides) (3)
3DTUC:17-552; A:13-551CATALYTIC CORE SUBUNITS (I AND II) OF CYTOCHROME C OXIDASE FROM RHODOBACTER SPHAEROIDES COMPLEXED WITH DEOXYCHOLIC ACID
3FYEC:20-550; A:17-551CATALYTIC CORE SUBUNITS (I AND II) OF CYTOCHROME C OXIDASE FROM RHODOBACTER SPHAEROIDES IN THE REDUCED STATE
3FYIC:20-550; A:17-551CATALYTIC CORE SUBUNITS (I AND II) OF CYTOCHROME C OXIDASE FROM RHODOBACTER SPHAEROIDES IN THE REDUCED STATE BOUND WITH CYANIDE
(-)
Thermus thermophilus hb8. Organism_taxid: 300852. Strain: hb8. (5)
2QPDA:6-562AN UNEXPECTED OUTCOME OF SURFACE-ENGINEERING AN INTEGRAL MEMBRANE PROTEIN: IMPROVED CRYSTALLIZATION OF CYTOCHROME BA3 OXIDASE FROM THERMUS THERMOPHILUS
2QPEA:6-562AN UNEXPECTED OUTCOME OF SURFACE-ENGINEERING AN INTEGRAL MEMBRANE PROTEIN: IMPROVED CRYSTALLIZATION OF CYTOCHROME BA3 OXIDASE FROM THERMUS THERMOPHILUS
3EH3A:6-562STRUCTURE OF THE REDUCED FORM OF CYTOCHROME BA3 OXIDASE FROM THERMUS THERMOPHILUS
3EH4A:6-562STRUCTURE OF THE REDUCED FORM OF CYTOCHROME BA3 OXIDASE FROM THERMUS THERMOPHILUS
3EH5A:6-562STRUCTURE OF THE REDUCED FORM OF CYTOCHROME BA3 OXIDASE FROM THERMUS THERMOPHILUS
(-)
Thermus thermophilus hb8. Organism_taxid: 300852. Strain: hb8. Thermusthermophilus hb8. Organism_taxid: 300852. Strain: hb8. (1)
1EHKA:14-562CRYSTAL STRUCTURE OF THE ABERRANT BA3-CYTOCHROME-C OXIDASE FROM THERMUS THERMOPHILUS
(-)
Thermus thermophilus. Organism_taxid: 274. (1)
1XMEA:6-562STRUCTURE OF RECOMBINANT CYTOCHROME BA3 OXIDASE FROM THERMUS THERMOPHILUS
(-)
Thermus thermophilus. Strain: hb8. (1)
3BVDA:13-562STRUCTURE OF SURFACE-ENGINEERED CYTOCHROME BA3 OXIDASE FROM THERMUS THERMOPHILUS UNDER XENON PRESSURE, 100PSI 5MIN
(-)
Topology: Dbl Homology Domain; Chain A (13)
(-)
Homologous Superfamily: Dbl Homology Domain; Chain A (13)
(-)
House mouse (Mus musculus) (7)
1F5XA:1-208NMR STRUCTURE OF THE Y174 AUTOINHIBITED DBL HOMOLOGY DOMAIN
1FOEE:1035-1233; G:1035-1233; A:1034-1233; C:1036-1233CRYSTAL STRUCTURE OF RAC1 IN COMPLEX WITH THE GUANINE NUCLEOTIDE EXCHANGE REGION OF TIAM1
1KZ7A:624-816; C:1624-1816CRYSTAL STRUCTURE OF THE DH/PH FRAGMENT OF MURINE DBS IN COMPLEX WITH THE PLACENTAL ISOFORM OF HUMAN CDC42
1KZGA:624-816; C:1624-1816DBSCDC42(Y889F)
1LB1A:624-816; C:624-816; E:624-816; G:624-816CRYSTAL STRUCTURE OF THE DBL AND PLECKSTRIN HOMOLOGY DOMAINS OF DBS IN COMPLEX WITH RHOA
1RJ2A:624-816; G:624-816; J:624-816; D:624-816CRYSTAL STRUCTURE OF THE DH/PH FRAGMENT OF DBS WITHOUT BOUND GTPASE
2RGNE:150-352; B:149-352CRYSTAL STRUCTURE OF P63RHOGEF COMPLEX WITH GALPHA-Q AND RHOA
(-)
Human (Homo sapiens) (6)
1BY1A:1-209DBL HOMOLOGY DOMAIN FROM BETA-PIX
1DBHA:198-421DBL AND PLECKSTRIN HOMOLOGY DOMAINS FROM HSOS1
1KI1B:1229-1427; D:1229-1427GUANINE NUCLEOTIDE EXCHANGE REGION OF INTERSECTIN IN COMPLEX WITH CDC42
1NTYA:1231-1411CRYSTAL STRUCTURE OF THE FIRST DH/PH DOMAIN OF TRIO TO 1.7 A
1XD4A:198-404; B:198-404CRYSTAL STRUCTURE OF THE DH-PH-CAT MODULE OF SON OF SEVENLESS (SOS)
2NZ8B:1231-1411N-TERMINAL DHPH CASSETTE OF TRIO IN COMPLEX WITH NUCLEOTIDE-FREE RAC1
(-)
Topology: de novo design (two linked rop proteins) (13)
(-)
Homologous Superfamily: Biosynthetic Protein domain (3)
(-)
Bacillus cereus atcc 14579. Organism_taxid: 226900. Strain: dsm 31. (3)
2QGMA:175-301CRYSTAL STRUCTURE OF SUCCINOGLYCAN BIOSYNTHESIS PROTEIN AT THE RESOLUTION 1.7 A. NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET BCR136.
2RADA:176-302; B:176-302CRYSTAL STRUCTURE OF THE SUCCINOGLYCAN BIOSYNTHESIS PROTEIN. NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET BCR135
3B55A:176-302CRYSTAL STRUCTURE OF THE Q81BN2_BACCR PROTEIN FROM BACILLUS CEREUS. NESG TARGET BCR135
(-)
Homologous Superfamily: de novo design (two linked rop proteins) (2)
(-)
Escherichia coli. Organism_taxid: 562. (1)
1YO7A:1-120; B:1-120RE-ENGINEERING TOPOLOGY OF THE HOMODIMERIC ROP PROTEIN INTO A SINGLE-CHAIN 4-HELIX BUNDLE
(-)
House mouse (Mus musculus) (1)
1SJ8A:661-782CRYSTAL STRUCTURE OF TALIN RESIDUES 482-789
(-)
Homologous Superfamily: Gap junction channel protein cysteine-rich domain (1)
(-)
Human (Homo sapiens) (1)
2ZW3A:2-217; B:2-217; C:2-217; D:2-217; E:2-217; F:2-217STRUCTURE OF THE CONNEXIN-26 GAP JUNCTION CHANNEL AT 3.5 ANGSTROM RESOLUTION
(-)
Homologous Superfamily: IVS-encoded domain-like (1)
(-)
Bacteroides thetaiotaomicron vpi-5482. Organism_taxid: 226186. Strain:vpi-5482, dsm 2079, nctc 10582, e50. (1)
2RLDB:6-116; A:0-115; E:8-117; C:2-116; D:7-114CRYSTAL STRUCTURE OF A PROTEIN WITH UNKNOWN FUNCTION FROM S23 RIBOSOMAL PROTEIN FAMILY (BT_0352) FROM BACTEROIDES THETAIOTAOMICRON VPI-5482 AT 1.70 A RESOLUTION
(-)
Homologous Superfamily: LemA-like domains (1)
(-)
Thermotoga maritima msb8. Organism_taxid: 243274. Strain: msb8. (1)
2ETDA:-1-183CRYSTAL STRUCTURE OF A LEMA PROTEIN (TM0961) FROM THERMOTOGA MARITIMA MSB8 AT 2.28 A RESOLUTION
(-)
Homologous Superfamily: PA2201 N-terminal domain-like (1)
(-)
Pseudomonas aeruginosa pao1. Organism_taxid: 208964. Strain: pao1. (1)
2FEFA:6-134; B:6-134; C:6-129THE CRYSTAL STRUCTURE OF PROTEIN PA2201 FROM PSEUDOMONAS AERUGINOSA
(-)
Homologous Superfamily: Ta0600-like domain (3)
(-)
Methanococcus maripaludis s2. Organism_taxid: 267377. Strain: s2, ll. (1)
2QZGC:8-90; D:8-90; A:8-91; B:8-91CRYSTAL STRUCTURE OF UNKNOWN FUNCTION PROTEIN MMP1188
(-)
Streptococcus pyogenes. Organism_taxid: 1314. (1)
2FU2A:2-79CRYSTAL STRUCTURE OF PROTEIN SPY2152 FROM STREPTOCOCCUS PYOGENES
(-)
Thermoplasma acidophilum dsm 1728. Organism_taxid: 273075. Strain: dsm1728, ifo 15155, jcm 9062, amrc-c165. (1)
2QSBA:2-86CRYSTAL STRUCTURE OF A PROTEIN FROM UNCHARACTERIZED FAMILY UPF0147 FROM THERMOPLASMA ACIDOPHILUM
(-)
Homologous Superfamily: YqcC-like (1)
(-)
Escherichia coli. Organism_taxid: 562. (1)
2HGKA:1-105SOLUTION NMR STRUCTURE OF PROTEIN YQCC FROM E. COLI: NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET ER225
(-)
Topology: Dehydroquinate synthase-like, alpha domain (24)
(-)
Homologous Superfamily: Dehydroquinate synthase-like - alpha domain (24)
(-)
Clostridium acetobutylicum atcc 824. Organism_taxid: 272562. Strain: dsm 792 / jcm 1419 / lmg 5710 / vkm b-1787. (1)
3CE9A:160-353; C:160-353; D:160-353; B:160-352CRYSTAL STRUCTURE OF GLYCEROL DEHYDROGENASE (NP_348253.1) FROM CLOSTRIDIUM ACETOBUTYLICUM AT 2.37 A RESOLUTION
(-)
Emericella nidulans. Organism_taxid: 162425. (9)
1NR5A:183-391; B:183-391CRYSTAL STRUCTURE OF 3-DEHYDROQUINATE SYNTHASE (DHQS) IN COMPLEX WITH ZN2+, NAD AND CARBAPHOSPHONATE
1NRXA:183-391; B:183-391CRYSTAL STRUCTURE OF 3-DEHYDROQUINATE SYNTHASE (DHQS) IN COMPLEX WITH ZN2+ AND NAD
1NUAA:183-391; B:183-391CRYSTAL STRUCTURE OF 3-DEHYDROQUINATE SYNTHASE (DHQS) IN COMPLEX WITH ZN2+
1NVAA:183-391; B:183-391CRYSTAL STRUCTURE OF 3-DEHYDROQUINATE SYNTHASE (DHQS) IN COMPLEX WITH ZN2+ AND ADP
1NVBA:183-391; B:183-391CRYSTAL STRUCTURE OF 3-DEHYDROQUINATE SYNTHASE (DHQS) IN COMPLEX WITH ZN2+ AND CARBAPHOSPHONATE
1NVDB:183-391; A:183-391CRYSTAL STRUCTURE OF 3-DEHYDROQUINATE SYNTHASE (DHQS) IN COMPLEX WITH ZN2+ AND CARBAPHOSPHONATE
1NVED:183-391; A:183-391; C:183-391; B:183-391CRYSTAL STRUCTURE OF 3-DEHYDROQUINATE SYNTHASE (DHQS) IN COMPLEX WITH ZN2+ AND NAD
1NVFA:183-391; B:183-391; C:183-391CRYSTAL STRUCTURE OF 3-DEHYDROQUINATE SYNTHASE (DHQS) IN COMPLEX WITH ZN2+, ADP AND CARBAPHOSPHONATE
1SG6A:183-391; B:183-391CRYSTAL STRUCTURE OF ASPERGILLUS NIDULANS 3-DEHYDROQUINATE SYNTHASE (ANDHQS) IN COMPLEX WITH ZN2+ AND NAD+, AT 1.7D
(-)
Emericella nidulans. Organism_taxid: 162425. Strain: r153. (1)
1DQSB:183-390; A:183-391CRYSTAL STRUCTURE OF DEHYDROQUINATE SYNTHASE (DHQS) COMPLEXED WITH CARBAPHOSPHONATE, NAD+ AND ZN2+
(-)
Escherichia coli. Organism_taxid: 562. (1)
1RRMA:187-386; B:187-385CRYSTAL STRUCTURE OF LACTALDEHYDE REDUCTASE
(-)
Escherichia coli. Organism_taxid: 562. Strain: ecl1. (2)
2BI4A:187-383; B:1187-1383LACTALDEHYDE:1,2-PROPANEDIOL OXIDOREDUCTASE OF ESCHERICHIA COLI
2BL4A:187-383; B:1187-1383LACTALDEHYDE:1,2-PROPANEDIOL OXIDOREDUCTASE OF ESCHERICHIA COLI
(-)
Escherichia coli. Organism_taxid: 83333. Strain: k-12. (1)
1OJ7A:184-387; B:184-387; C:184-387; D:184-387STRUCTURAL GENOMICS, UNKNOWN FUNCTION CRYSTAL STRUCTURE OF E. COLI K-12 YQHD
(-)
Fission yeast (Schizosaccharomyces pombe) (1)
1TA9A:221-450; B:221-450CRYSTAL STRUCTURE OF GLYCEROL DEHYDROGENASE FROM SCHIZOSACCHAROMYCES POMBE
(-)
Geobacillus stearothermophilus. Organism_taxid: 1422. (3)
1JPUA:162-368CRYSTAL STRUCTURE OF BACILLUS STEAROTHERMOPHILUS GLYCEROL DEHYDROGENASE
1JQ5A:162-367BACILLUS STEAROTHERMOPHILUS GLYCEROL DEHYDROGENASE COMPLEX WITH NAD+
1JQAA:162-367BACILLUS STEAROTHERMOPHILUS GLYCEROL DEHYDROGENASE COMPLEX WITH GLYCEROL
(-)
Klebsiella pneumoniae. Organism_taxid: 573. Strain: clinical isolate. (1)
3BFJA:189-387; B:189-387; K:189-387; L:189-387; M:189-387; N:189-387; O:189-387; P:189-387; Q:189-387; R:189-387; S:189-387; T:189-387; C:189-387; D:189-387; E:189-387; F:189-387; G:189-387; H:189-387; I:189-387; J:189-387CRYSTAL STRUCTURE ANALYSIS OF 1,3-PROPANEDIOL OXIDOREDUCTASE
(-)
Thermotoga maritima. Organism_taxid: 2336. (3)
1KQ3A:158-363CRYSTAL STRUCTURE OF A GLYCEROL DEHYDROGENASE (TM0423) FROM THERMOTOGA MARITIMA AT 1.5 A RESOLUTION
1O2DA:180-358; B:180-358CRYSTAL STRUCTURE OF ALCOHOL DEHYDROGENASE, IRON-CONTAINING (TM0920) FROM THERMOTOGA MARITIMA AT 1.30 A RESOLUTION
1VHDA:180-359; B:180-359CRYSTAL STRUCTURE OF AN IRON CONTAINING ALCOHOL DEHYDROGENASE
(-)
Thermus thermophilus hb8. Organism_taxid: 300852. Strain: hb8. (1)
1UJNA:162-338; B:162-338CRYSTAL STRUCTURE OF DEHYDROQUINATE SYNTHASE FROM THERMUS THERMOPHILUS HB8
(-)
Topology: Delta-Endotoxin; domain 1 (33)
(-)
Homologous Superfamily: [code=1.20.190.10, no name defined] (5)
(-)
Bacillus thuringiensis serovar kurstaki. Organism_taxid: 29339. Strain: hd-1. (1)
1I5PA:30-263INSECTICIDAL CRYSTAL PROTEIN CRY2AA
(-)
Bacillus thuringiensis. Organism_taxid: 1428 (1)
1DLCA:61-289CRYSTAL STRUCTURE OF INSECTICIDAL DELTA-ENDOTOXIN FROM BACILLUS THURINGIENSIS AT 2.5 ANGSTROMS RESOLUTION
(-)
Bacillus thuringiensis. Organism_taxid: 1428. Strain: bt185. (1)
3EB7A:64-291; B:64-291; C:64-291CRYSTAL STRUCTURE OF INSECTICIDAL DELTA-ENDOTOXIN CRY8EA1 FROM BACILLUS THURINGIENSIS AT 2.2 ANGSTROMS RESOLUTION
(-)
Bacillus thuringiensis. Organism_taxid: 1428. Strain: eg7321. (1)
1JI6A:64-290CRYSTAL STRUCTURE OF THE INSECTICIDAL BACTERIAL DEL ENDOTOXIN CRY3BB1 BACILLUS THURINGIENSIS
(-)
Bacillus thuringiensis. Organism_taxid: 1428. Strain: hd-1. Variant: kurstaki. (1)
1CIYA:33-253INSECTICIDAL TOXIN: STRUCTURE AND CHANNEL FORMATION
(-)
Homologous Superfamily: [code=1.20.190.20, no name defined] (28)
(-)
American tobacco,tobacco (Nicotiana tabacum) (1)
3E6YB:4-240; A:5-238STRUCTURE OF 14-3-3 IN COMPLEX WITH THE DIFFERENTIATION-INDUCING AGENT COTYLENIN A
(-)
Bovine (Bos taurus) (1)
2V7DD:-1-230; A:-1-230; B:-1-229; C:-1-22914-3-3 PROTEIN ZETA IN COMPLEX WITH THR758 PHOSPHORYLATED INTEGRIN BETA2 PEPTIDE
(-)
Cattle (Bos taurus) (3)
1A37A:1-228; B:1-22814-3-3 PROTEIN ZETA BOUND TO PS-RAF259 PEPTIDE
1A38A:1-228; B:1-22814-3-3 PROTEIN ZETA BOUND TO R18 PEPTIDE
1A4OA:1-228; B:1-228; C:1-228; D:1-22814-3-3 PROTEIN ZETA ISOFORM
(-)
Common tobacco (Nicotiana tabacum) (5)
1O9CA:5-240STRUCTURAL VIEW OF A FUNGAL TOXIN ACTING ON A 14-3-3 REGULATORY COMPLEX
1O9DA:5-240STRUCTURAL VIEW OF A FUNGAL TOXIN ACTING ON A 14-3-3 REGULATORY COMPLEX
1O9EA:5-240STRUCTURAL VIEW OF A FUNGAL TOXIN ACTING ON A 14-3-3 REGULATORY COMPLEX
1O9FA:5-240STRUCTURAL VIEW OF A FUNGAL TOXIN ACTING ON A 14-3-3 REGULATORY COMPLEX
2O98A:2-241; B:4-240STRUCTURE OF THE 14-3-3 / H+-ATPASE PLANT COMPLEX
(-)
Cryptosporidium parvum. Organism_taxid: 5807. (1)
2NPMB:24-259; A:21-259CRYSTAL STRUCTURE OF CRYPTOSPORIDIUM PARVUM 14-3-3 PROTEIN IN COMPLEX WITH PEPTIDE
(-)
Human (Homo sapiens) (17)
1IB1A:2-228; B:2-228; C:2-228; D:2-228CRYSTAL STRUCTURE OF THE 14-3-3 ZETA:SEROTONIN N-ACETYLTRANSFERASE COMPLEX
1QJAB:1-229; A:1-23014-3-3 ZETA/PHOSPHOPEPTIDE COMPLEX (MODE 2)
1QJBA:1-232; B:1-23214-3-3 ZETA/PHOSPHOPEPTIDE COMPLEX (MODE 1)
1YWTA:1-231; B:1-231CRYSTAL STRUCTURE OF THE HUMAN SIGMA ISOFORM OF 14-3-3 IN COMPLEX WITH A MODE-1 PHOSPHOPEPTIDE
1YZ5A:1-233; B:2-232THE CRYSTAL STRUCTURE OF 14-3-3-SIGMA AT 2.8 ANGSTROM RESOLUTION
2B05E:4-234; F:3-234; A:2-234; B:2-234; C:2-234; D:2-234CRYSTAL STRUCTURE OF 14-3-3 GAMMA IN COMPLEX WITH A PHOSPHOSERINE PEPTIDE
2BQ0A:3-232; B:3-23314-3-3 PROTEIN BETA (HUMAN)
2BR9A:3-23214-3-3 PROTEIN EPSILON (HUMAN) COMPLEXED TO PEPTIDE
2BTPA:0-230; B:2-23014-3-3 PROTEIN THETA (HUMAN) COMPLEXED TO PEPTIDE
2C1JA:1-230; B:1-230MOLECULAR BASIS FOR THE RECOGNITION OF PHOSPHORYLATED AND PHOSPHOACETYLATED HISTONE H3 BY 14-3-3
2C1NA:1-230; B:1-230MOLECULAR BASIS FOR THE RECOGNITION OF PHOSPHORYLATED AND PHOSPHOACETYLATED HISTONE H3 BY 14-3-3
2C23A:3-23214-3-3 PROTEIN BETA (HUMAN) IN COMPLEX WITH EXOENZYME S PEPTIDE
2C63A:3-235; B:3-235; C:3-235; D:3-23514-3-3 PROTEIN ETA (HUMAN) COMPLEXED TO PEPTIDE
2C74B:2-235; A:2-23614-3-3 PROTEIN ETA (HUMAN) COMPLEXED TO PEPTIDE
2O02A:1-230; B:1-230PHOSPHORYLATION INDEPENDENT INTERACTIONS BETWEEN 14-3-3 AND EXOENZYME S: FROM STRUCTURE TO PATHOGENESIS
2WH0C:4-229; B:2-228; D:2-229; A:2-229RECOGNITION OF AN INTRACHAIN TANDEM 14-3-3 BINDING SITE WITHIN PROTEIN KINASE C EPSILON
3CU8B:1-230; A:2-230IMPAIRED BINDING OF 14-3-3 TO RAF1 IS LINKED TO NOONAN AND LEOPARD SYNDROME
(-)
Topology: dip2346 fold (1)
(-)
Homologous Superfamily: dip2346 domain like (1)
(-)
Corynebacterium diphtheriae nctc 13129. Organism_taxid: 257309. Strain: nctc 13129 / biotype gravis. (1)
3BH1A:210-254,A:288-343; B:210-254,B:288-343; C:210-254,C:288-343; D:210-254,D:288-343CRYSTAL STRUCTURE OF PROTEIN DIP2346 FROM CORYNEBACTERIUM DIPHTHERIAE
(-)
Topology: dopa decarboxylase, N-terminal domain (3)
(-)
Homologous Superfamily: dopa decarboxylase, N-terminal domain (3)
(-)
Fruit fly (Drosophila melanogaster) (1)
3K40A:1-81; B:1-81CRYSTAL STRUCTURE OF DROSOPHILA 3,4-DIHYDROXYPHENYLALANINE DECARBOXYLASE
(-)
Pig (Sus scrofa) (2)
1JS3A:1-81; B:1-81CRYSTAL STRUCTURE OF DOPA DECARBOXYLASE IN COMPLEX WITH THE INHIBITOR CARBIDOPA
1JS6A:1-81; B:1-81CRYSTAL STRUCTURE OF DOPA DECARBOXYLASE
(-)
Topology: Endoplasmic reticulum protein erp29 (6)
(-)
Homologous Superfamily: [code=1.20.1150.12, no name defined] (6)
(-)
Fruit fly (Drosophila melanogaster) (5)
1OVNB:146-248; A:146-252CRYSTAL STRUCTURE AND FUNCTIONAL ANALYSIS OF DROSOPHILA WIND-- A PDI-RELATED PROTEIN
2C0EA:146-251; B:146-247STRUCTURE OF PDI-RELATED CHAPERONE, WIND WITH HIS-TAG ON C-TERMINUS.
2C0FA:146-251; B:146-245STRUCTURE OF WIND Y53F MUTANT
2C0GA:1146-1251; B:1146-1244STRUCTURE OF PDI-RELATED CHAPERONE, WIND MUTANT-Y53S
2C1YA:146-253STRUCTURE OF PDI-RELATED CHAPERONE, WIND MUTANT-Y55K
(-)
Norway rat (Rattus norvegicus) (1)
1G7DA:155-260NMR STRUCTURE OF ERP29 C-DOMAIN
(-)
Topology: F1FO ATP Synthase (13)
(-)
Homologous Superfamily: F1FO ATP Synthase (13)
(-)
Arthrospira platensis. Organism_taxid: 118562 (1)
2WIEA:2-79; B:2-79; C:2-79; D:2-79; E:2-79HIGH-RESOLUTION STRUCTURE OF THE ROTOR RING FROM A PROTON DEPENDENT ATP SYNTHASE
(-)
Bacillus pseudofirmus of4. Organism_taxid: 398511 (1)
2X2VA:2-69; B:2-69; K:2-69; L:2-69; M:2-69; C:2-69; D:2-69; E:2-69; F:2-69; G:2-69; H:2-69; I:2-69; J:2-69STRUCTURAL BASIS OF A NOVEL PROTON-COORDINATION TYPE IN AN F1FO-ATP SYNTHASE ROTOR RING
(-)
Escherichia coli. Organism_taxid: 562. (3)
1ATYA:9-79DETERMINATION OF LOCAL PROTEIN STRUCTURE BY SPIN LABEL DIFFERENCE 2D NMR: THE REGION NEIGHBORING ASP61 OF SUBUNIT C OF THE F1FO ATP SYNTHASE
1IJPA:1-79SOLUTION STRUCTURE OF ALA20PRO/PRO64ALA SUBSTITUTED SUBUNIT C OF ESCHERICHIA COLI ATP SYNTHASE
1L6TA:1-79STRUCTURE OF ALA24/ASP61 TO ASP24/ASN61 SUBSTITUTED SUBUNIT C OF ESCHERICHIA COLI ATP SYNTHASE
(-)
Escherichia coli. Organism_taxid: 562. (1)
1C17A:1-79; B:1-79; K:1-79; L:1-79; C:1-79; D:1-79; E:1-79; F:1-79; G:1-79; H:1-79; I:1-79; J:1-79A1C12 SUBCOMPLEX OF F1FO ATP SYNTHASE
(-)
Escherichia coli. Organism_taxid: 562. Strain: er. (3)
1A91A:1-79SUBUNIT C OF THE F1FO ATP SYNTHASE OF ESCHERICHIA COLI; NMR, 10 STRUCTURES
1C0VA:1-79SUBUNIT C OF THE F1FO ATP SYNTHASE OF ESCHERICHIA COLI; NMR, 10 STRUCTURES
1C99A:1-79ASP61 DEPROTONATED FORM OF SUBUNIT C OF THE F1FO ATP SYNTHASE OF ESCHERICHIA COLI
(-)
Ilyobacter tartaricus. Organism_taxid: 167644 (1)
1YCEA:1-82; B:1-82; K:1-82; L:1-82; M:1-82; N:1-82; O:1-82; P:1-82; Q:1-82; R:1-82; S:1-82; T:1-82; C:1-82; U:1-82; V:1-82; a:1-82; b:1-82; c:1-82; d:1-82; e:1-82; f:1-82; g:1-82; h:1-82; D:1-82; i:1-82; j:1-82; k:1-82; l:1-82; m:1-82; n:1-82; o:1-82; p:1-82; q:1-82; r:1-82; E:1-82; s:1-82; t:1-82; u:1-82; v:1-82; F:1-82; G:1-82; H:1-82; I:1-82; J:1-82STRUCTURE OF THE ROTOR RING OF F-TYPE NA+-ATPASE FROM ILYOBACTER TARTARICUS
(-)
Ilyobacter tartaricus. Organism_taxid: 167644. Strain: 2382. (1)
2WGMA:1-82; B:1-82; K:1-82; L:1-82; M:1-82; N:1-82; O:1-82; P:1-82; Q:1-82; R:1-82; S:1-82; T:1-82; C:1-82; U:1-82; V:1-82; a:1-82; b:1-82; c:1-82; d:1-82; e:1-82; f:1-82; g:1-82; h:1-82; D:1-82; i:1-82; j:1-82; k:1-82; l:1-82; m:1-82; n:1-82; o:1-82; p:1-82; q:1-82; r:1-82; E:1-82; s:1-82; t:1-82; u:1-82; v:1-82; F:1-82; G:1-82; H:1-82; I:1-82; J:1-82COMPLETE ION-COORDINATION STRUCTURE IN THE ROTOR RING OF NA-DEPENDENT F-ATP SYNTHASE
(-)
Ps3 (Bacillus sp) (1)
1WU0A:1-72SOLUTION STRUCTURE OF SUBUNIT C OF F1FO-ATP SYNTHASE FROM THE THERMOPHILIC BACILLUS PS3
(-)
Spinach (Spinacia oleracea) (1)
2W5JA:2-78; B:2-78; K:2-78; L:2-78; M:2-78; V:2-78; C:2-78; D:2-78; E:2-78; F:2-78; G:2-78; H:2-78; I:2-78; J:2-78STRUCTURE OF THE C14-ROTOR RING OF THE PROTON TRANSLOCATING CHLOROPLAST ATP SYNTHASE
(-)
Topology: f41 fragment of flagellin, N-terminal domain (3)
(-)
Homologous Superfamily: f41 fragment of flagellin, N-terminal domain (3)
(-)
Salmonella typhimurium. Organism_taxid: 602. Strain: sjw 1660. (1)
1IO1A:56-175,A:402-450CRYSTAL STRUCTURE OF F41 FRAGMENT OF FLAGELLIN
(-)
Salmonella typhimurium. Organism_taxid: 602. Strain: sjw 1665 (1)
1UCUA:44-175,A:402-453R-TYPE STRAIGHT FLAGELLAR FILAMENT MADE OF FULL-LENGTH FLAGELLIN
(-)
Salmonella typhimurium. Organism_taxid: 90371. Strain: sjw1660 (1)
3A5XA:44-175,A:402-453L-TYPE STRAIGHT FLAGELLAR FILAMENT MADE OF FULL-LENGTH FLAGELLIN
(-)
Topology: Ferritin; (180)
(-)
Homologous Superfamily: [code=1.20.1260.10, no name defined] (180)
(-)
7 (Sulfolobus tokodaii str) (1)
1J30A:3-143; B:3-139THE CRYSTAL STRUCTURE OF SULERYTHRIN, A RUBRERYTHRIN-LIKE PROTEIN FROM A STRICTLY AEROBIC AND THERMOACIDIPHILIC ARCHAEON
(-)
Agrobacterium tumefaciens. Organism_taxid: 358. Strain: gv3101. (1)
1O9RA:1-162; B:1-162; E:1-162; F:1-162; D:3-162; C:4-162THE X-RAY CRYSTAL STRUCTURE OF AGROBACTERIUM TUMEFACIENS DPS, A MEMBER OF THE FAMILY THAT PROTECT DNA WITHOUT BINDING
(-)
Ames (Bacillus anthracis str) (1)
2QQYA:2-139CRYSTAL STRUCTURE OF FERRITIN LIKE, DIIRON-CARBOXYLATE PROTEINS FROM BACILLUS ANTHRACIS STR. AMES
(-)
Archaeoglobus fulgidus dsm 4304. Organism_taxid: 224325. Strain: dsm 4304. (1)
1SQ3A:3-164; B:3-164; K:3-164; L:3-164; C:3-164; D:3-164; E:3-164; F:3-164; G:3-164; H:3-164; I:3-164; J:3-164CRYSTAL STRUCTURES OF A NOVEL OPEN PORE FERRITIN FROM THE HYPERTHERMOPHILIC ARCHAEON ARCHAEOGLOBUS FULGIDUS.
(-)
Archaeoglobus fulgidus. Organism_taxid: 2234. (1)
1S3QG:2-164; J:2-164; K:3-164; L:3-164; A:3-164; B:3-164; C:3-164; D:3-164; E:3-164; F:3-164; H:3-164; I:3-164CRYSTAL STRUCTURES OF A NOVEL OPEN PORE FERRITIN FROM THE HYPERTHERMOPHILIC ARCHAEON ARCHAEOGLOBUS FULGIDUS
(-)
Aureus col (Staphylococcus aureus subsp) (1)
2D5KB:2-150; A:3-150; C:2-148; D:2-148CRYSTAL STRUCTURE OF DPS FROM STAPHYLOCOCCUS AUREUS
(-)
Azotobacter vinelandii. Organism_taxid: 354 (1)
2FL0A:1-155; B:1-155; C:1-155; D:1-155; E:1-155; F:1-155; G:1-155; H:1-155OXIDIZED (ALL FERRIC) FORM OF THE AZOTOBACTER VINELANDII BACTERIOFERRITIN
(-)
Azotobacter vinelandii. Organism_taxid: 354. Strain: uw3 (2)
1SOFA:1-155; C:1-155; D:1-155; E:1-155; F:1-155; G:1-155; H:1-155; B:1-155CRYSTAL STRUCTURE OF THE AZOTOBACTER VINELANDII BACTERIOFERRITIN AT 2.6 A RESOLUTION
2FKZA:1-155; B:1-155; C:1-155; D:1-155; E:1-155; F:1-155; G:1-155; H:1-155REDUCED (ALL FERROUS) FORM OF THE AZOTOBACTER VINELANDII BACTERIOFERRITIN
(-)
Bacillus anthracis. Organism_taxid: 1392. (2)
1JI5A:4-145; B:4-145; C:4-145; D:4-145DLP-1 FROM BACILLUS ANTHRACIS
1JIGA:2-147; B:2-147; C:2-147; D:2-147DLP-2 FROM BACILLUS ANTHRACIS
(-)
Bacillus halodurans c-125. Organism_taxid: 272558. Strain: c-125, dsm18197, ferm 7344, jcm 9153. (1)
2RBDA:7-156; B:10-156CRYSTAL STRUCTURE OF A PUTATIVE SPORE COAT PROTEIN (BH2358) FROM BACILLUS HALODURANS C-125 AT 1.54 A RESOLUTION
(-)
Bacillus subtilis. Organism_taxid: 1423. Strain: 168. (1)
2CHPA:6-153; B:7-153; C:9-153; D:9-153CRYSTAL STRUCTURE OF THE DODECAMERIC FERRITIN MRGA FROM B. SUBTILIS 168
(-)
Brevibacillus brevis. Organism_taxid: 1393 (1)
1N1QA:1-149; B:1-149; C:4-149; D:6-149CRYSTAL STRUCTURE OF A DPS PROTEIN FROM BACILLUS BREVIS
(-)
Brucella melitensis biovar abortus 2308. Organism_taxid: 359391. Strain: biovar abortus 2308. (1)
3FVBA:-1-159; B:-1-159CRYSTAL STRUCTURE OF FERRITIN (BACTERIOFERRITIN) FROM BRUCELLA MELITENSIS
(-)
Brucella melitensis. Organism_taxid: 29459. Strain: 1719b. (1)
3GE4A:6-166; B:6-166; K:6-166; L:6-166; C:6-166; D:6-166; E:6-166; F:6-166; G:6-166; H:6-166; I:6-166; J:6-166CRYSTAL STRUCTURE OF FERRITIN:DNA-BINDING PROTEIN DPS FROM BRUCELLA MELITENSIS
(-)
Bullfrog (Rana catesbeiana) (7)
1BG7A:1-173LOCALIZED UNFOLDING AT THE JUNCTION OF THREE FERRITIN SUBUNITS. A MECHANISM FOR IRON RELEASE?
1MFRA:1-171; J:1-171; K:1-171; L:1-171; M:1-171; N:1-171; O:1-171; P:1-171; Q:1-171; R:1-171; S:1-171; B:1-171; T:1-171; U:1-171; V:1-171; W:1-171; X:1-171; C:1-171; D:1-171; E:1-171; F:1-171; G:1-171; H:1-171; I:1-171CRYSTAL STRUCTURE OF M FERRITIN
1RCCA:2-172BULLFROG RED CELL L FERRITIN TARTRATE/MG/PH 5.5
1RCDA:2-172BULLFROG RED CELL L FERRITIN TARTRATE/MG/PH 5.5
1RCEA:2-172BULLFROG RED CELL L FERRITIN SULFATE/MN/PH 6.3
1RCGA:2-172BULLFROG RED CELL L FERRITIN SULFATE/MN/PH 6.3
1RCIA:2-172BULLFROG RED CELL L FERRITIN TARTRATE/MG/PH 5.5
(-)
Campylobacter jejuni. Organism_taxid: 192222. Strain: nctc 11168. (1)
3KWOA:-1-147; D:0-147; B:2-147; C:2-147CRYSTAL STRUCTURE OF PUTATIVE BACTERIOFERRITIN FROM CAMPYLOBACTER JEJUNI
(-)
Campylobacter jejuni. Organism_taxid: 197. (1)
1KRQA:1-165CRYSTAL STRUCTURE ANALYSIS OF CAMPYLOBACTER JEJUNI FERRITIN
(-)
Campylobacter pylori j99 (Helicobacter pylori j99) (1)
3EGMA:-5-166; B:-5-166; C:-5-166; D:-5-166; E:-5-166; F:-5-166STRUCTURAL BASIS OF IRON TRANSPORT GATING IN HELICOBACTER PYLORI FERRITIN
(-)
Deinococcus radiodurans r1. Organism_taxid: 243230. Strain: r1 / dsm 20539 / ifo 15346 / lmg 4051 / ncib 9279. (1)
3BT5A:27-179CRYSTAL STRUCTURE OF DUF305 FRAGMENT FROM DEINOCOCCUS RADIODURANS
(-)
Desulfovibrio desulfuricans. Organism_taxid: 876. Strain: atcc 27774 (3)
1NF4A:4-172; B:4-172; C:4-172; D:4-172; E:4-172; F:4-172; G:4-172; J:4-172; K:4-172; N:4-172; O:4-172; H:3-172; I:3-172; L:3-172; M:3-172; P:3-172X-RAY STRUCTURE OF THE DESULFOVIBRIO DESULFURICANS BACTERIOFERRITIN: THE DIIRON SITE IN DIFFERENT STATES (REDUCED STRUCTURE)
1NF6G:4-172; K:4-172; M:4-172; O:5-173; A:3-172; B:3-172; C:3-172; D:3-172; E:3-172; H:3-172; I:3-172; J:3-172; L:3-172; N:3-172; P:3-172; F:2-172X-RAY STRUCTURE OF THE DESULFOVIBRIO DESULFURICANS BACTERIOFERRITIN: THE DIIRON SITE IN DIFFERENT CATALYTIC STATES ("CYCLED" STRUCTURE: REDUCED IN SOLUTION AND ALLOWED TO REOXIDISE BEFORE CRYSTALLISATION)
1NFVA:4-172; G:4-172; J:3-172; K:3-172; L:3-172; M:3-172; N:3-172; P:3-172; O:4-172; B:3-172; C:3-172; D:3-172; E:3-172; F:3-172; H:3-172; I:3-172X-RAY STRUCTURE OF DESULFOVIBRIO DESULFURICANS BACTERIOFERRITIN: THE DIIRON CENTRE IN DIFFERENT CATALYTIC STATES (AS-ISOLATED STRUCTURE)
(-)
Desulfovibrio vulgaris. Organism_taxid: 881 (1)
1JYBA:2-146CRYSTAL STRUCTURE OF RUBRERYTHRIN
(-)
Desulfovibrio vulgaris. Organism_taxid: 881. (5)
1LKMA:2-146CRYSTAL STRUCTURE OF DESULFOVIBRIO VULGARIS RUBRERYTHRIN ALL-IRON(III) FORM
1LKOA:2-146CRYSTAL STRUCTURE OF DESULFOVIBRIO VULGARIS RUBRERYTHRIN ALL-IRON(II) FORM
1LKPA:2-146CRYSTAL STRUCTURE OF DESULFOVIBRIO VULGARIS RUBRERYTHRIN ALL-IRON(II) FORM, AZIDE ADDUCT
1S2ZA:2-146X-RAY CRYSTAL STRUCTURE OF DESULFOVIBRIO VULGARIS RUBRERYTHRIN WITH DISPLACEMENT OF IRON BY ZINC AT THE DIIRON SITE
1S30A:2-146X-RAY CRYSTAL STRUCTURE OF DESULFOVIBRIO VULGARIS RUBRERYTHRIN WITH DISPLACEMENT OF IRON BY ZINC AT THE DIIRON SITE
(-)
Domestic horse,equine (Equus caballus) (8)
3F32A:2-171HORSE SPLEEN APOFERRITIN
3F33A:2-171APOFERRITIN: COMPLEX WITH PROPOFOL
3F34A:2-171APOFERRITIN: COMPLEX WITH 2,6-DIETHYLPHENOL
3F35A:2-171APOFERRITIN: COMPLEX WITH 2,6-DIETHYLPHENOL
3F36A:2-171APOFERRITIN: COMPLEX WITH 2-ISOPROPYLPHENOL
3F37A:2-171APOFERRITIN: COMPLEX WITH 2,6-DIMETHYLPHENOL
3F38A:2-171APOFERRITIN: COMPLEX WITH 2,6-DIMETHYLPHENOL
3F39A:2-171APOFERRITIN: COMPLEX WITH PHENOL
(-)
Escherichia coli bl21. Organism_taxid: 511693. Strain: bl21 (1)
2HTNA:1-158; B:1-158; C:1-158; D:1-158; E:1-158; F:1-158; G:1-158; H:1-158E. COLI BACTERIOFERRITIN IN ITS AS-ISOLATED FORM
(-)
Escherichia coli k-12. Organism_taxid: 83333. (1)
3GHQA:1-158; B:1-158; K:1-158; L:1-158; C:1-158; D:1-158; E:1-158; F:1-158; G:1-158; H:1-158; I:1-158; J:1-158CRYSTAL STRUCTURE OF E. COLI W35F BFR MUTANT
(-)
Escherichia coli k12. Organism_taxid: 83333. Strain: k-12. (1)
3E1JA:1-158; B:1-158; K:1-158; L:1-158; C:1-158; D:1-158; E:1-158; F:1-158; G:1-158; H:1-158; I:1-158; J:1-158CRYSTAL STRUCTURE OF E. COLI BACTERIOFERRITIN (BFR) WITH AN UNOCCUPIED FERROXIDASE CENTRE (APO-BFR).
(-)
Escherichia coli k12. Organism_taxid: 83333. Strain: k12. (1)
1OTKA:1-244; B:1-244STRUCTURAL GENOMICS, PROTEIN PAAC
(-)
Escherichia coli. Organism_taxid: 511693. Strain: bl21 (1)
2VXIA:1-157; B:1-157; K:1-157; L:1-157; C:1-157; D:1-157; E:1-157; F:1-157; G:1-157; H:1-157; I:1-157; J:1-157THE BINDING OF HEME AND ZINC IN ESCHERICHIA COLI BACTERIOFERRITIN
(-)
Escherichia coli. Organism_taxid: 562 (2)
1BCFA:1-158; B:1-158; K:1-158; L:1-158; C:1-158; D:1-158; E:1-158; F:1-158; G:1-158; H:1-158; I:1-158; J:1-158THE STRUCTURE OF A UNIQUE, TWO-FOLD SYMMETRIC, HAEM-BINDING SITE
1BFRA:1-158; B:1-158; C:1-158; D:1-158; E:1-158; F:1-158; G:1-158; H:1-158; I:1-158; J:1-158; K:1-158; L:1-158; M:1-158; N:1-158; O:1-158; P:1-158; Q:1-158; R:1-158; S:1-158; T:1-158; U:1-158; V:1-158; W:1-158; X:1-158IRON STORAGE AND ELECTRON TRANSPORT
(-)
Escherichia coli. Organism_taxid: 562. (3)
1F30A:12-167; B:12-167; C:12-167; D:12-167; E:12-167; F:12-167; G:12-167; H:12-167; I:12-167; J:12-167; K:12-167; L:12-167THE STRUCTURAL BASIS FOR DNA PROTECTION BY E. COLI DPS PROTEIN
1F33F:9-167; I:9-167; K:12-167; L:12-167; A:12-167; B:12-167; C:12-167; D:12-167; E:12-167; G:12-167; H:12-167; J:12-167THE STRUCTURAL BASIS FOR DNA PROTECTION BY E. COLI DPS PROTEIN
1JTSJ:10-167; U:11-167; E:12-167; M:12-167; N:12-167; O:12-167; R:12-167; S:12-167; T:12-167; W:12-167; X:12-167; A:13-167; B:13-167; F:13-167; G:13-167; L:13-167; V:13-167; C:14-167; D:14-167; H:14-167; I:14-167; K:14-167; P:14-167; Q:14-167DNA PROTECTION AND BINDING BY E. COLI DPS PROTEIN
(-)
Escherichia coli. Organism_taxid: 562. (4)
1EUMA:2-162; B:2-162; C:2-162; D:2-162; E:2-162; F:2-162CRYSTAL STRUCTURE OF THE E.COLI FERRITIN ECFTNA
1JREA:11-167; B:11-167; K:13-167; L:13-167; D:11-167; H:11-167; E:12-167; F:12-167; I:12-167; C:13-167; G:13-167; J:13-167DNA PROTECTION AND BINDING BY E. COLI DPS PROTEIN
1L8HC:10-167; A:12-167; E:12-167; G:12-167; H:12-167; I:12-167; J:12-167; D:13-167; K:13-167; B:14-167; F:14-167; L:14-167DNA PROTECTION AND BINDING BY E. COLI DPS PROTEIN
1L8IF:11-167; J:11-167; A:12-167; B:12-167; D:12-167; E:12-167; I:12-167; K:12-167; L:12-167; C:13-167; G:13-167; H:13-167DNA PROTECTION AND BINDING BY E. COLI DPS PROTEIN
(-)
Escherichia coli. Organism_taxid: 562. Strain: k-12 mg1655. (1)
2GS4A:4-161; B:4-157THE CRYSTAL STRUCTURE OF THE E.COLI STRESS PROTEIN YCIF.
(-)
Escherichia coli. Organism_taxid: 562. Strain: zk126 dps::kan. (1)
1DPSA:9-167; D:12-167; K:14-167; L:14-167; B:14-167; C:14-167; E:14-167; F:14-167; G:14-167; H:14-167; I:14-167; J:14-167THE CRYSTAL STRUCTURE OF DPS, A FERRITIN HOMOLOG THAT BINDS AND PROTECTS DNA
(-)
Escherichia coli. Organism_taxid: 83333. Strain: k-12. (7)
3E1LA:1-158; B:1-158; C:1-158; D:1-158; E:1-158; F:1-158; G:1-158; H:1-158; I:1-158; J:1-158; K:1-158; L:1-158CRYSTAL STRUCTURE OF E. COLI BACTERIOFERRITIN (BFR) SOAKED IN PHOSPHATE WITH AN ALTERNATIVE CONFORMATION OF THE UNOCCUPIED FERROXIDASE CENTRE (APO-BFR II).
3E1MA:1-158; B:1-158; C:1-158; D:1-158; E:1-158; F:1-158; G:1-158; H:1-158; I:1-158; J:1-158; K:1-158; L:1-158CRYSTAL STRUCTURE OF E. COLI BACTERIOFERRITIN (BFR) OBTAINED AFTER SOAKING APO-BFR CRYSTALS FOR 2.5 MINUTES IN FE2+ (2.5M FE(II)-BFR)
3E1NA:1-156; B:1-156; C:1-156; D:1-156; E:1-156; F:1-156; G:1-156; H:1-156; I:1-156; J:1-156; K:1-156; L:1-156CRYSTAL STRUCTURE OF E. COLI BACTERIOFERRITIN (BFR) AFTER A 65 MINUTE (AEROBIC) EXPOSURE TO FE(II) REVEALING A POSSIBLE MU-OXO BRIDGE/MU-HYDROXY BRIDGED DIIRON INTERMEDIATE AT THE FERROXIDASE CENTRE. (FE(III)-O-FE(III)-BFR).
3E1OA:1-156; B:1-156; C:1-156; D:1-156; E:1-156; F:1-156; G:1-156; H:1-156; I:1-156; J:1-156; K:1-156; L:1-156CRYSTAL STRUCTURE OF E. COLI BACTERIOFERRITIN (BFR) WITH TWO ZN(II) ION SITES AT THE FERROXIDASE CENTRE (ZN-BFR).
3E1PA:1-158; I:1-158; J:1-158; K:1-158; L:1-158; B:1-158; C:1-158; D:1-158; E:1-158; F:1-158; G:1-158; H:1-158CRYSTAL STRUCTURE OF E. COLI BACTERIOFERRITIN (BFR) IN WHICH THE FERROXIDASE CENTRE IS INHIBITED WITH ZN(II) AND HIGH OCCUPANCY IRON IS BOUND WITHIN THE CAVITY.
3E1QA:1-158; B:1-158; C:1-158; D:1-158; E:1-158; F:1-158; G:1-158; H:1-158; I:1-158; J:1-158; K:1-158; L:1-158CRYSTAL STRUCTURE OF W133F VARIANT E. COLI BACTERIOFERRITN WITH IRON.
3E2CA:1-158; B:1-158ESCHERICHIA COLI BACTERIOFERRITIN MUTANT E128R/E135R
(-)
Halobacterium salinarum. Organism_taxid: 2242. Strain: tom (4)
1MOJB:7-181; C:7-181; D:7-181; A:2-181CRYSTAL STRUCTURE OF AN ARCHAEAL DPS-HOMOLOGUE FROM HALOBACTERIUM SALINARUM
1TK6B:7-181; A:2-181; C:7-181; D:7-181IRON-OXO CLUSTERS BIOMINERALIZING ON PROTEIN SURFACES. STRUCTURAL ANALYSIS OF H.SALINARUM DPSA IN ITS LOW AND HIGH IRON STATES
1TKOB:7-181; C:7-181; D:7-181; A:2-181IRON-OXO CLUSTERS BIOMINERALIZING ON PROTEIN SURFACES. STRUCTURAL ANALYSIS OF H.SALINARUM DPSA IN ITS LOW AND HIGH IRON STATES
1TKPB:7-181; A:2-181; C:7-181; D:7-181IRON-OXO CLUSTERS BIOMINERALIZING ON PROTEIN SURFACES. STRUCTURAL ANALYSIS OF H.SALINARUM DPSA IN ITS LOW AND HIGH IRON STATES
(-)
Halobacterium salinarum. Organism_taxid: 2242. Strain: wildtype strain- tom (1)
1TJOB:7-181; C:7-181; D:7-181; A:2-181IRON-OXO CLUSTERS BIOMINERALIZING ON PROTEIN SURFACES. STRUCTURAL ANALYSIS OF H.SALINARUM DPSA IN ITS LOW AND HIGH IRON STATES
(-)
Helicobacter pylori. Organism_taxid: 210. (1)
1JI4A:1-144; B:1-144; K:1-144; L:1-144; C:1-144; D:1-144; E:1-144; F:1-144; G:1-144; H:1-144; I:1-144; J:1-144NAP PROTEIN FROM HELICOBACTER PYLORI
(-)
Helicobacter pylori. Organism_taxid: 210. Strain: j99. (5)
3BVEE:1005-166; A:1006-166; B:1006-166; C:1006-166; D:1006-166; F:1005-167STRUCTURAL BASIS FOR THE IRON UPTAKE MECHANISM OF HELICOBACTER PYLORI FERRITIN
3BVFA:1005-166; B:1005-166; C:1005-166; D:1005-166; E:1005-166; F:1005-166STRUCTURAL BASIS FOR THE IRON UPTAKE MECHANISM OF HELICOBACTER PYLORI FERRITIN
3BVIA:1005-166; B:1005-166; C:1005-166; D:1005-166; E:1005-166; F:1005-167STRUCTURAL BASIS FOR THE IRON UPTAKE MECHANISM OF HELICOBACTER PYLORI FERRITIN
3BVKA:1005-166; E:1005-166; F:1005-166; B:1005-166; C:1005-166; D:1005-166STRUCTURAL BASIS FOR THE IRON UPTAKE MECHANISM OF HELICOBACTER PYLORI FERRITIN
3BVLA:1005-166; B:1005-166; C:1005-166; D:1005-166; E:1005-166; F:1005-167STRUCTURAL BASIS FOR THE IRON UPTAKE MECHANISM OF HELICOBACTER PYLORI FERRITIN
(-)
Horse (Equus caballus) (31)
1AEWA:6-175L-CHAIN HORSE APOFERRITIN
1DATA:1-174CUBIC CRYSTAL STRUCTURE RECOMBINANT HORSE L APOFERRITIN
1GWGA:2-171TRI-IODIDE DERIVATIVE OF APOFERRITIN
1HRSA:1-174A CRYSTALLOGRAPHIC STUDY OF HAEM BINDING TO FERRITIN
1IERA:1-174CUBIC CRYSTAL STRUCTURE OF NATIVE HORSE SPLEEN FERRITIN
1IESA:1-174; B:1-174; C:1-174; D:1-174; E:1-174; F:1-174TETRAGONAL CRYSTAL STRUCTURE OF NATIVE HORSE SPLEEN FERRITIN
1XZ1A:2-171COMPLEX OF HALOTHANE WITH APOFERRITIN
1XZ3A:2-171COMPLEX OF APOFERRITIN WITH ISOFLURANE
2G4HA:6-175ANOMALOUS SUBSTRUCTURE OF APOFERRITIN
2GYDA:2-171COMPLEX OF EQUINE APOFERRITIN WITH THE H-DIAZIFLURANE PHOTOLABELING REAGENT
2V2IA:2-171WILD TYPE RECOMBINANT HORSE SPLEEN APOFERRITIN COCRYSTALLIZED WITH HAEMIN IN ACIDIC CONDITIONS
2V2JA:2-171WILD TYPE RECOMBINANT HORSE SPLEEN APOFERRITIN COCRYSTALLIZED WITH HAEMIN IN BASIC CONDITIONS
2V2LA:2-172MUTANT (E53,56,57,60Q) RECOMBINANT HORSE SPLEEN APOFERRITIN COCRYSTALLIZED WITH HAEMIN IN ACIDIC CONDITIONS
2V2MA:2-171MUTANT (E53,56,57,60Q) RECOMBINANT HORSE SPLEEN APOFERRITIN COCRYSTALLIZED WITH HAEMIN IN BASIC CONDITIONS
2V2NA:1-171MUTANT R59M RECOMBINANT HORSE SPLEEN APOFERRITIN COCRYSTALLIZED WITH HAEMIN IN ACIDIC CONDITIONS
2V2OA:1-171MUTANT R59M RECOMBINANT HORSE SPLEEN APOFERRITIN COCRYSTALLIZED WITH HAEMIN IN BASIC CONDITIONS
2V2PA:2-171MUTANT (E53,56,57,60Q AND R59M) RECOMBINANT HORSE SPLEEN APOFERRITIN COCRYSTALLIZED WITH HAEMIN IN ACIDIC CONDITIONS
2V2RA:2-172MUTANT (E53,56,57,60Q AND R59M) RECOMBINANT HORSE SPLEEN APOFERRITIN COCRYSTALLIZED WITH HAEMIN IN BASIC CONDITIONS
2V2SA:1-171MUTANT R59M RECOMBINANT HORSE SPLEEN APOFERRITIN CRYSTALLIZED IN ACIDIC CONDITIONS
2W0OA:2-171HORSE SPLEEN APOFERRITIN
2Z5PA:1-171APO-FR WITH LOW CONTENT OF PD IONS
2Z5QA:2-174APO-FR WITH INTERMEDIATE CONTENT OF PD ION
2Z5RA:2-173APO-FR WITH HIGH CONTENT OF PD IONS
2ZA6A:2-172RECOMBINANT HORSE L-CHAIN APOFERRITIN
2ZA7A:5-174RECOMBINANT HORSE L-CHAIN APOFERRITIN N-TERMINAL DELETION MUTANT (RESIDUES 1-4)
2ZA8A:9-173RECOMBINANT HORSE L-CHAIN APOFERRITIN N-TERMINAL DELETION MUTANT (RESIDUES 1-8)
2ZG7X:1-173CRYSTAL STRUCTURE OF PD(ALLYL)/APO-FR
2ZG8X:1-173CRYSTAL STRUCTURE OF PD(ALLYL)/APO-H49AFR
2ZG9X:1-173CRYSTAL STRUCTURE OF PD(ALLYL)/APO-H114AFR
2ZURX:1-173CRYSTAL STRUCTURE OF RH(NBD)/APO-FR
3FI6A:2-173APO-H49AFR WITH HIGH CONTENT OF PD IONS
(-)
House mouse (Mus musculus) (2)
1H96A:1-180RECOMBINANT MOUSE L-CHAIN FERRITIN
1LB3A:6-184STRUCTURE OF RECOMBINANT MOUSE L CHAIN FERRITIN AT 1.2 A RESOLUTION
(-)
Human (Homo sapiens) (16)
1FHAA:5-184SOLVING THE STRUCTURE OF HUMAN H FERRITIN BY GENETICALLY ENGINEERING INTERMOLECULAR CRYSTAL CONTACTS
1R03A:6-176CRYSTAL STRUCTURE OF A HUMAN MITOCHONDRIAL FERRITIN
2CEIA:5-176RECOMBINANT HUMAN H FERRITIN, K86Q MUTANT, SOAKED WITH ZN
2CHIA:5-176RECOMBINANT HUMAN H FERRITIN, K86Q AND E27D MUTANT
2CIHA:5-176RECOMBINANT HUMAN H FERRITIN, K86Q AND E27D MUTANT, SOAKED WITH ZN
2CLUA:5-176RECOMBINANT HUMAN H FERRITIN, K86Q AND E107D MUTANT
2CN6A:5-176RECOMBINANT HUMAN H FERRITIN, K86Q AND E107D MUTANT, SOAKED WITH ZN IONS
2CN7A:5-176RECOMBINANT HUMAN H FERRITIN, K86Q, E27D AND E107D MUTANT
2FFXJ:5-177STRUCTURE OF HUMAN FERRITIN L. CHAIN
2FG4A:5-175STRUCTURE OF HUMAN FERRITIN L CHAIN
2FG8A:5-178; B:5-178; C:5-178; D:5-178; E:5-178; F:5-178; G:5-178; H:5-178STRUCTURE OF HUMAN FERRITIN L CHAIN
2FHAA:5-176HUMAN H CHAIN FERRITIN
2IU2A:5-176RECOMBINANT HUMAN H FERRITIN, K86Q, E27D AND E107D MUTANT, SOAKED WITH ZN IONS
2Z6MA:5-176; B:5-176; C:5-176; D:5-176; E:5-176; F:5-176; G:5-176; H:5-176; I:5-176; J:5-176; K:5-176; L:5-176CRYSTAL STRUCTURE OF HUMAN FERRITIN H8 AS BIOTEMPLATE FOR NOBLE METAL NANOPARTICLE SYNTHESIS
3ERZA:5-176; B:5-176; C:5-176; D:5-176; E:5-176; F:5-176; G:5-176; H:5-176; I:5-176; J:5-176; K:5-176; L:5-176DIRECTING NOBLE METAL ION CHEMISTRY WITHIN A DESIGNED FERRITIN PROTEIN. MERCURY IONS ON THE THREE-FOLD CHANNEL
3ES3A:5-176DIRECTING NOBLE METAL ION CHEMISTRY WITHIN A DESIGNED FERRITIN PROTEIN. THE COMPLEX WITH GOLD IONS. FERRITIN H8-H9X MUTANT
(-)
Lactobacillus plantarum. Organism_taxid: 1590. (1)
1O9IA:1-203; B:1-203; C:1-203; D:1-203; E:1-203; F:1-203CRYSTAL STRUCTURE OF THE Y42F MUTANT OF MANGANESE CATALASE FROM LACTOBACILLUS PLANTARUM AT 1.33A RESOLUTION
(-)
Lactobacillus plantarum. Organism_taxid: 1590. Strain: atcc 14431. (2)
1JKUA:1-203; E:1-203; F:1-203; B:1-203; C:1-203; D:1-203CRYSTAL STRUCTURE OF MANGANESE CATALASE FROM LACTOBACILLUS PLANTARUM
1JKVA:1-197; B:1-203; C:1-203; D:1-203; E:1-203; F:1-203CRYSTAL STRUCTURE OF MANGANESE CATALASE FROM LACTOBACILLUS PLANTARUM COMPLEXED WITH AZIDE
(-)
Listeria innocua. Organism_taxid: 1642 (1)
1QGHA:7-156; B:7-156; K:7-156; L:7-156; C:7-156; D:7-156; E:7-156; F:7-156; G:7-156; H:7-156; I:7-156; J:7-156THE X-RAY STRUCTURE OF THE UNUSUAL DODECAMERIC FERRITIN FROM LISTERIA INNOCUA, REVEALS A NOVEL INTERSUBUNIT IRON BINDING SITE.
(-)
Listeria innocua. Organism_taxid: 1642. (3)
2BJYL:5-156; B:6-156; A:7-156; C:7-156; D:7-156; E:7-156; F:7-156; G:7-156; I:7-156; J:7-156; H:8-156; K:8-156THE X-RAY CRYSTAL STRUCTURE OF LISTERIA INNOCUA DPS H31G-H43G MUTANT.
2BK6C:3-156; A:7-156; B:7-156; D:7-156; E:7-156; F:7-156THE X-RAY CRYSTAL STRUCTURE OF THE LISTERIA INNOCUA H31G DPS MUTANT.
2BKCA:7-156; E:7-156; F:7-156; G:7-156; H:7-156; I:7-156; J:7-156; K:7-156; L:7-156; M:7-156; N:7-156; O:7-156; P:7-156; Q:7-156; S:7-156; T:7-156; U:7-156; V:7-156; X:7-156; Y:7-156; R:8-156; B:7-156; C:7-156; D:7-156THE X-RAY STRUCTURE OF THE H43G LISTERIA INNOCUA DPS MUTANT
(-)
Listeria monocytogenes. Organism_taxid: 1639. (1)
2IY4U:3-156; A:6-156; D:7-156; E:7-156; H:7-156; I:7-156; J:7-156; K:7-156; L:7-156; N:7-156; P:7-156; T:7-156; C:6-156; V:7-156; X:7-156; Y:7-156; M:8-156; F:6-156; G:6-156; O:6-156; Q:6-156; R:6-156; S:6-156; B:7-156X-RAY STRUCTURE OF DPS FROM LISTERIA MONOCYTOGENES
(-)
Magnetospirillum magnetotacticum ms-1. Organism_taxid: 272627. Strain:ms-1. (1)
2OH3A:3-149CRYSTAL STRUCTURE OF COG1633: UNCHARACTERIZED CONSERVED PROTEIN (ZP_00055496.1) FROM MAGNETOSPIRILLUM MAGNETOTACTICUM MS-1 AT 2.00 A RESOLUTION
(-)
Mc2 155 (Mycobacterium smegmatis str) (1)
3BKNA:1-161; B:1-161; K:1-161; L:1-161; C:1-161; D:1-161; E:1-161; F:1-161; G:1-161; H:1-161; I:1-161; J:1-161THE STRUCTURE OF MYCOBACTERIAL BACTERIOFERRITIN
(-)
Mit 9313 (Prochlorococcus marinus str) (1)
2OC5A:27-241CRYSTAL STRUCTURE OF A FERRITIN-LIKE PROTEIN (PMT1231) FROM PROCHLOROCOCCUS MARINUS STR. MIT 9313 AT 1.68 A RESOLUTION
(-)
Mycobacterium smegmatis. Organism_taxid: 1772. (1)
2YW6B:11-160; C:11-160; A:11-158STRUCTURAL STUDIES OF N TERMINAL DELETION MUTANT OF DPS FROM MYCOBACTERIUM SMEGMATIS
(-)
Mycobacterium smegmatis. Organism_taxid: 1772. (5)
1UVHA:5-161; B:5-161; C:5-161; D:5-161X-RAY STRUCTURE OF DPS FROM MYCOBACTERIUM SMEGMATIS
1VEIA:1-175MYCOBACTERIUM SMEGMATIS DPS
1VELA:3-165; B:3-165; D:3-165; F:3-165; E:1-165; C:3-168MYCOBACTERIUM SMEGMATIS DPS TETRAGONAL FORM
1VEQA:3-160; B:3-160; C:3-160; D:3-160; E:3-160; F:3-160; G:3-160; H:3-160; I:3-160; J:3-160; K:3-160; L:3-160MYCOBACTERIUM SMEGMATIS DPS HEXAGONAL FORM
2YW7C:11-157; A:11-156; F:11-156; H:12-157; J:12-157; B:11-155; D:11-155; E:11-155; I:12-156; G:13-156CRYSTAL STRUCTURE OF C-TERMINAL DELETION MUTANT OF MYCOBACTERIUM SMEGMATIS DPS
(-)
Mycobacterium tuberculosis. Organism_taxid: 1773. (1)
2IB0A:17-151; B:17-148CRYSTAL STRUCTURE OF A CONSERVED HYPOTHETICAL PROTEIN, RV2844, FROM MYCOBACTERIUM TUBERCULOSIS
(-)
Mycobacterium tuberculosis. Organism_taxid: 83332. Strain: h37rv. (1)
2WTLA:2-162; B:2-162; C:2-162; D:2-162; E:2-162; F:2-162CRYSTAL STRUCTURE OF BFRA FROM M. TUBERCULOSIS
(-)
Pseudomonas aeruginosa. Organism_taxid: 287. (4)
3IS7C:2-156; B:3-156; D:3-156; E:3-156; F:3-156; G:3-156; I:3-156; J:3-156; K:3-156; L:3-156; M:3-156; N:3-156; O:3-156; P:3-156; Q:3-156; S:3-156; T:3-156; U:3-156; V:3-156; X:3-156; A:4-156; H:2-156; R:2-156; W:2-156STRUCTURE OF MINERALIZED BFRB FROM PSEUDOMONAS AERUGINOSA TO 2.1A RESOLUTION
3IS8A:2-156; B:2-156; C:2-156; E:2-156; F:2-156; G:2-156; J:2-156; K:2-156; L:2-156; M:2-156; N:2-156; O:2-156; P:2-156; Q:2-156; R:2-156; S:2-156; T:2-156; V:2-156; W:2-156; X:2-156; D:3-156; H:3-156; I:3-156; U:3-156STRUCTURE OF MINERALIZED BFRB SOAKED WITH FESO4 FROM PSEUDOMONAS AERUGINOSA TO 2.25A RESOLUTION
3ISEW:1-156; H:2-156; R:2-156; A:3-156; B:3-156; C:3-156; D:3-156; E:3-156; F:3-156; G:3-156; I:3-156; J:3-156; K:3-156; L:3-156; M:3-156; N:3-156; O:3-156; P:3-156; Q:3-156; S:3-156; T:3-156; U:3-156; V:3-156; X:3-156STRUCTURE OF MINERALIZED BFRB (DOUBLE SOAK) FROM PSEUDOMONAS AERUGINOSA TO 2.8A RESOLUTION
3ISFD:1-157; C:2-157; A:2-156; B:2-156; E:2-156; F:2-156STRUCTURE OF NON-MINERALIZED BFRB (AS-ISOLATED) FROM PSEUDOMONAS AERUGINOSA TO 2.07A RESOLUTION
(-)
Pseudomonas putida kt2440. Organism_taxid: 160488. Strain: kt2440. (1)
2ITBB:4-201; A:3-201CRYSTAL STRUCTURE OF A PUTATIVE TRNA-(MS(2)IO(6)A)-HYDROXYLASE (PP_2188) FROM PSEUDOMONAS PUTIDA KT2440 AT 2.05 A RESOLUTION
(-)
Pyrococcus furiosus. Organism_taxid: 2261. (6)
1NNQA:2-132; B:2-132RUBRERYTHRIN FROM PYROCOCCUS FURIOSUS PFU-1210814
2HR5A:2-132; B:2-132PF1283- RUBRERYTHRIN FROM PYROCOCCUS FURIOSUS IRON BOUND FORM
2JD6_:1-167; 1:1-167; A:1-167; B:1-167; C:1-167; D:1-167; E:1-167; F:1-167; G:1-167; H:1-167; I:1-167; J:1-167; 2:1-167; K:1-167; L:1-167; M:1-167; N:1-167; O:1-167; P:1-167; Q:1-167; R:1-167; S:1-167; T:1-167; 3:1-167; U:1-167; V:1-167; W:1-167; X:1-167; Y:1-167; Z:1-167; 4:1-167; 5:1-167; 6:1-167; 7:1-167; 8:1-167; 9:1-167CRYSTAL STRUCTURE OF THE AS ISOLATED FERRITIN FROM THE HYPERTHERMOPHILIC ARCHAEAL ANAEROBE PYROCOCCUS FURIOSUS
2JD7_:1-167; 1:1-167; 2:1-167; 3:1-167; 4:1-167; 5:1-167; 6:1-167; 7:1-167; 8:1-167; 9:1-167; A:1-167; B:1-167; C:1-167; D:1-167; E:1-167; F:1-167; G:1-167; H:1-167; I:1-167; J:1-167; K:1-167; L:1-167; M:1-167; N:1-167; O:1-167; P:1-167; Q:1-167; R:1-167; S:1-167; T:1-167; U:1-167; V:1-167; W:1-167; X:1-167; Y:1-167; Z:1-167CRYSTAL STRUCTURE OF THE FE-SOAKED FERRITIN FROM THE HYPERTHERMOPHILIC ARCHAEAL ANAEROBE PYROCOCCUS FURIOSUS
2JD8_:1-167; S:1-167; T:1-167; U:1-167; V:1-167; W:1-167; X:1-167; Y:1-167; Z:1-167; 1:1-167; 2:1-167; 3:1-167; 4:1-167; 5:1-167; 6:1-167; 7:1-167; 8:1-167; 9:1-167; A:1-167; B:1-167; C:1-167; D:1-167; E:1-167; F:1-167; G:1-167; H:1-167; I:1-167; J:1-167; K:1-167; L:1-167; M:1-167; N:1-167; O:1-167; P:1-167; Q:1-167; R:1-167CRYSTAL STRUCTURE OF THE ZN-SOAKED FERRITIN FROM THE HYPERTHERMOPHILIC ARCHAEAL ANAEROBE PYROCOCCUS FURIOSUS
2X17M:1-170; N:1-170; O:1-170; P:1-170; Y:1-170; _:1-171; 2:1-171; 3:1-171; 6:1-171; 9:1-171; G:1-171; K:1-171; R:1-171; 1:1-172; 4:1-172; 5:1-172; 7:1-172; 8:1-172; H:1-172; I:1-172; J:1-172; L:1-172; Q:1-172; Z:1-172THE X-RAY STRUCTURE OF FERRITIN FROM PYROCOCCUS FURIOSUS LOADED WITH AG(I)
(-)
Rhodobacter capsulatus. Organism_taxid: 1061 (1)
1JGCA:1-160; B:1-160; C:1-160THE 2.6 A STRUCTURE RESOLUTION OF RHODOBACTER CAPSULATUS BACTERIOFERRITIN WITH METAL-FREE DINUCLEAR SITE AND HEME IRON IN A CRYSTALLOGRAPHIC SPECIAL POSITION
(-)
Rhodobacter sphaeroides. Organism_taxid: 272943. Strain: 2.4.1. (1)
3GVYB:1-158; C:1-158; A:1-157CRYSTAL STRUCTURE OF BACTERIOFERRITIN FROM R.SPHAEROIDES
(-)
Rhodopseudomonas palustris cga009. Organism_taxid: 258594. Strain: cga009. (1)
2GYQA:1-169; B:3-159YCFI, A PUTATIVE STRUCTURAL PROTEIN FROM RHODOPSEUDOMONAS PALUSTRIS.
(-)
Soybeans (Glycine max) (2)
3A68E:18-207; H:15-207; L:15-207; A:14-207; B:14-207; D:14-207; F:14-207; G:14-207; I:14-207; J:14-207; K:14-207; M:14-207; N:14-207; O:14-207; P:14-207; Q:14-207; S:14-207; T:14-207; U:14-207; V:14-207; W:14-207; X:14-207; C:13-208; R:12-207CRYSTAL STRUCTURE OF PLANT FERRITIN REVEALS A NOVEL METAL BINDING SITE THAT FUNCTIONS AS A TRANSIT SITE FOR METAL TRANSFER IN FERRITIN
3A9QE:30-207; G:15-207; Q:15-207; S:15-207; U:15-207; V:15-207; A:14-207; B:14-207; C:14-207; D:14-207; F:14-207; J:14-207; H:15-207; T:14-207; W:14-207; X:14-207; R:12-207; I:15-207; K:15-207; L:15-207; M:15-207; N:15-207; O:15-207; P:15-207CRYSTAL STRUCTURE ANALYSIS OF E173A VARIANT OF THE SOYBEAN FERRITIN SFER4
(-)
Streptococcus pyogenes. Organism_taxid: 1314. (3)
2WLAA:3-175STREPTOCOCCUS PYOGENES DPR
2WLUA:4-175IRON-BOUND CRYSTAL STRUCTURE OF STREPTOCOCCUS PYOGENES DPR
2XGWA:4-175ZINC-BOUND CRYSTAL STRUCTURE OF STREPTOCOCCUS PYOGENES DPR
(-)
Streptococcus suis. Organism_taxid: 1307. Strain: d282. (5)
1UMNG:8-172; I:20-172; D:21-172; E:21-172; J:21-172; K:21-172; A:22-172; B:22-172; C:22-172; F:22-172; H:22-172; L:22-172CRYSTAL STRUCTURE OF DPS-LIKE PEROXIDE RESISTANCE PROTEIN (DPR) FROM STREPTOCOCCUS SUIS
2BW1G:8-172; K:20-172; D:21-172; A:22-172; B:22-172; C:22-172; E:22-172; F:22-172; H:22-172; I:22-172; J:22-172; L:22-172IRON-BOUND CRYSTAL STRUCTURE OF DPS-LIKE PEROXIDE RESISTANCE PROTEIN (DPR) FROM STREPTOCOCCUS SUIS.
2CF7A:14-172; G:20-172; L:22-172; B:23-172; C:21-172; D:21-172; I:21-172; E:22-172; F:22-172; H:22-172; J:22-172; K:22-172ASP74ALA MUTANT CRYSTAL STRUCTURE FOR DPS-LIKE PEROXIDE RESISTANCE PROTEIN DPR FROM STREPTOCOCCUS SUIS.
2UX1G:8-172; I:20-172; D:21-172; F:21-172; H:21-172; J:21-172; K:21-172; L:21-172; A:22-172; B:22-172; C:22-172; E:23-172IDENTIFICATION OF TWO ZINC-BINDING SITES IN THE STREPTOCOCCUS SUIS DPR PROTEIN
2V15G:8-172; I:20-172; D:21-172; F:21-172; H:21-172; J:21-172; K:21-172; L:21-172; A:22-172; B:22-172; C:21-171; E:22-172TERBIUM BINDING IN STREPTOCOCCUS SUIS DPR PROTEIN
(-)
Streptomyces coelicolor a3(2). Organism_taxid: 100226. Strain: a3(2),m145. (1)
2QF9A:38-203; B:38-203CRYSTAL STRUCTURE OF PUTATIVE SECRETED PROTEIN DUF305 FROM STREPTOMYCES COELICOLOR
(-)
Synechococcus elongatus. Organism_taxid: 32046. (1)
2VXXA:5-176; D:5-176; B:4-176; C:4-176X-RAY STRUCTURE OF DPSA FROM THERMOSYNECHOCOCCUS ELONGATUS
(-)
Thermotoga maritima msb8. Organism_taxid: 243274. Strain: msb8. (1)
1VLGA:1-164; B:1-164; C:1-164; D:1-164; E:1-164; F:1-164; G:1-164; H:1-164CRYSTAL STRUCTURE OF FERRITIN (TM1128) FROM THERMOTOGA MARITIMA AT 2.00 A RESOLUTION
(-)
Thermotoga maritima msb8. Organism_taxid: 243274. Strain: msb8. (1)
1Z4AA:1-164; B:1-164; C:1-164; D:1-164; E:1-164; F:1-164; G:1-164; H:1-164FERRITIN FROM T. MARITIMA
(-)
Thermotoga maritima. Organism_taxid: 2336. (1)
1VJXA:-3-145CRYSTAL STRUCTURE OF A PUTATIVE FERRITIN-LIKE DIIRON-CARBOXYLATE PROTEIN (TM1526) FROM THERMOTOGA MARITIMA AT 2.30 A RESOLUTION
(-)
Treponema pallidum. Organism_taxid: 160. (1)
2FJCB:22-177; A:27-177; P:27-177; C:28-177; E:28-177; G:28-177; N:28-177; O:28-177; D:27-177; F:27-177; H:27-177; I:27-177; J:27-177; K:27-177; L:27-177; M:27-177CRYSTAL STRUCTURE OF ANTIGEN TPF1 FROM TREPONEMA PALLIDUM
(-)
Vulgaris str (Desulfovibrio vulgaris subsp) (4)
1B71A:2-146RUBRERYTHRIN
1DVBA:2-146RUBRERYTHRIN
1QYBA:2-146X-RAY CRYSTAL STRUCTURE OF DESULFOVIBRIO VULGARIS RUBRERYTHRIN WITH ZINC SUBSTITUTED INTO THE [FE(SCYS)4] SITE AND ALTERNATIVE DIIRON SITE STRUCTURES
1RYTA:2-146RUBRERYTHRIN
(-)
Topology: Formate dehydrogenase/DMSO reductase fold (4)
(-)
Homologous Superfamily: Formate dehydrogenase/DMSO reductase domain (4)
(-)
Thermus thermophilus. Organism_taxid: 262724. Strain: hb27. Thermus thermophilus. Organism_taxid: 262724. Strain: hb27. (4)
2VPWC:2-252; G:1-251POLYSULFIDE REDUCTASE WITH BOUND MENAQUINONE
2VPXC:2-252; G:1-251POLYSULFIDE REDUCTASE WITH BOUND QUINONE (UQ1)
2VPYC:2-252; G:1-251POLYSULFIDE REDUCTASE WITH BOUND QUINONE INHIBITOR, PENTACHLOROPHENOL (PCP)
2VPZC:2-252; G:1-251POLYSULFIDE REDUCTASE NATIVE STRUCTURE
(-)
Topology: Four Helix Bundle (Hemerythrin (Met), subunit A) (300)
(-)
Homologous Superfamily: Backbone structure of the membrane domain of e. Coli histidine kinase receptor kdpd, (1)
(-)
Escherichia coli. Organism_taxid: 83333. Strain: k12. (1)
2KSFA:396-502BACKBONE STRUCTURE OF THE MEMBRANE DOMAIN OF E. COLI HISTIDINE KINASE RECEPTOR KDPD, CENTER FOR STRUCTURES OF MEMBRANE PROTEINS (CSMP) TARGET 4312C
(-)
Homologous Superfamily: [code=1.20.120.10, no name defined] (45)
(-)
[unclassified] (2)
1YYJA:1-106THE NMR SOLUTION STRUCTURE OF A REDESIGNED APOCYTOCHROME B562:RD-APOCYT B562
1YYXA:1-106THE SOLUTION STRUCTURE OF A REDESIGNED APOCYTOCHROME B562 (RD-APOCYT B562) AT 2.8M UREA
(-)
Achromobacter xylosoxidans. Organism_taxid: 85698 (1)
1CGNA:2-125CYTOCHROME C'
(-)
Achromobacter xylosoxidans. Organism_taxid: 85698. Strain: ncib 11015. (1)
1E85A:2-125CYTOCHROME C' FROM ALCALIGENES XYLOSOXIDANS-REDUCED STRUCTURE WITH NO BOUND TO PROXIMAL SIDE OF HEME
(-)
Alcaligenes sp.. Organism_taxid: 512 (1)
1CGOA:2-125CYTOCHROME C'
(-)
Alcaligenes xylosoxidans. Organism_taxid: 85698. Strain: ncib 11015. (3)
1E83A:2-126CYTOCHROME C' FROM ALCALIGENES XYLOSOXIDANS - OXIDIZED STRUCTURE
1E84A:2-126CYTOCHROME C' FROM ALCALIGENES XYLOSOXIDANS - REDUCED STRUCTURE
1E86A:2-126CYTOCHROME C' FROM ALCALIGENES XYLOSOXIDANS - REDUCED STRUCTURE WITH CO BOUND TO DISTAL SIDE OF HEME
(-)
Allochromatium vinosum. Organism_taxid: 1049 (1)
1BBHA:1-131; B:1-131ATOMIC STRUCTURE OF A CYTOCHROME C' WITH AN UNUSUAL LIGAND-CONTROLLED DIMER DISSOCIATION AT 1.8 ANGSTROMS RESOLUTION
(-)
Escherichia coli. Organism_taxid: 562 (5)
1APCA:1-106SOLUTION STRUCTURE OF APOCYTOCHROME B562
256BA:1-106; B:1-106IMPROVEMENT OF THE 2.5 ANGSTROMS RESOLUTION MODEL OF CYTOCHROME B562 BY REDETERMINING THE PRIMARY STRUCTURE AND USING MOLECULAR GRAPHICS
3IQ5A:1-106; B:1-106; C:1-106; D:1-106CRYSTAL STRUCTURE OF AN ENGINEERED METAL-FREE TETRAMERIC CYTOCHROME CB562 COMPLEX TEMPLATED BY ZN-COORDINATION
3IQ6A:1-106; D:1-106; E:1-106; F:1-106; G:1-106; H:1-106; B:1-106; C:1-106CRYSTAL STRUCTURE OF A TETRAMERIC ZN-BOUND CYTOCHROME CB562 COMPLEX WITH COVALENTLY AND NON-COVALENTLY STABILIZED INTERFACES
3L1MA:1-106CRYSTAL STRUCTURE OF A NI-DIRECTED DIMER OF CYTOCHROME CB562 WITH A QUINOLATE-HISTIDINE HYBRID COORDINATION MOTIF
(-)
Escherichia coli. Organism_taxid: 562. (13)
1LM3B:1-106; D:1-106A MULTI-GENERATION ANALYSIS OF CYTOCHROME B562 REDOX VARIANTS: EVOLUTIONARY STRATEGIES FOR MODULATING REDOX POTENTIAL REVEALED USING A LIBRARY APPROACH
1M6TA:1-106CRYSTAL STRUCTURE OF B562RIL, A REDESIGNED FOUR HELIX BUNDLE
2QLAA:1-106; C:1-106; D:1-106; B:1-106CRYSTAL STRUCTURE OF A 16-HELIX BUNDLE ARCHITECTURE PRODUCED BY THE ZINC-MEDIATED SELF ASSEMBLY OF FOUR CYTOCHROME CB562 MOLECULES
3C62A:1-106; B:1-106; C:1-106; D:1-106TETRAMERIC CYTOCHROME CB562 (H59/D62/H63/H73/A74/H77) ASSEMBLY STABILIZED BY INTERPROTEIN ZINC COORDINATION
3C63A:1-106; B:1-106; C:1-106; D:1-106TETRAMERIC CYTOCHROME CB562 (K34/H59/D62/H63/H73/A74/H77) ASSEMBLY STABILIZED BY INTERPROTEIN ZINC COORDINATION
3DE8A:1-106; B:1-106; C:1-106; D:1-106CRYSTAL STRUCTURE OF A DIMERIC CYTOCHROME CB562 ASSEMBLY INDUCED BY COPPER COORDINATION
3DE9A:1-106CRYSTAL STRUCTURE OF A TRIMERIC CYTOCHROME CB562 ASSEMBLY INDUCED BY NICKEL COORDINATION
3FOOA:1-106; B:1-106; C:1-106; D:1-106; E:1-106; F:1-106; G:1-106; H:1-106; I:1-106; J:1-106; K:1-106; L:1-106A TRIANGULAR CYTOCHROME B562 SUPERSTRUCTURE MEDIATED BY NI COORDINATION - MONOCLINIC FORM
3FOPA:1-106; B:1-106A TRIANGULAR CYTOCHROME B562 SUPERSTRUCTURE MEDIATED BY NI COORDINATION - HEXAGONAL FORM
3HNIA:1-106; B:1-106; C:1-106; D:1-106; E:1-106; F:1-106; G:1-106; H:1-106CRYSTAL STRUCTURE OF THE ZN-INDUCED TETRAMER OF THE ENGINEERED CYT CB562 VARIANT RIDC-1
3HNJA:1-106; B:1-106; C:1-106; D:1-106CRYSTAL STRUCTURE OF THE ZN-INDUCED TETRAMER OF THE ENGINEERED CYT CB562 VARIANT RIDC-2
3HNKA:1-106; B:1-106CRYSTAL STRUCTURE OF THE DIMERIC ASSEMBLY OF THE CYT CB562 VARIANT RIDC-1
3HNLA:1-106; B:1-106CRYSTAL STRUCTURE OF THE CU-INDUCED DIMER OF THE ENGINEERED CYT CB562 VARIANT RIDC-1
(-)
Escherichia coli. Organism_taxid: 562. (3)
1QPUA:1-106SOLUTION STRUCTURE OF OXIDIZED ESCHERICHIA COLI CYTOCHROME B562
1QQ3A:1-106THE SOLUTION STRUCTURE OF THE HEME BINDING VARIANT ARG98CYS OF OXIDIZED ESCHERICHIA COLI CYTOCHROME B562
2BC5A:1-106; B:1-106; C:1-106; D:1-106CRYSTAL STRUCTURE OF E. COLI CYTOCHROME B562 WITH ENGINEERED C-TYPE HEME LINKAGES
(-)
Human (Homo sapiens) (2)
1YZAA:1-106THE SOLUTION STRUCTURE OF A REDESIGNED APOCYTOCHROME B562 (RD-APOCYT B562) WITH THE N-TERMINAL HELIX UNFOLDED
1YZCA:22-106THE SOLUTION STRUCTURE OF A REDESIGNED APOCYTOCHROME B562 (RD-APOCYT B562) WITH THE N- AND A PART OF THE C-TERMINAL HELICES UNFOLDED
(-)
Phaeospirillum molischianum. Organism_taxid: 1083 (1)
2CCYA:2-128; B:2-128STRUCTURE OF FERRICYTOCHROME C(PRIME) FROM RHODOSPIRILLUM MOLISCHIANUM AT 1.67 ANGSTROMS RESOLUTION
(-)
Rhodobacter capsulatus. Organism_taxid: 1061. Strain: m110 (2)
1EKYA:1-129MODEL STRUCTURE FROM NON-NOE BASED NMR STRUCTURE CALCULATION
1NBBA:1-129; B:1-129N-BUTYLISOCYANIDE BOUND RHODOBACTER CAPSULATUS CYTOCHROME C'
(-)
Rhodobacter capsulatus. Organism_taxid: 1061. Strain: m110. (1)
1CPQA:1-129CYTOCHROME C' FROM RHODOPSEUDOMONAS CAPSULATA
(-)
Rhodobacter capsulatus. Organism_taxid: 1061. Strain: mt110. (1)
1RCPA:1-129; B:1-129CYTOCHROME C'
(-)
Rhodobacter capsulatus. Organism_taxid: 1061. Strain: st. Louis (1)
1CPRA:1-129ST. LOUIS CYTOCHROME C' FROM THE PURPLE PHOTOTROPIC BACTERIUM, RHODOBACTER CAPSULATUS
(-)
Rhodobacter sphaeroides. Organism_taxid: 1063. (1)
1GQAA:1-130; D:1-130CYTOCHROME C' FROM RHODOBACTER SPHERIODES
(-)
Rhodocyclus gelatinosus. Organism_taxid: 28068. Strain: dsm 1709. (1)
2J9BA:1-127; B:1-129THE CRYSTAL STRUCTURE OF CYTOCHROME C' FROM RUBRIVIVAX GELATINOSUS AT 1.5 A RESOLUTION AND PH 6.3
(-)
Rhodopseudomonas palustris. Organism_taxid: 1076 (1)
1A7VA:1-125; B:1-125CYTOCHROME C' FROM RHODOPSEUDOMONAS PALUSTRIS
(-)
Rhodopseudomonas palustris. Organism_taxid: 1076. (2)
1MQVA:1-123; B:1-123CRYSTAL STRUCTURE OF THE Q1A/F32W/W72F MUTANT OF RHODOPSEUDOMONAS PALUSTRIS CYTOCHROME C' (PRIME) EXPRESSED IN E. COLI
1S05A:1-129NMR-VALIDATED STRUCTURAL MODEL FOR OXIDIZED R.PALUSTRIS CYTOCHROME C556
(-)
Rubrivivax gelatinosus. Organism_taxid: 28068 (1)
1JAFA:1-128; B:1-128CRYSTAL STRUCTURE OF CYTOCHROME C' FROM RHODOCYCLUS GELATINOSUS AT 2.5 ANGSTOMS RESOLUTION
(-)
Rubrivivax gelatinosus. Organism_taxid: 28068. Strain: dsm 1709. (1)
2J8WA:1-129; B:1-129THE CRYSTAL STRUCTURE OF CYTOCHROME C' FROM RUBRIVIVAX GELATINOSUS AT 1.3 A RESOLUTION AND PH 8.0
(-)
Homologous Superfamily: [code=1.20.120.140, no name defined] (15)
(-)
Acidianus ambivalens. Organism_taxid: 2283. (2)
1J8MF:3-89SIGNAL RECOGNITION PARTICLE CONSERVED GTPASE DOMAIN FROM A. AMBIVALENS
1J8YF:3-88SIGNAL RECOGNITION PARTICLE CONSERVED GTPASE DOMAIN FROM A. AMBIVALENS T112A MUTANT
(-)
Escherichia coli. Organism_taxid: 562. (1)
1FTSA:201-284SIGNAL RECOGNITION PARTICLE RECEPTOR FROM E. COLI
(-)
Sulfolobus solfataricus. Organism_taxid: 2287. (1)
1QZXA:1-88; B:1-88CRYSTAL STRUCTURE OF THE COMPLETE CORE OF ARCHAEAL SRP AND IMPLICATIONS FOR INTER-DOMAIN COMMUNICATION
(-)
Thermotoga maritima. Organism_taxid: 2336. (1)
1VMAA:1-83; B:1-83CRYSTAL STRUCTURE OF CELL DIVISION PROTEIN FTSY (TM0570) FROM THERMOTOGA MARITIMA AT 1.60 A RESOLUTION
(-)
Thermus aquaticus. Organism_taxid: 271. (3)
1NG1A:2-90N AND GTPASE DOMAINS OF THE SIGNAL SEQUENCE RECOGNITION PROTEIN FFH FROM THERMUS AQUATICUS
2NG1A:2-90N AND GTPASE DOMAINS OF THE SIGNAL SEQUENCE RECOGNITION PROTEIN FFH FROM THERMUS AQUATICUS
3NG1A:2-90; B:2-90N AND GTPASE DOMAINS OF THE SIGNAL SEQUENCE RECOGNITION PROTEIN FFH FROM THERMUS AQUATICUS
(-)
Thermus aquaticus. Organism_taxid: 271. (6)
1JPJA:2-90GMPPNP COMPLEX OF SRP GTPASE NG DOMAIN
1JPNA:2-90; B:2-90GMPPNP COMPLEX OF SRP GTPASE NG DOMAIN
1LS1A:2-90T. AQUATICUS FFH NG DOMAIN AT 1.1A RESOLUTION
1O87A:2-90; B:2-90A NEW MGGDP COMPLEX OF THE FFH NG DOMAIN
1OKKA:4-90; D:21-78HOMO-HETERODIMERIC COMPLEX OF THE SRP GTPASES
1RJ9B:14-90; A:27-95,A:292-303STRUCTURE OF THE HETERODIMER OF THE CONSERVED GTPASE DOMAINS OF THE SIGNAL RECOGNITION PARTICLE (FFH) AND ITS RECEPTOR (FTSY)
(-)
Thermus aquaticus. Organism_taxid: 271. Cell_line: bl21. (1)
1FFHA:2-90N AND GTPASE DOMAINS OF THE SIGNAL SEQUENCE RECOGNITION PROTEIN FFH FROM THERMUS AQUATICUS
(-)
Homologous Superfamily: [code=1.20.120.160, no name defined] (15)
(-)
Baker's yeast (Saccharomyces cerevisiae) (6)
1C02A:2-167; B:2-167CRYSTAL STRUCTURE OF YEAST YPD1P
1C03A:2-168; D:2-168; B:2-168; C:2-168CRYSTAL STRUCTURE OF YPD1P (TRICLINIC FORM)
1OXBA:2-167COMPLEX BETWEEN YPD1 AND SLN1 RESPONSE REGULATOR DOMAIN IN SPACE GROUP P2(1)2(1)2(1)
1OXKA:2-167; C:2-167; E:2-167; G:2-167; I:2-167; K:2-167COMPLEX BETWEEN YPD1 AND SLN1 RESPONSE REGULATOR DOMAIN IN SPACE GROUP P3(2)
1QSPA:3-167; B:3-167CRYSTAL STRUCTURE OF THE YEAST PHOSPHORELAY PROTEIN YPD1
2R25A:2-167COMPLEX OF YPD1 AND SLN1-R1 WITH BOUND MG2+ AND BEF3-
(-)
Caulobacter crescentus cb15. Organism_taxid: 190650. Strain: cb15. (1)
2OOCB:8-112; A:8-111CRYSTAL STRUCTURE OF HISTIDINE PHOSPHOTRANSFERASE SHPA (NP_419930.1) FROM CAULOBACTER CRESCENTUS AT 1.52 A RESOLUTION
(-)
Escherichia coli. Organism_taxid: 562. (4)
1A0BA:658-774HISTIDINE-CONTAINING PHOSPHOTRANSFER DOMAIN OF ARCB FROM ESCHERICHIA COLI
1BDJB:658-774COMPLEX STRUCTURE OF HPT DOMAIN AND CHEY
1FR0A:654-778SOLUTION STRUCTURE OF THE HISTIDINE-CONTAINING PHOSPHOTRANSFER DOMAIN OF ANAEROBIC SENSOR KINASE ARCB FROM ESCHERICHIA COLI.
2A0BA:657-774HISTIDINE-CONTAINING PHOSPHOTRANSFER DOMAIN OF ARCB FROM ESCHERICHIA COLI
(-)
Escherichia coli. Organism_taxid: 562. Strain: xl1 blue. (1)
1SR2A:775-890SOLUTION STRUCTURE OF THE ESCHERICHIA COLI YOJN HISTIDINE-PHOSPHOTRANSFERASE (HPT) DOMAIN
(-)
Salmonella typhimurium. Organism_taxid: 602. (1)
1I5ND:5-133; A:4-131; C:5-129; B:4-131CRYSTAL STRUCTURE OF THE P1 DOMAIN OF CHEA FROM SALMONELLA TYPHIMURIUM
(-)
Thermotoga maritima. Organism_taxid: 2336. (1)
1TQGA:0-104CHEA PHOSPHOTRANSFERASE DOMAIN FROM THERMOTOGA MARITIMA
(-)
Vibrio harveyi. Organism_taxid: 669. (1)
1Y6DA:1-114SOLUTION STRUCTURE AND DYNAMICS OF LUXU FROM VIBRIO HARVEYI, A PHOSPHOTRANSFERASE PROTEIN INVOLVED IN BACTERIAL QUORUM SENSING
(-)
Homologous Superfamily: [code=1.20.120.180, no name defined] (10)
(-)
Baker's yeast (Saccharomyces cerevisiae) (2)
1FNTc:6-221; d:6-221; m:6-221; n:6-221; o:6-221; p:6-221; e:6-221; f:6-221; g:6-221; h:6-221; i:6-221; j:6-221; k:6-221; l:6-221CRYSTAL STRUCTURE OF THE 20S PROTEASOME FROM YEAST IN COMPLEX WITH THE PROTEASOME ACTIVATOR PA26 FROM TRYPANOSOME BRUCEI AT 3.2 ANGSTROMS RESOLUTION
1Z7Qc:1002-1221; d:1002-1221; e:1002-1221; f:1002-1221; g:1002-1221; h:1002-1221; i:1002-1221; j:1002-1221; k:1002-1221; l:1002-1221; m:1002-1221; n:1002-1221; o:1002-1221; p:1002-1221CRYSTAL STRUCTURE OF THE 20S PROTEASOME FROM YEAST IN COMPLEX WITH THE PROTEASOME ACTIVATOR PA26 FROM TRYPANOSOME BRUCEI AT 3.2 ANGSTROMS RESOLUTION
(-)
Human (Homo sapiens) (1)
1AVOB:103-242; D:103-242; F:103-242; H:103-242; J:103-242; L:103-242; N:103-242PROTEASOME ACTIVATOR REG(ALPHA)
(-)
Thermoplasma acidophilum. Organism_taxid: 2303. (5)
1YA7O:4-221; R:4-221; S:4-221; T:4-221; U:4-221; P:4-221; Q:4-221IMPLICATIONS FOR INTERACTIONS OF PROTEASOME WITH PAN AND PA700 FROM THE 1.9 A STRUCTURE OF A PROTEASOME-11S ACTIVATOR COMPLEX
1YARO:4-221; P:4-221; Q:4-221; R:4-221; S:4-221; T:4-221; U:4-221STRUCTURE OF ARCHEABACTERIAL 20S PROTEASOME MUTANT D9S- PA26 COMPLEX
3IPMO:4-221; P:4-221; Q:4-221; R:4-221; S:4-221; T:4-221; U:4-221CRYSTAL STRUCTURE OF ARCHAEAL 20S PROTEASOME IN COMPLEX WITH THE C-TERMINUS OF PAN
3JRMO:4-221; P:4-221; Q:4-221; R:4-221; S:4-221; T:4-221; U:4-221CRYSTAL STRUCTURE OF ARCHAEAL 20S PROTEASOME IN COMPLEX WITH MUTATED P26 ACTIVATOR
3JTLO:4-221; P:4-221; Q:4-221; R:4-221; S:4-221; T:4-221; U:4-221CRYSTAL STRUCTURE OF ARCHAEAL 20S PROTEASOME IN COMPLEX WITH MUTATED P26 ACTIVATOR
(-)
Thermoplasma acidophilum. Organism_taxid: 2303. (2)
1YAUO:4-221; P:4-221; Q:4-221; R:4-221; S:4-221; T:4-221; U:4-221STRUCTURE OF ARCHEABACTERIAL 20S PROTEASOME- PA26 COMPLEX
3JSEO:4-221; R:4-221; S:4-221; T:4-221; U:4-221; P:4-221; Q:4-221CRYSTAL STRUCTURE OF ARCHAEAL 20S PROTEASOME IN COMPLEX WITH MUTATED P26 ACTIVATOR
(-)
Homologous Superfamily: [code=1.20.120.220, no name defined] (1)
(-)
Escherichia coli. Organism_taxid: 562. (1)
1C17M:95-265A1C12 SUBCOMPLEX OF F1FO ATP SYNTHASE
(-)
Homologous Superfamily: [code=1.20.120.230, no name defined] (23)
(-)
Chicken (Gallus gallus) (9)
1QKRB:880-1064; A:881-1061CRYSTAL STRUCTURE OF THE VINCULIN TAIL AND A PATHWAY FOR ACTIVATION
1ST6A:896-1065; A:719-835CRYSTAL STRUCTURE OF A CYTOSKELETAL PROTEIN
1T01A:130-254VINCULIN COMPLEXED WITH THE VBS1 HELIX FROM TALIN
1U6HA:129-251VINCULIN HEAD (0-258) IN COMPLEX WITH THE TALIN VINCULIN BINDING SITE 2 (849-879)
1XWJA:129-251VINCULIN HEAD (1-258) IN COMPLEX WITH THE TALIN VINCULIN BINDING SITE 3 (1945-1969)
1ZVZA:129-252VINCULIN HEAD (0-258) IN COMPLEX WITH THE TALIN ROD RESIDUE 820-844
1ZW2A:129-250VINCULIN HEAD (0-258) IN COMPLEX WITH THE TALIN ROD RESIDUES 2345-2369
1ZW3A:129-250VINCULIN HEAD (0-258) IN COMPLEX WITH THE TALIN ROD RESIDUES 1630-1652
2GDCA:130-250STRUCTURE OF VINCULIN VD1 / IPAA560-633 COMPLEX
(-)
House mouse (Mus musculus) (3)
1DOVA:82-262CRYSTAL STRUCTURE OF THE ALPHA-CATENIN DIMERIZATION DOMAIN
1DOWA:57-261CRYSTAL STRUCTURE OF A CHIMERA OF BETA-CATENIN AND ALPHA-CATENIN
1L7CA:507-624; C:507-624; B:507-624; A:389-506; B:391-506; C:393-506ALPHA-CATENIN FRAGMENT, RESIDUES 385-651
(-)
Human (Homo sapiens) (11)
1H6GA:507-630; B:507-624; A:388-506; B:392-506ALPHA-CATENIN M-DOMAIN
1RKCA:130-258HUMAN VINCULIN HEAD (1-258) IN COMPLEX WITH TALIN'S VINCULIN BINDING SITE 3 (RESIDUES 1944-1969)
1RKEA:130-258; B:882-1063HUMAN VINCULIN HEAD (1-258) IN COMPLEX WITH HUMAN VINCULIN TAIL (879-1066)
1SYQA:130-258HUMAN VINCULIN HEAD DOMAIN VH1, RESIDUES 1-258, IN COMPLEX WITH HUMAN TALIN'S VINCULIN BINDING SITE 1, RESIDUES 607-636
1TR2A:896-1061; B:896-1062; A:719-835; B:719-835CRYSTAL STRUCTURE OF HUMAN FULL-LENGTH VINCULIN (RESIDUES 1-1066)
1YDIA:130-258HUMAN VINCULIN HEAD DOMAIN (VH1, 1-258) IN COMPLEX WITH HUMAN ALPHA-ACTININ'S VINCULIN-BINDING SITE (RESIDUES 731-760)
2GWWA:130-258HUMAN VINCULIN (HEAD DOMAIN, VH1, RESIDUES 1-258) IN COMPLEX WITH SHIGELLA'S IPAA VINCULIN BINDING SITE (RESIDUES 602-633)
2HSQA:130-258HUMAN VINCULIN (HEAD DOMAIN, VH1, RESIDUES 1-258) IN COMPLEX WITH SHIGELLA'S IPAA VINCULIN BINDING SITE 2 (RESIDUES 565-587)
2IBFA:130-258HUMAN VINCULIN'S HEAD DOMAIN (VH1, RESIDUES 1-258) IN COMPLEX WITH TWO VINCULIN BINDING SITES OF SHIGELLA FLEXNERI'S IPAA (RESIDUES 565-587)
3H2UC:883-1063; A:882-1063HUMAN RAVER1 RRM1, RRM2, AND RRM3 DOMAINS IN COMPLEX WITH HUMAN VINCULIN TAIL DOMAIN VT
3H2VB:884-1063; A:884-1061; D:884-1063; C:884-1063HUMAN RAVER1 RRM1 DOMAIN IN COMPLEX WITH HUMAN VINCULIN TAIL DOMAIN VT
(-)
Homologous Superfamily: [code=1.20.120.240, no name defined] (5)
(-)
Borrelia burgdorferi b31. Organism_taxid: 224326. Strain: b31. (1)
1GGQA:39-200; B:40-201; C:39-200; D:40-201OUTER SURFACE PROTEIN C (OSPC) OF BORRELIA BURGDORFERI STRAIN B31
(-)
Borrelia turicatae. Organism_taxid: 142. (2)
1YJGA:45-201; B:45-201; E:45-201; D:47-201VARIABLE SMALL PROTEIN 1 OF BORRELIA TURICATAE (VSPA OR VSP1)
2GA0A:38-201; G:38-201; H:38-201; B:38-201; C:38-201; D:38-201; E:38-201; F:38-201VARIABLE SMALL PROTEIN 1 OF BORRELIA TURICATAE (VSPA OR VSP1)
(-)
Lyme disease spirochete (Borrelia burgdorferi) (2)
1F1MA:40-201; B:40-201; C:40-201; D:40-201CRYSTAL STRUCTURE OF OUTER SURFACE PROTEIN C (OSPC)
1G5ZA:40-203CRYSTAL STRUCTURE OF LYME DISEASE ANTIGEN OUTER SURFACE PROTEIN C (OSPC) FROM BORRELIA BURGDORFERI STRAIN N40
(-)
Homologous Superfamily: [code=1.20.120.260, no name defined] (6)
(-)
Pseudomonas aeruginosa. Organism_taxid: 287. (2)
1HE1A:95-229; B:95-229CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN THE GAP DOMAIN OF THE PSEUDOMONAS AERUGINOSA EXOS TOXIN AND HUMAN RAC
1HE9A:102-235CRYSTAL STRUCTURE OF THE GAP DOMAIN OF THE PSEUDOMONAS AERUGINOSA EXOS TOXIN
(-)
Pseudomonas aeruginosa. Organism_taxid: 287. (1)
1R4TA:111-232SOLUTION STRUCTURE OF EXOENZYME S
(-)
Salmonella typhimurium. Organism_taxid: 602. (2)
1G4US:167-293CRYSTAL STRUCTURE OF THE SALMONELLA TYROSINE PHOSPHATASE AND GTPASE ACTIVATING PROTEIN SPTP BOUND TO RAC1
1G4WR:171-290CRYSTAL STRUCTURE OF THE SALMONELLA TYROSINE PHOSPHATASE AND GTPASE ACTIVATING PROTEIN SPTP
(-)
Yersinia pestis. Organism_taxid: 632. (1)
1HY5B:2100-2220; A:1100-1218CRYSTAL STRUCTURE OF THE CATALYTIC DOMAIN OF YOPE-YERSINIA PESTIS GAP EFFECTOR PROTEIN.
(-)
Homologous Superfamily: [code=1.20.120.290, no name defined] (1)
(-)
Spinach (Spinacia oleracea) (1)
1NZEA:38-149CRYSTAL STRUCTURE OF PSBQ POLYPEPTIDE OF PHOTOSYSTEM II FROM HIGHER PLANTS
(-)
Homologous Superfamily: [code=1.20.120.310, no name defined] (4)
(-)
Baker's yeast (Saccharomyces cerevisiae) (2)
1JR8A:7-111; B:8-112CRYSTAL STRUCTURE OF ERV2P
1JRAA:7-112; B:7-112; C:7-111; D:9-111CRYSTAL STRUCTURE OF ERV2P
(-)
Norway rat (Rattus norvegicus) (1)
1OQCB:14-124; A:13-124; C:13-124; D:13-124THE CRYSTAL STRUCTURE OF AUGMENTER OF LIVER REGENERATION: A MAMMALIAN FAD DEPENDENT SULFHYDRYL OXIDASE
(-)
Thale cress (Arabidopsis thaliana) (1)
2HJ3A:8-108; B:8-107STRUCTURE OF THE ARABIDOPSIS THALIANA ERV1 THIOL OXIDASE
(-)
Homologous Superfamily: [code=1.20.120.320, no name defined] (2)
(-)
Timothy grass (Phleum pratense) (2)
1L3PA:150-251CRYSTAL STRUCTURE OF THE FUNCTIONAL DOMAIN OF THE MAJOR GRASS POLLEN ALLERGEN PHL P 5B
1NLXA:404-507; J:2204-2307; K:2404-2507; L:2604-2707; M:2804-2907; N:3004-3107; B:604-707; C:804-907; D:1004-1107; E:1204-1307; F:1404-1507; G:1604-1707; H:1804-1907; I:2004-2107CRYSTAL STRUCTURE OF PHL P 6, A MAJOR TIMOTHY GRASS POLLEN ALLERGEN CO-CRYSTALLIZED WITH ZINC
(-)
Homologous Superfamily: [code=1.20.120.340, no name defined] (2)
(-)
Aquifex aeolicus vf5. Organism_taxid: 224324. Strain: vf5. (2)
1ORJD:4002-4126; A:1002-1127; B:2018-2122; C:3018-3121FLAGELLAR EXPORT CHAPERONE
1ORYA:1006-1124FLAGELLAR EXPORT CHAPERONE IN COMPLEX WITH ITS COGNATE BINDING PARTNER
(-)
Homologous Superfamily: [code=1.20.120.50, no name defined] (10)
(-)
Phascolopsis gouldii. Organism_taxid: 6442. (2)
1I4YA:1-113; B:1-113; C:1-113; D:1-113; E:1-113; F:1-113; G:1-113; H:1-113THE CRYSTAL STRUCTURE OF PHASCOLOPSIS GOULDII WILD TYPE METHEMERYTHRIN
1I4ZA:1-113; C:1-113; D:1-113; E:1-113; F:1-113; G:1-113; H:1-113; B:1-113THE CRYSTAL STRUCTURE OF PHASCOLOPSIS GOULDII L98Y METHEMERYTHRIN
(-)
Themiste dyscritum. Organism_taxid: 6436 (4)
1HMDA:1-113; C:1-113; D:1-113; B:1-113THE STRUCTURE OF DEOXY AND OXY HEMERYTHRIN AT 2.0 ANGSTROMS RESOLUTION
1HMOA:1-113; B:1-113; C:1-113; D:1-113THE STRUCTURE OF DEOXY AND OXY HEMERYTHRIN AT 2.0 ANGSTROMS RESOLUTION
2HMQA:1-113; B:1-113; C:1-113; D:1-113THE STRUCTURES OF MET AND AZIDOMET HEMERYTHRIN AT 1.66 ANGSTROMS RESOLUTION
2HMZA:1-113; B:1-113; C:1-113; D:1-113THE STRUCTURES OF MET AND AZIDOMET HEMERYTHRIN AT 1.66 ANGSTROMS RESOLUTION
(-)
Themiste zostericola. Organism_taxid: 6437 (1)
2MHRA:1-118STRUCTURE OF MYOHEMERYTHRIN IN THE AZIDOMET STATE AT 1.7(SLASH)1.3 ANGSTROMS RESOLUTION
(-)
Themiste zostericola. Organism_taxid: 6437. Cell_line: bl21. (2)
1A7DA:1-118CHLOROMET MYOHEMERYTHRIN FROM THEMISTE ZOSTERICOLA
1A7EA:1-118HYDROXOMET MYOHEMERYTHRIN FROM THEMISTE ZOSTERICOLA
(-)
Homologous Superfamily: [code=1.20.120.70, no name defined] (5)
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[unclassified] (3)
1CGME:1-160STRUCTURE DETERMINATION OF CUCUMBER GREEN MOTTLE MOSAIC VIRUS BY X-RAY FIBER DIFFRACTION. SIGNIFICANCE FOR THE EVOLUTION OF TOBAMOVIRUSES
1VTMP:1-158STRUCTURE OF THE U2 STRAIN OF TOBACCO MOSAIC VIRUS REFINED AT 3.5 ANGSTROMS RESOLUTION USING X-RAY FIBER DIFFRACTION
2TMVP:1-154VISUALIZATION OF PROTEIN-NUCLEIC ACID INTERACTIONS IN A VIRUS. REFINED STRUCTURE OF INTACT TOBACCO MOSAIC VIRUS AT 2.9 ANGSTROMS RESOLUTION BY X-RAY FIBER DIFFRACTION
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Ribgrass mosaic virus. Organism_taxid: 51680. (1)
1RMVA:1-156RIBGRASS MOSAIC VIRUS, FIBER DIFFRACTION
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Tobacco mosaic virus. Organism_taxid: 12242 (1)
1EI7A:1-158; B:201-358TMV COAT PROTEIN REFINED FROM THE 4-LAYER AGGREGATE
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Homologous Superfamily: [code=1.20.120.80, no name defined] (26)
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Bovine (Bos taurus) (7)
3ABKC:71-261; P:71-261BOVINE HEART CYTOCHROME C OXIDASE AT THE NO-BOUND FULLY REDUCED STATE (50K)
3ABLC:71-261; P:71-261BOVINE HEART CYTOCHROME C OXIDASE AT THE FULLY OXIDIZED STATE (15-S X-RAY EXPOSURE DATASET)
3ABMC:71-261; P:71-261BOVINE HEART CYTOCHROME C OXIDASE AT THE FULLY OXIDIZED STATE (200-S X-RAY EXPOSURE DATASET)
3AG1C:71-261; P:71-261BOVINE HEART CYTOCHROME C OXIDASE IN THE CARBON MONOXIDE-BOUND FULLY REDUCED STATE AT 280 K
3AG2C:71-261; P:71-261BOVINE HEART CYTOCHROME C OXIDASE IN THE CARBON MONOXIDE-BOUND FULLY REDUCED STATE AT 100 K
3AG3C:71-261; P:71-261BOVINE HEART CYTOCHROME C OXIDASE IN THE NITRIC OXIDE-BOUND FULLY REDUCED STATE AT 100 K
3AG4C:71-261; P:71-261BOVINE HEART CYTOCHROME C OXIDASE IN THE CYANIDE ION-BOUND FULLY REDUCED STATE AT 100 K
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Cattle (Bos taurus) (15)
1OCCC:71-261; P:71-261STRUCTURE OF BOVINE HEART CYTOCHROME C OXIDASE AT THE FULLY OXIDIZED STATE
1OCOC:71-261; P:71-261BOVINE HEART CYTOCHROME C OXIDASE IN CARBON MONOXIDE-BOUND STATE
1OCRC:71-261; P:71-261BOVINE HEART CYTOCHROME C OXIDASE IN THE FULLY REDUCED STATE
1OCZC:71-261; P:71-261BOVINE HEART CYTOCHROME C OXIDASE IN AZIDE-BOUND STATE
1V54C:71-261; P:71-261BOVINE HEART CYTOCHROME C OXIDASE AT THE FULLY OXIDIZED STATE
1V55C:71-261; P:71-261BOVINE HEART CYTOCHROME C OXIDASE AT THE FULLY REDUCED STATE
2DYRC:71-261; P:71-261BOVINE HEART CYTOCHROME C OXIDASE AT THE FULLY OXIDIZED STATE
2DYSC:71-261; P:71-261BOVINE HEART CYTOCHROME C OXIDASE MODIFIED BY DCCD
2EIJC:71-261; P:71-261BOVINE HEART CYTOCHROME C OXIDASE IN THE FULLY REDUCED STATE
2EIKC:71-261; P:71-261CADMIUM ION BINDING STRUCTURE OF BOVINE HEART CYTOCHROME C OXIDASE IN THE FULLY REDUCED STATE
2EILC:71-261; P:71-261CADMIUM ION BINDING STRUCTURE OF BOVINE HEART CYTOCHROME C OXIDASE IN THE FULLY OXIDIZED STATE
2EIMC:71-261; P:71-261ZINC ION BINDING STRUCTURE OF BOVINE HEART CYTOCHROME C OXIDASE IN THE FULLY REDUCED STATE
2EINC:71-261; P:71-261ZINC ION BINDING STRUCTURE OF BOVINE HEART CYTOCHROME C OXIDASE IN THE FULLY OXIDIZED STATE
2OCCC:71-261; P:71-261BOVINE HEART CYTOCHROME C OXIDASE AT THE FULLY OXIDIZED STATE
2ZXWC:71-261; P:71-261BOVINE HEART CYTOCHROME C OXIDASE AT THE FULLY OXIDIZED STATE (1-S X-RAY EXPOSURE DATASET)
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Escherichia coli. Organism_taxid: 562. (1)
1FFTC:19-203; H:19-203THE STRUCTURE OF UBIQUINOL OXIDASE FROM ESCHERICHIA COLI
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Paracoccus denitrificans. Organism_taxid: 266. (1)
1QLEC:78-273CRYO-STRUCTURE OF THE PARACOCCUS DENITRIFICANS FOUR-SUBUNIT CYTOCHROME C OXIDASE IN THE COMPLETELY OXIDIZED STATE COMPLEXED WITH AN ANTIBODY FV FRAGMENT
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Rhodobacter sphaeroides. Organism_taxid: 1063. (1)
1M57C:71-266; I:71-266STRUCTURE OF CYTOCHROME C OXIDASE FROM RHODOBACTER SPHAEROIDES (EQ(I-286) MUTANT))
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Rhodobacter sphaeroides. Organism_taxid: 1063. Rhodobacter sphaeroides. Organism_taxid: 1063. Rhodobacter sphaeroides. Organism_taxid: 1063. (1)
1M56C:71-266; I:71-266STRUCTURE OF CYTOCHROME C OXIDASE FROM RHODOBACTOR SPHAEROIDES (WILD TYPE)
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Homologous Superfamily: alix/aip1 in complex with the ypdl late domain (4)
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Human (Homo sapiens) (4)
2OEVA:359-405,A:542-640CRYSTAL STRUCTURE OF ALIX/AIP1
2R02A:359-405,A:542-640CRYSTAL STRUCTURE OF ALIX/AIP1 IN COMPLEX WITH THE HIV-1 YPLTSL LATE DOMAIN
2R03A:359-405,A:542-640CRYSTAL STRUCTURE OF ALIX/AIP1 IN COMPLEX WITH THE YPDL LATE DOMAIN
2R05A:359-405,A:542-640CRYSTAL STRUCTURE OF ALIX/AIP1 IN COMPLEX WITH THE HIV-1 YPLASL LATE DOMAIN
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Homologous Superfamily: Apolipoprotein (APOA1 / APOA4 / APOE FAMILY) (15)
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Human (Homo sapiens) (12)
1B68A:23-162APOLIPOPROTEIN E4 (APOE4), 22K FRAGMENT
1BZ4A:22-165APOLIPOPROTEIN E3 (APO-E3), TRUNCATION MUTANT 165
1EA8A:23-162APOLIPOPROTEIN E3 22KD FRAGMENT LYS146GLU MUTANT
1GS9A:22-165APOLIPOPROTEIN E4, 22K DOMAIN
1H7IA:23-162APOLIPOPROTEIN E3 22KD FRAGMENT LYS146GLN MUTANT
1LE2A:23-166STRUCTURAL BASIS FOR ALTERED FUNCTION IN THE COMMON MUTANTS OF HUMAN APOLIPOPROTEIN-E
1LE4A:24-162STRUCTURAL BASIS FOR ALTERED FUNCTION IN THE COMMON MUTANTS OF HUMAN APOLIPOPROTEIN-E
1LPEA:23-166THREE-DIMENSIONAL STRUCTURE OF THE LDL RECEPTOR-BINDING DOMAIN OF HUMAN APOLIPOPROTEIN E
1NFNA:23-164APOLIPOPROTEIN E3 (APOE3)
1NFOA:23-163APOLIPOPROTEIN E2 (APOE2, D154A MUTATION)
1OR2A:23-163APOLIPOPROTEIN E3 (APOE3) TRUNCATION MUTANT 165
1OR3A:22-164APOLIPOPROTEIN E3 (APOE3), TRIGONAL TRUNCATION MUTANT 165
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Migratory locust (Locusta migratoria) (2)
1AEPA:6-158MOLECULAR STRUCTURE OF AN APOLIPOPROTEIN DETERMINED AT 2.5-ANGSTROMS RESOLUTION
1LS4A:1-164NMR STRUCTURE OF APOLIPOPHORIN-III FROM LOCUSTA MIGRATORIA
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Tobacco hornworm (Manduca sexta) (1)
1EQ1A:1-166NMR STRUCTURE OF AN EXCHANGEABLE APOLIPOPROTEIN-MANDUCA SEXTA APOLIPOPHORIN-III
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Homologous Superfamily: Aspartate receptor Chemotaxis Sensory Transducers Family (8)
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Escherichia coli. Organism_taxid: 562 (1)
2ASRA:38-179THE THREE-DIMENSIONAL STRUCTURE OF THE ASPARTATE RECEPTOR FROM ESCHERICHIA COLI
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Salmonella typhimurium. Organism_taxid: 602 (2)
1VLSA:35-180LIGAND BINDING DOMAIN OF THE WILD-TYPE ASPARTATE RECEPTOR
1VLTB:38-180; A:39-180LIGAND BINDING DOMAIN OF THE WILD-TYPE ASPARTATE RECEPTOR WITH ASPARTATE
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Salmonella typhimurium. Organism_taxid: 602. (3)
1JMWA:35-180PROPAGATING CONFORMATIONAL CHANGES OVER LONG (AND SHORT) DISTANCES
1LIHA:25-184THREE-DIMENSIONAL STRUCTURES OF THE LIGAND-BINDING DOMAIN OF THE BACTERIAL ASPARTATE RECEPTOR WITH AND WITHOUT A LIGAND
2LIGA:25-181; B:25-181THREE-DIMENSIONAL STRUCTURES OF THE LIGAND-BINDING DOMAIN OF THE BACTERIAL ASPARTATE RECEPTOR WITH AND WITHOUT A LIGAND
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Salmonella typhimurium. Organism_taxid: 602. Expression_system_vector_type: bacterial (2)
1WASA:35-180THE THREE-DIMENSIONAL STRUCTURE OF THE LIGAND-BINDING DOMAIN OF A WILD-TYPE BACTERIAL CHEMOTAXIS RECEPTOR
1WATB:38-180; A:39-180THE THREE-DIMENSIONAL STRUCTURE OF THE LIGAND-BINDING DOMAIN OF A WILD-TYPE BACTERIAL CHEMOTAXIS RECEPTOR
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Homologous Superfamily: bsu32300 domain like (1)
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Subtilis str (Bacillus subtilis subsp) (1)
1YLMA:2-143; B:2-143STRUCTURE OF CYTOSOLIC PROTEIN OF UNKNOWN FUNCTION YUTE FROM BACILLUS SUBTILIS
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Homologous Superfamily: Crystal structure from the mobile metagenome of halifax harbour sewage outfall (1)
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Uncultured bacterium. Organism_taxid: 77133. (1)
3FXHA:-1-111CRYSTAL STRUCTURE FROM THE MOBILE METAGENOME OF HALIFAX HARBOUR SEWAGE OUTFALL: INTEGRON CASSETTE PROTEIN HFX_CASS2
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Homologous Superfamily: dinb family like domain (9)
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Bacillus cereus atcc 10987. Organism_taxid: 222523. Strain: atcc 10987. (1)
2P1AB:0-145; A:0-142CRYSTAL STRUCTURE OF A PUTATIVE METAL-BINDING PROTEIN (BCE_2162) FROM BACILLUS CEREUS ATCC 10987 AT 2.10 A RESOLUTION
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Bacillus halodurans c-125. Organism_taxid: 272558. Strain: c-125, dsm18197, ferm 7344, jcm 9153. (1)
2RD9B:-9-171; A:-9-171; C:-9-171; D:-9-171CRYSTAL STRUCTURE OF A PUTATIVE YFIT-LIKE METAL-DEPENDENT HYDROLASE (BH0186) FROM BACILLUS HALODURANS C-125 AT 2.30 A RESOLUTION
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Bacillus subtilis. Organism_taxid: 1423. (1)
1RXQD:10-178; A:5-178; C:5-178; B:4-178YFIT FROM BACILLUS SUBTILIS IS A PROBABLE METAL-DEPENDENT HYDROLASE WITH AN UNUSUAL FOUR-HELIX BUNDLE TOPOLOGY
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Bacillus subtilis. Organism_taxid: 1423. Strain: 168. (1)
2QE9A:-6-159; B:-6-151CRYSTAL STRUCTURE OF A PUTATIVE METAL-DEPENDENT HYDROLASE (YIZA, BSU10800) FROM BACILLUS SUBTILIS AT 1.90 A RESOLUTION
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Cytophaga hutchinsonii atcc 33406. Organism_taxid: 269798. Strain: ncimb 9469. (1)
2QNLA:0-161CRYSTAL STRUCTURE OF A PUTATIVE DNA DAMAGE-INDUCIBLE PROTEIN (CHU_0679) FROM CYTOPHAGA HUTCHINSONII ATCC 33406 AT 1.50 A RESOLUTION
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Deinococcus radiodurans. Organism_taxid: 1299. Strain: dsm 20539, ifo15346, lmg 4051, ncib 9279, r1. (1)
2OU6A:2-184CRYSTAL STRUCTURE OF A PUTATIVE METALLOENZYME OF THE DUF664 FAMILY (DR_1065) FROM DEINOCOCCUS RADIODURANS AT 1.80 A RESOLUTION
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Enterococcus faecalis v583. Organism_taxid: 226185. Strain: v583. (1)
3CEXA:0-169; B:0-169CRYSTAL STRUCTURE OF THE CONSERVED PROTEIN OF LOCUS EF_3021 FROM ENTEROCOCCUS FAECALIS
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Exiguobacterium sibiricum 255-15. Organism_taxid: 262543. Strain: 255-15. (1)
2HKVA:0-140CRYSTAL STRUCTURE OF A PUTATIVE MEMBER OF THE DINB FAMILY (EXIG_1237) FROM EXIGUOBACTERIUM SIBIRICUM 255-15 AT 1.70 A RESOLUTION
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Shewanella denitrificans. Organism_taxid: 192073. Strain: os217, dsm 15013. (1)
2OQMB:-4-164; C:-5-164; D:-6-164; A:-8-164CRYSTAL STRUCTURE OF A DINB FAMILY MEMBER PROTEIN (SDEN_0562) FROM SHEWANELLA DENITRIFICANS AT 1.83 A RESOLUTION
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Homologous Superfamily: Domain from hypothetical 2610208m17rik protein (1)
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House mouse (Mus musculus) (1)
1UG7A:1-128SOLUTION STRUCTURE OF FOUR HELICAL UP-AND-DOWN BUNDLE DOMAIN OF THE HYPOTHETICAL PROTEIN 2610208M17RIK SIMILAR TO THE PROTEIN FLJ12806
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Homologous Superfamily: EF2947-like domains (1)
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Enterococcus faecalis v583. Organism_taxid: 226185. Strain: v583. (1)
2AU5A:0-132STRUCTURE OF A CONSERVED DOMAIN FROM LOCUS EF2947 FROM ENTEROCOCCUS FAECALIS V583
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Homologous Superfamily: GntR ligand-binding domain-like (2)
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Rha1 (Rhodococcus sp) (1)
2HS5A:92-231STRUCTURAL GENOMICS, THE CRYSTAL STRUCTURE OF A PUTATIVE TRANSCRIPTIONAL REGULATOR GNTR FROM RHODOCOCCUS SP. RHA1
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Tomato str (Pseudomonas syringae pv) (1)
3C7JA:89-234; B:89-229CRYSTAL STRUCTURE OF TRANSCRIPTIONAL REGULATOR (GNTR FAMILY MEMBER) FROM PSEUDOMONAS SYRINGAE PV. TOMATO STR. DC3000
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Homologous Superfamily: Hla class ii histocompatibility antigen, dr alpha chain. Chain D, domain 1 (3)
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Human (Homo sapiens) (3)
1R5ID:0-124; H:0-124CRYSTAL STRUCTURE OF THE MAM-MHC COMPLEX
2ICWG:1-124; H:1-124CRYSTAL STRUCTURE OF A COMPLETE TERNARY COMPLEX BETWEEN TCR, SUPERANTIGEN, AND PEPTIDE-MHC CLASS II MOLECULE
2OJED:0-124; H:0-124MYCOPLASMA ARTHRITIDIS-DERIVED MITOGEN COMPLEXED WITH CLASS II MHC MOLECULE HLA-DR1/HA COMPLEX IN THE PRESENCE OF EDTA
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Homologous Superfamily: lithium bound rotor ring of v- atpase (3)
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Enterococcus hirae. Organism_taxid: 1354. (1)
2BL2A:1-156; B:1-156; C:1-156; D:1-156; E:1-156; F:1-156; G:1-156; H:1-156; I:1-156; J:1-156THE MEMBRANE ROTOR OF THE V-TYPE ATPASE FROM ENTEROCOCCUS HIRAE
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Enterococcus hirae. Organism_taxid: 1354. (2)
2CYDA:1-156; B:1-156; C:1-156; D:1-156; E:1-156; F:1-156; G:1-156; H:1-156; I:1-156; J:1-156CRYSTAL STRUCTURE OF LITHIUM BOUND ROTOR RING OF THE V-ATPASE FROM ENTEROCOCCUS HIRAE
2DB4A:1-156; B:1-156; C:1-156; D:1-156; E:1-156; F:1-156; G:1-156; H:1-156; I:1-156; J:1-156CRYSTAL STRUCTURE OF ROTOR RING WITH DCCD OF THE V- ATPASE FROM ENTEROCOCCUS HIRAE
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Homologous Superfamily: MAPEG domain-like (7)
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Human (Homo sapiens) (6)
2PNOA:2-147; H:2-147; I:2-147; J:2-147; K:2-147; L:2-147; B:2-147; C:2-147; D:2-147; E:2-147; F:2-147; G:2-147CRYSTAL STRUCTURE OF HUMAN LEUKOTRIENE C4 SYNTHASE
2Q7RB:2-148; D:2-148; C:2-149; F:2-149; A:2-140; E:2-140CRYSTAL STRUCTURE OF HUMAN FLAP WITH AN IODINATED ANALOG OF MK-591
2UUHA:-4-146CRYSTAL STRUCTURE OF HUMAN LEUKOTRIENE C4 SYNTHASE IN COMPLEX WITH SUBSTRATE GLUTATHIONE
2UUIA:-5-150CRYSTAL STRUCTURE OF HUMAN LEUKOTRIENE C4 SYNTHASE
3DWWA:11-152; B:11-152; C:11-152ELECTRON CRYSTALLOGRAPHIC STRUCTURE OF HUMAN MICROSOMAL PROSTAGLANDIN E SYNTHASE 1
3HKKA:1-145STRUCTURE OF HUMAN LEUKOTRIENE C4 SYNTHASE IN COMPLEX WITH GLUTATHIONE SULFONATE
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Norway rat (Rattus norvegicus) (1)
2H8AA:9-147STRUCTURE OF MICROSOMAL GLUTATHIONE TRANSFERASE 1 IN COMPLEX WITH GLUTATHIONE
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Homologous Superfamily: mg296 homolog like (1)
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Mycoplasma pneumoniae. Organism_taxid: 2104. (1)
2I15A:39-129; B:239-329; C:439-529CRYSTAL STRUCTURE OF MPN423 FROM MYCOPLASMA PNEUMONIAE
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Homologous Superfamily: MW0975(SA0943)-like (1)
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Aureus mw2 (Staphylococcus aureus subsp) (1)
2AP3A:1-1961.6 A CRYSTAL STRUCTURE OF A CONSERVED PROTEIN OF UNKNOWN FUNCTION FROM STAPHYLOCOCCUS AUREUS
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Homologous Superfamily: Neurotransmitter-gated ion-channel transmembrane pore, Chain B (2)
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Marbled electric ray (Torpedo marmorata) (2)
1OEDE:219-478; A:211-437; D:211-437; B:217-466; C:225-484STRUCTURE OF ACETYLCHOLINE RECEPTOR PORE FROM ELECTRON IMAGES
2BG9A:211-306,A:374-437; D:211-306,D:374-437; C:225-320,C:421-484; E:218-314,E:414-476; B:217-312,B:403-469REFINED STRUCTURE OF THE NICOTINIC ACETYLCHOLINE RECEPTOR AT 4A RESOLUTION.
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Homologous Superfamily: Nickel-containing superoxide dismutase, NiSOD (11)
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Streptomyces coelicolor. Organism_taxid: 1902. (6)
1T6IA:7-117; B:8-117; C:8-116NICKEL SUPEROXIDE DISMUTASE (NISOD) APO STRUCTURE
1T6QB:6-117; A:7-116; C:7-116NICKEL SUPEROXIDE DISMUTASE (NISOD) CN-TREATED APO STRUCTURE
1T6UD:1-116; E:1-116; J:1-117; F:1-115; H:1-116; K:1-116; L:1-116; A:1-117; B:1-117; C:1-117; G:1-117; I:1-117NICKEL SUPEROXIDE DISMUTASE (NISOD) NATIVE 1.30 A STRUCTURE
3G4XC:1-116; A:1-117; B:1-117CRYSTAL STRUCTURE OF NISOD Y9F MUTANT
3G4ZA:1-117; B:1-117; C:1-117CRYSTAL STRUCTURE OF NISOD Y9F MUTANT AT 1.9 A
3G50C:1-116; A:1-117; B:4-116CRYSTAL STRUCTURE OF NISOD D3A MUTANT AT 1.9 A
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Streptomyces seoulensis. Organism_taxid: 73044 (5)
1Q0DA:1-117; B:1-117; C:1-117; D:1-117; E:1-117; F:1-117; G:1-117; H:1-117; I:1-117; J:1-117; K:1-117; L:1-117CRYSTAL STRUCTURE OF NI-CONTAINING SUPEROXIDE DISMUTASE WITH NI-LIGATION CORRESPONDING TO THE OXIDIZED STATE
1Q0FA:1-117; B:1-117; C:1-117; D:1-117; E:1-117; F:1-117; G:1-117; H:1-117; I:1-117; J:1-117; K:1-117; L:1-117CRYSTAL STRUCTURE OF NI-CONTAINING SUPEROXIDE DISMUTASE WITH NI-LIGATION CORRESPONDING TO THE STATE AFTER PARTIAL X-RAY-INDUCED REDUCTION
1Q0GA:1-117; B:1-117; K:1-117; L:1-117; C:1-117; D:1-117; E:1-117; F:1-117; G:1-117; H:1-117; I:1-117; J:1-117CRYSTAL STRUCTURE OF NI-CONTAINING SUPEROXIDE DISMUTASE WITH NI-LIGATION CORRESPONDING TO THE STATE AFTER FULL X-RAY-INDUCED REDUCTION
1Q0KA:1-117; B:1-117; C:1-117; D:1-117; E:1-117; F:1-117; G:1-117; H:1-117; I:1-117; J:1-117; K:1-117; L:1-117CRYSTAL STRUCTURE OF NI-CONTAINING SUPEROXIDE DISMUTASE WITH NI-LIGATION CORRESPONDING TO THE THIOSULFATE-REDUCED STATE
1Q0MA:1-117; B:1-117; C:1-117; D:1-117; E:1-117; F:1-117CRYSTAL STRUCTURE OF NI-CONTAINING SUPEROXIDE DISMUTASE WITH NI-LIGATION CORRESPONDING TO THE STATE AFTER FULL X-RAY-INDUCED REDUCTION
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Homologous Superfamily: nmb1532 protein domain like (2)
(-)
Neisseria meningitidis mc58. Organism_taxid: 122586. Strain: mc58. (1)
2P0NA:9-169; B:12-169NMB1532 PROTEIN FROM NEISSERIA MENINGITIDIS, UNKNOWN FUNCTION
(-)
Pyrococcus furiosus dsm 3638. Organism_taxid: 186497. Strain: dsm 3638/ jcm 8422 / vc1. (1)
3CAXA:119-335CRYSTAL STRUCTURE OF UNCHARACTERIZED PROTEIN PF0695
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Homologous Superfamily: Nucleotidyltransferases domain 2 (28)
(-)
2457t (Shigella flexneri 2a str) (1)
3C8GD:2-168; A:0-168; B:3-168; C:0-168CRYSTAL STRUCTURE OF A POSSIBLE TRANSCIPTIONAL REGULATOR YGGD FROM SHIGELLA FLEXNERI 2A STR. 2457T
(-)
7 (Sulfolobus tokodaii str) (1)
1WOLA:1-122CRYSTAL STRUCTURE OF ST0689, AN ARCHAEAL HEPN HOMOLOGUE
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Archaeoglobus fulgidus. Organism_taxid: 2234. (1)
2HSBA:0-125CRYSTAL STRUCTURE OF A HEPN DOMAIN CONTAINING PROTEIN (AF_0298) FROM ARCHAEOGLOBUS FULGIDUS AT 1.95 A RESOLUTION
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Bacillus subtilis. Organism_taxid: 1423. Strain: 168. (1)
2PBEA:145-203,A:216-282CRYSTAL STRUCTURE OF AN AMINOGLYCOSIDE 6-ADENYLTRANSFERASE FROM BACILLUS SUBTILIS
(-)
Chicken (Gallus gallus) (3)
1KTMA:947-1050SOLUTION STRUCTURE OF FAT DOMAIN OF FOCAL ADHESION KINASE
1PV3A:947-1050NMR SOLUTION STRUCTURE OF THE AVIAN FAT-DOMAIN OF FOCAL ADHESION KINASE
1QVXA:920-1053SOLUTION STRUCTURE OF THE FAT DOMAIN OF FOCAL ADHESION KINASE
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Exiguobacterium sibiricum 255-15. Organism_taxid: 262543. Strain: 255-15. (1)
3C18A:115-232; B:115-232; C:115-232CRYSTAL STRUCTURE OF NUCLEOTIDYLTRANSFERASE-LIKE PROTEIN (ZP_00538802.1) FROM EXIGUOBACTERIUM SIBIRICUM 255-15 AT 1.90 A RESOLUTION
(-)
Haemophilus influenzae. Organism_taxid: 727. (1)
1JOGA:7-141; B:7-141; C:7-141; D:7-142STRUCTURE OF HI0074 FROM HEAMOPHILUS INFLUENZAE REVEALS THE FOLD OF A SUBSTRATE BINDING DOMAIN OF A NUCLEOTIDYLTRANSFERASE
(-)
House mouse (Mus musculus) (1)
1K40A:921-1046CRYSTAL STRUCTURE OF THE FAT DOMAIN OF FOCAL ADHESION KINASE
(-)
Human (Homo sapiens) (12)
1K04A:946-1049CRYSTAL STRUCTURE OF THE FOCAL ADHESION TARGETING DOMAIN OF FOCAL ADHESION KINASE
1K05A:946-1050; C:946-1048; B:946-1047CRYSTAL STRUCTURE OF THE FOCAL ADHESION TARGETING DOMAIN OF FOCAL ADHESION KINASE
1OW6A:946-1049; B:946-1047; C:946-1047PAXILLIN LD4 MOTIF BOUND TO THE FOCAL ADHESION TARGETING (FAT) DOMAIN OF THE FOCAL ADHESION KINASE
1OW7A:946-1049; B:946-1047; C:946-1047PAXILLIN LD4 MOTIF BOUND TO THE FOCAL ADHESION TARGETING (FAT) DOMAIN OF THE FOCAL ADHESION KINASE
1OW8A:946-1049; B:946-1047; C:946-1047PAXILLIN LD2 MOTIF BOUND TO THE FOCAL ADHESION TARGETING (FAT) DOMAIN OF THE FOCAL ADHESION KINASE
1ZZPA:31-139SOLUTION STRUCTURE OF THE F-ACTIN BINDING DOMAIN OF BCR-ABL/C-ABL
2KK1A:33-135SOLUTION STRUCTURE OF C-TERMINAL DOMAIN OF TYROSINE-PROTEIN KINASE ABL2 FROM HOMO SAPIENS, NORTHEAST STRUCTURAL GENOMICS CONSORTIUM (NESG) TARGET HR5537A
3B71A:946-1049; B:946-1047; C:946-1047CD4 ENDOCYTOSIS MOTIF BOUND TO THE FOCAL ADHESION TARGETING (FAT) DOMAIN OF THE FOCAL ADHESION KINASE
3GM1A:869-1008; B:867-1007CRYSTAL STRUCTURE OF THE FOCAL ADHESION TARGETING (FAT) DOMAIN OF PYK2 IN COMPLEX WITH PAXILLIN LD4 MOTIF-DERIVED PEPTIDES
3GM2A:875-1001CRYSTAL STRUCTURE OF THE FOCAL ADHESION TARGETING (FAT) DOMAIN OF PYK2
3GM3A:872-1004CRYSTAL STRUCTURE OF THE FOCAL ADHESION TARGETING (FAT) DOMAIN OF PYK2
(-)
Staphylococcus aureus. Organism_taxid: 1280. (1)
1KNYA:126-253; B:126-253KANAMYCIN NUCLEOTIDYLTRANSFERASE
(-)
Sulfolobus solfataricus p2. Organism_taxid: 273057. Strain: p2, dsm 1617, jcm 11322. (1)
2Q00B:3-124; A:2-123CRYSTAL STRUCTURE OF THE P95883_SULSO PROTEIN FROM SULFOLOBUS SOLFATARICUS. NESG TARGET SSR10.
(-)
Sulfolobus solfataricus. Organism_taxid: 2287. (1)
2JPUA:1-129SOLUTION STRUCTURE OF NESG TARGET SSR10, ORF C02003 PROTEIN
(-)
Thermotoga maritima. Organism_taxid: 2336. (1)
1O3UA:-2-123CRYSTAL STRUCTURE OF AN HEPN DOMAIN PROTEIN (TM0613) FROM THERMOTOGA MARITIMA AT 1.75 A RESOLUTION
(-)
Thermus thermophilus. Organism_taxid: 274. (1)
1UFBA:1-127; B:1-127; C:1-127; D:1-127CRYSTAL STRUCTURE OF TT1696 FROM THERMUS THERMOPHILUS HB8
(-)
Vibrio parahaemolyticus rimd 2210633. Organism_taxid: 223926. Strain:rimd 2210633 / serotype o3:k6. (1)
3BRJC:6-172; A:6-172; D:5-172; B:4-172CRYSTAL STRUCTURE OF MANNITOL OPERON REPRESSOR (MTLR) FROM VIBRIO PARAHAEMOLYTICUS RIMD 2210633
(-)
Homologous Superfamily: PG0775 C-terminal domain-like (1)
(-)
Porphyromonas gingivalis w83. Organism_taxid: 242619. Strain: w83. (1)
2OKUA:443-564; B:445-560THE CRYSTAL STRUCTURE OF THE ACYL-COA DEHYDROGENASE FAMILY PROTEIN FROM PORPHYROMONAS GINGIVALIS
(-)
Homologous Superfamily: pI3/pI4-Kinases family- FKBP_PPIASE_1 (8)
(-)
Human (Homo sapiens) (8)
1AUEB:2022-2115; A:2023-2114FKBP-RAPAMYCIN BINDING DOMAIN (FRB) OF THE FKBP-RAPAMYCIN ASSOCIATED PROTEIN
1FAPB:2018-2112THE STRUCTURE OF THE IMMUNOPHILIN-IMMUNOSUPPRESSANT FKBP12-RAPAMYCIN COMPLEX INTERACTING WITH HUMAN FRAP
1NSGB:2019-2112THE STRUCTURE OF THE IMMUNOPHILIN-IMMUNOSUPPRESSANT FKBP12-RAPAMYCIN COMPLEX INTERACTING WITH HUMAN FRAP
2FAPB:2019-2112THE STRUCTURE OF THE IMMUNOPHILIN-IMMUNOSUPPRESSANT FKBP12-(C16)-ETHOXY RAPAMYCIN COMPLEX INTERACTING WITH HUMA
2GAQA:1-100NMR SOLUTION STRUCTURE OF THE FRB DOMAIN OF MTOR
2NPUA:2014-2114THE SOLUTION STRUCTURE OF THE RAPAMYCIN-BINDING DOMAIN OF MTOR (FRB)
3FAPB:108-201ATOMIC STRUCTURES OF THE RAPAMYCIN ANALOGS IN COMPLEX WITH BOTH HUMAN FKBP12 AND FRB DOMAIN OF FRAP
4FAPB:108-201ATOMIC STRUCTURES OF THE RAPAMYCIN ANALOGS IN COMPLEX WITH BOTH HUMAN FKBP12 AND FRB DOMAIN OF FRAP
(-)
Homologous Superfamily: Probable tRNA modification gtpase trme. Chain: A, domain 2 (2)
(-)
Thermotoga maritima. Organism_taxid: 2336. (2)
1XZPA:118-211,A:379-450STRUCTURE OF THE GTP-BINDING PROTEIN TRME FROM THERMOTOGA MARITIMA
1XZQA:118-211,A:379-450STRUCTURE OF THE GTP-BINDING PROTEIN TRME FROM THERMOTOGA MARITIMA COMPLEXED WITH 5-FORMYL-THF
(-)
Homologous Superfamily: protein pf1176 like (1)
(-)
Pyrococcus furiosus. Organism_taxid: 2261. (1)
2HJMA:0-85; B:0-85; C:0-85; D:0-85CRYSTAL STRUCTURE OF A SINGLETON PROTEIN PF1176 FROM P. FURIOSUS
(-)
Homologous Superfamily: RecG, N-terminal domain (1)
(-)
Thermotoga maritima. Organism_taxid: 2336. (1)
1GM5A:7-101STRUCTURE OF RECG BOUND TO THREE-WAY DNA JUNCTION
(-)
Homologous Superfamily: TM1646-like domains (2)
(-)
Bacillus halodurans. Organism_taxid: 86665. Strain: c-125, dsm 18197,ferm 7344, jcm 9153. (1)
2QUPA:24-145CRYSTAL STRUCTURE OF UNCHARACTERIZED PROTEIN BH1478 FROM BACILLUS HALODURANS
(-)
Thermotoga maritima msb8. Organism_taxid: 243274. Strain: msb8, dsm 3109, jcm 10099. (1)
2P61A:34-153CRYSTAL STRUCTURE OF PROTEIN TM1646 FROM THERMOTOGA MARITIMA, PFAM DUF327
(-)
Homologous Superfamily: translation initiation factor eif-2b, domain 1 (6)
(-)
Archaeoglobus fulgidus dsm 4304. Organism_taxid: 224325. Strain: dsm 4304. (1)
1T5OA:2-142; B:2-142; C:2-142; D:2-142CRYSTAL STRUCTURE OF THE TRANSLATION INITIATION FACTOR EIF-2B, SUBUNIT DELTA, FROM A. FULGIDUS
(-)
Bacillus subtilis. Organism_taxid: 1423. (2)
2YRFA:10-148; B:9-148CRYSTAL STRUCTURE OF 5-METHYLTHIORIBOSE 1-PHOSPHATE ISOMERASE FROM BACILLUS SUBTILIS COMPLEXED WITH SULFATE ION
2YVKA:1-148; B:1-148; C:1-148; D:1-148CRYSTAL STRUCTURE OF 5-METHYLTHIORIBOSE 1-PHOSPHATE ISOMERASE PRODUCT COMPLEX FROM BACILLUS SUBTILIS
(-)
Leishmania major. Organism_taxid: 5664. (1)
2A0UB:17-176; A:11-176CRYSTAL STRUCTURE OF THE EUKARYOTIC INITIATION FACTOR 2B FROM LEISHMANIA MAJOR AT 2.1 A RESOLUTION
(-)
Pyrococcus horikoshii ot3. Organism_taxid: 70601. Strain: ot3. (1)
1VB5A:2-95; B:2-95CRYSTAL STRUCTURE ANALYSIS OF THE PYROCOCCUS HORIKOSHII OT3 TRANSLATION INITIATION FACTOR EIF-2B
(-)
Thermotoga maritima. Organism_taxid: 2336. (1)
1T9KC:2-142; D:2-142; A:3-142; B:3-142X-RAY CRYSTAL STRUCTURE OF AIF-2B ALPHA SUBUNIT-RELATED TRANSLATION INITIATION FACTOR [THERMOTOGA MARITIMA]
(-)
Homologous Superfamily: Type 1-topoisomerase catalytic fragment, domain 2 (1)
(-)
Vaccinia virus. Organism_taxid: 10245. (1)
1A41A:217-310TYPE 1-TOPOISOMERASE CATALYTIC FRAGMENT FROM VACCINIA VIRUS
(-)
Homologous Superfamily: Voltage-gated potassium channels (2)
(-)
Mesorhizobium loti (Rhizobium loti) (1)
2ZD9D:7-125; C:6-125; B:9-125; A:11-125STRUCTURE OF A BACTERIAL CYCLIC-NUCLEOTIDE REGULATED ION CHANNEL
(-)
Mesorhizobium loti. Organism_taxid: 381. (1)
3BEHA:7-125; B:9-125; C:5-125; D:5-125STRUCTURE OF A BACTERIAL CYCLIC NUCLEOTIDE REGULATED ION CHANNEL
(-)
Homologous Superfamily: Voltage-gated potassium channels. Chain C (2)
(-)
House mouse (Mus musculus) (1)
1ORSC:20-151X-RAY STRUCTURE OF THE KVAP POTASSIUM CHANNEL VOLTAGE SENSOR IN COMPLEX WITH AN FAB
(-)
Norway rat (Rattus norvegicus) (1)
2R9RH:145-306; B:144-306SHAKER FAMILY VOLTAGE DEPENDENT POTASSIUM CHANNEL (KV1.2-KV2.1 PADDLE CHIMERA CHANNEL) IN ASSOCIATION WITH BETA SUBUNIT
(-)
Homologous Superfamily: YppE-like domains (3)
(-)
Bacillus subtilis. Organism_taxid: 1423. (2)
2HFIA:1-123SOLUTION NMR STRUCTURE OF PROTEIN YPPE FROM BACILLUS SUBTILIS. NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET SR213
2IM8A:2-123; B:2-119X-RAY CRYSTAL STRUCTURE OF PROTEIN YPPE FROM BACILLUS SUBTILIS. NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET SR213.
(-)
Listeria innocua. Organism_taxid: 1642. (1)
2HUJA:-4-120CRYSTAL STRUCTURE OF A PROTEIN OF UKNOWN FUNCTION (NP_471338.1) FROM LISTERIA INNOCUA AT 1.74 A RESOLUTION
(-)
Topology: Fumarase C; Chain A, domain 2 (60)
(-)
Homologous Superfamily: Fumarase/aspartase (Central domain) (59)
(-)
Acinetobacter calcoaceticus. Organism_taxid: 471. (1)
1Q5NA:106-361CRYSTAL STRUCTURE OF BETA-CARBOXY-CIS,CIS-MUCONATE CYCLOISOMERASE (CMLE) FROM ACINETOBACTER CALCOACETICUS SP. ADP1
(-)
Anas platyrhynchos. Organism_taxid: 8839. (8)
1HY0A:124-194,A:235-364,A:437-463; B:124-194,B:235-364,B:437-463CRYSTAL STRUCTURE OF WILD TYPE DUCK DELTA 1 CRYSTALLIN (EYE LENS PROTEIN)
1HY1A:124-194,A:235-364,A:437-463; B:124-194,B:235-364,B:437-463; C:124-194,C:235-364,C:437-463; D:124-194,D:235-364,D:437-463CRYSTAL STRUCTURE OF WILD TYPE DUCK DELTA 2 CRYSTALLIN (EYE LENS PROTEIN)
1K7WA:126-196,A:237-366,A:439-465; B:126-196,B:237-366,B:439-465; C:126-196,C:237-366,C:439-465; D:126-196,D:237-366,D:439-465CRYSTAL STRUCTURE OF S283A DUCK DELTA 2 CRYSTALLIN MUTANT
1TJUA:126-196,A:237-366,A:439-465; B:126-196,B:237-366,B:439-465; C:126-196,C:237-366,C:439-465; D:126-196,D:237-366,D:439-465CRYSTAL STRUCTURE OF T161S DUCK DELTA 2 CRYSTALLIN MUTANT
1TJVA:126-196,A:237-366,A:439-465; B:126-196,B:237-366,B:439-465; C:126-196,C:237-366,C:439-465; D:126-196,D:237-366,D:439-465CRYSTAL STRUCTURE OF T161D DUCK DELTA 2 CRYSTALLIN MUTANT
1TJWA:126-196,A:237-366,A:439-465; C:126-196,C:237-366,C:439-465; D:126-196,D:237-366,D:439-465; B:126-196,B:237-366,B:439-465CRYSTAL STRUCTURE OF T161D DUCK DELTA 2 CRYSTALLIN MUTANT WITH BOUND ARGININOSUCCINATE
1U15A:124-194,A:235-364,A:437-463; B:124-194,B:235-364,B:437-463; C:124-194,C:235-364,C:437-463; D:124-194,D:235-364,D:437-463CRYSTAL STRUCTURE OF A DUCK-DELTA-CRYSTALLIN-1 DOUBLE LOOP MUTANT (DLM)
1U16A:124-194,A:235-364,A:437-463CRYSTAL STRUCTURE OF A DUCK-DELTA-CRYSTALLIN-1 DOUBLE LOOP MUTANT (DLM) IN COMPLEX WITH SULFATE
(-)
Anas platyrhynchos. Organism_taxid: 8839. Cell_line: 293. (1)
1DCNA:126-196,A:237-366,A:439-464; D:126-196,D:237-366,D:439-464; C:126-196,C:237-366,C:439-464; B:126-196,B:237-366,B:439-463INACTIVE MUTANT H162N OF DELTA 2 CRYSTALLIN WITH BOUND ARGININOSUCCINATE
(-)
Anas platyrhynchos. Organism_taxid: 8839. Cell_line: bl21. (1)
1AUWA:124-194,A:235-364,A:437-463; B:124-194,B:235-364,B:437-463; C:124-194,C:235-364,C:437-463; D:124-194,D:235-364,D:437-463H91N DELTA 2 CRYSTALLIN FROM DUCK
(-)
Bacillus anthracis. Organism_taxid: 1392. (1)
2PFMA:95-350; B:95-350CRYSTAL STRUCTURE OF ADENYLOSUCCINATE LYASE (PURB) FROM BACILLUS ANTHRACIS
(-)
Baker's yeast (Saccharomyces cerevisiae) (1)
1YFMA:164-432RECOMBINANT YEAST FUMARASE
(-)
Bnc1 (Mesorhizobium sp) (1)
3C8TA:116-371CRYSTAL STRUCTURE OF FUMARATE LYASE FROM MESORHIZOBIUM SP. BNC1
(-)
Caenorhabditis elegans. Organism_taxid: 6239. (1)
1YISA:105-468STRUCTURAL GENOMICS OF CAENORHABDITIS ELEGANS: ADENYLOSUCCINATE LYASE
(-)
Escherichia coli b. Organism_taxid: 37762. Strain: b (1)
1JSWA:143-410; B:143-410; C:143-410; D:143-410NATIVE L-ASPARTATE AMMONIA LYASE
(-)
Escherichia coli k12. Organism_taxid: 83333. Strain: k12 (1)
1YFEA:139-407CRYSTAL STRUCTURE OF APO FUMARASE C FROM ESCHERICHIA COLI
(-)
Escherichia coli. Organism_taxid: 562. (4)
1KQ7A:139-407; B:139-407E315Q MUTANT FORM OF FUMARASE C FROM E.COLI
2PTQB:118-381,B:446-458; A:118-381,A:446-459CRYSTAL STRUCTURE OF ESCHERICHIA COLI ADENYLOSUCCINATE LYASE MUTANT H171N WITH BOUND AMP AND FUMARATE
2PTRA:118-381,A:446-459; B:118-381,B:446-459CRYSTAL STRUCTURE OF ESCHERICHIA COLI ADENYLOSUCCINATE LYASE MUTANT H171A WITH BOUND ADENYLOSUCCINATE SUBSTRATE
2PTSA:118-381,A:446-458CRYSTAL STRUCTURE OF WILD TYPE ESCHERICHIA COLI ADENYLOSUCCINATE LYASE
(-)
Escherichia coli. Organism_taxid: 562. (3)
1FUOA:139-407; B:139-407FUMARASE C WITH BOUND CITRATE
1FUPA:139-407; B:139-407FUMARASE WITH BOUND PYROMELLITIC ACID
1FUQA:139-407; B:139-407FUMARASE WITH BOUND 3-TRIMETHYLSILYLSUCCINIC ACID
(-)
Escherichia coli. Organism_taxid: 562. Strain: bl21(de3)plyss (1)
1TJ7A:108-362,A:434-457; B:108-362,B:434-457STRUCTURE DETERMINATION AND REFINEMENT AT 2.44 A RESOLUTION OF ARGININOSUCCINATE LYASE FROM E. COLI
(-)
Escherichia coli. Organism_taxid: 562. Strain: jm105. Cell_line: 293. (2)
1FURA:139-407; B:139-407FUMARASE MUTANT H188N WITH BOUND SUBSTRATE L-MALATE AT PUTATIVE ACTIVATOR SITE
2FUSA:139-407; B:139-407MUTATIONS OF FUMARASE THAT DISTINGUISH BETWEEN THE ACTIVE SITE AND A NEARBY DICARBOXYLIC ACID BINDING SITE
(-)
Human (Homo sapiens) (2)
1K62A:124-194,A:235-364,A:437-463; B:124-194,B:235-364,B:437-463CRYSTAL STRUCTURE OF THE HUMAN ARGININOSUCCINATE LYASE Q286R MUTANT
3E04B:186-454; C:186-454; D:186-454; A:186-454CRYSTAL STRUCTURE OF HUMAN FUMARATE HYDRATASE
(-)
Malaria parasite p (Plasmodium vivax) (2)
2HVGA:115-379,A:446-459; B:115-379,B:446-459CRYSTAL STRUCTURE OF ADENYLOSUCCINATE LYASE FROM PLASMODIUM VIVAX
2QGAC:115-379,C:446-460; B:115-379,B:446-461PLASMODIUM VIVAX ADENYLOSUCCINATE LYASE PV003765 WITH AMP BOUND
(-)
Parsley (Petroselinum crispum) (1)
1W27A:263-528,A:651-716; B:263-528,B:651-716PHENYLALANINE AMMONIA-LYASE (PAL) FROM PETROSELINUM CRISPUM
(-)
Pneumophila str (Legionella pneumophila subsp) (1)
3BHGA:118-381,A:446-456CRYSTAL STRUCTURE OF ADENYLOSUCCINATE LYASE FROM LEGIONELLA PNEUMOPHILA
(-)
Pseudomonas putida kt2440. Organism_taxid: 160488. Strain: kt2440. (1)
1RE5D:105-360; B:105-360; C:105-360; A:105-360CRYSTAL STRUCTURE OF 3-CARBOXY-CIS,CIS-MUCONATE LACTONIZING ENZYME FROM PSEUDOMONAS PUTIDA
(-)
Pseudomonas putida. Organism_taxid: 303. (2)
1B8FA:197-509HISTIDINE AMMONIA-LYASE (HAL) FROM PSEUDOMONAS PUTIDA
1EB4A:197-508HISTIDINE AMMONIA-LYASE (HAL) MUTANT F329A FROM PSEUDOMONAS PUTIDA
(-)
Pseudomonas putida. Organism_taxid: 303. (2)
1GK2A:197-508; B:197-508; C:197-508; D:197-508HISTIDINE AMMONIA-LYASE (HAL) MUTANT F329G FROM PSEUDOMONAS PUTIDA
1GKMA:197-508HISTIDINE AMMONIA-LYASE (HAL) FROM PSEUDOMONAS PUTIDA INHIBITED WITH L-CYSTEINE
(-)
Pseudomonas putida. Organism_taxid: 303. Strain: bl21(de3). (2)
1GK3A:197-508HISTIDINE AMMONIA-LYASE (HAL) MUTANT D145A FROM PSEUDOMONAS PUTIDA
1GKJA:197-508HISTIDINE AMMONIA-LYASE (HAL) MUTANT Y280F FROM PSEUDOMONAS PUTIDA
(-)
Pyrobaculum aerophilum. Organism_taxid: 13773. (1)
1DOFA:95-347; B:95-347; C:95-347; D:95-347THE CRYSTAL STRUCTURE OF ADENYLOSUCCINATE LYASE FROM PYROBACULUM AEROPHILUM: INSIGHTS INTO THERMAL STABILITY AND HUMAN PATHOLOGY
(-)
Rhodobacter sphaeroides. Organism_taxid: 1063. (6)
2O6YA:205-523; B:205-523; C:205-523; D:205-523; E:205-523; F:205-523; G:205-523; H:205-523TYROSINE AMMONIA-LYASE FROM RHODOBACTER SPHAEROIDES
2O78A:205-523; B:205-523; C:205-523; D:205-523; E:205-523; F:205-523; G:205-523; H:205-523TYROSINE AMMONIA-LYASE FROM RHODOBACTER SPHAEROIDES (HIS89PHE VARIANT) COMPLEXED WITH CINNAMIC ACID
2O7BA:205-523; C:205-523; D:205-523; E:205-523; F:205-523; G:205-523; H:205-523; B:205-523TYROSINE AMMONIA-LYASE FROM RHODOBACTER SPHAEROIDES, COMPLEXED WITH COUMARATE
2O7DA:205-523; B:205-523; C:205-523; D:205-523; E:205-523; F:205-523; G:205-523; H:205-523TYROSINE AMMONIA-LYASE FROM RHODOBACTER SPHAEROIDES, COMPLEXED WITH CAFFEATE
2O7EA:205-523; B:205-523; C:205-523; D:205-523; E:205-523; F:205-523; G:205-523; H:205-523TYROSINE AMMONIA-LYASE FROM RHODOBACTER SPHAEROIDES (HIS89PHE VARIANT), BOUND TO 2-AMINOINDAN-2-PHOSPHONIC ACID
2O7FA:205-523; B:205-523; C:205-523; D:205-523; E:205-523; F:205-523; G:205-523; H:205-523TYROSINE AMMONIA-LYASE FROM RHODOBACTER SPHAEROIDES (HIS89PHE VARIANT), COMPLEXED WITH COUMARIC ACID
(-)
Rhodosporidium toruloides. Organism_taxid: 5286. (2)
1T6JA:272-545,A:649-716; B:272-545,B:649-716CRYSTAL STRUCTURE OF PHENYLALANINE AMMONIA LYASE FROM RHODOSPORIDIUM TORULOIDES
1T6PD:272-545,D:649-716; B:272-545,B:649-716; E:272-545,E:649-716; C:272-545,C:649-716; F:272-545,F:649-716; H:272-545,H:649-716; A:272-545,A:649-716; G:272-545,G:649-716CRYSTAL STRUCTURE OF PHENYLALANINE AMMONIA LYASE FROM RHODOSPORIDIUM TORULOIDES
(-)
Rhodosporidium toruloides. Organism_taxid: 5286. (1)
1Y2MC:272-545,C:649-716; A:272-545,A:649-715; D:272-545,D:649-716; B:272-545,B:649-716CRYSTAL STRUCTURE OF PHENYLALANINE AMMONIA-LYASE FROM YEAST RHODODPORIDIUM TORULOIDES
(-)
Rickettsia prowazekii. Organism_taxid: 272947. Strain: madrid-e. (1)
3GTDA:139-407; B:139-4062.4 ANGSTROM CRYSTAL STRUCTURE OF FUMARATE HYDRATASE FROM RICKETTSIA PROWAZEKII
(-)
Staphylococcus aureus. Organism_taxid: 1280. Strain: 35556. (1)
2X75A:93-348STAPHYLOCOCCUS AUREUS ADENYLOSUCCINATE LYASE
(-)
Thermotoga maritima. Organism_taxid: 2336. (2)
1C3CA:93-348; B:93-348T. MARITIMA ADENYLOSUCCINATE LYASE
1C3UA:93-348; B:93-348T. MARITIMA ADENYLOSUCCINATE LYASE
(-)
Thermus thermophilus hb8. Organism_taxid: 300852. Strain: hb8. (2)
1VDKA:139-404; B:139-404CRYSTAL STRUCTURE OF FUMARASE FROM THERMUS THERMOPHILUS HB8
2E9FC:109-365,C:437-461; D:109-365,D:437-461; A:109-365,A:437-462; B:109-365,B:437-462CRYSTAL STRUCTURE OF T.TH.HB8 ARGININOSUCCINATE LYASE COMPLEXED WITH L-ARGININE
(-)
Turkey (Meleagris gallopavo) (1)
1I0AA:124-194,A:235-364,A:437-463; B:124-194,B:235-364,B:437-463; C:124-194,C:235-364,C:437-462; D:124-194,D:235-364,D:437-462CRYSTAL STRUCTURE OF WILD TYPE TURKEY DELTA 1 CRYSTALLIN (EYE LENS PROTEIN)
(-)
Western graylag goose (Anser anser anser) (1)
1XWOA:124-194,A:235-364,A:437-463; B:124-194,B:235-364,B:437-463; C:124-194,C:235-364,C:437-463; D:124-194,D:235-364,D:437-463CRYSTAL STRUCTRUE OF GOOSE DELTA CRYSTALLIN
(-)
Ym55-1 (Bacillus sp) (1)
1J3UA:140-407; B:140-407CRYSTAL STRUCTURE OF ASPARTASE FROM BACILLUS SP. YM55-1
(-)
Homologous Superfamily: She2p. Chain: A (1)
(-)
Baker's yeast (Saccharomyces cerevisiae) (1)
1XLYA:6-237; B:13-237X-RAY STRUCTURE OF THE RNA-BINDING PROTEIN SHE2P
(-)
Topology: Fumarate Reductase Cytochrome B subunit (17)
(-)
Homologous Superfamily: FUMARATE REDUCTASE CYTOCHROME B SUBUNIT; (5)
(-)
Wolinella succinogenes. Organism_taxid: 844. Wolinella succinogenes. Organism_taxid: 844. (5)
1E7PC:1-254; I:1-254; L:1-254; F:1-254QUINOL:FUMARATE REDUCTASE FROM WOLINELLA SUCCINOGENES
1QLBC:1-254; F:1-254RESPIRATORY COMPLEX II-LIKE FUMARATE REDUCTASE FROM WOLINELLA SUCCINOGENES
2BS2C:1-255; F:1-255QUINOL:FUMARATE REDUCTASE FROM WOLINELLA SUCCINOGENES
2BS3C:1-255; F:1-255GLU C180 -> GLN VARIANT QUINOL:FUMARATE REDUCTASE FROM WOLINELLA SUCCINOGENES
2BS4C:1-255; F:1-255GLU C180 -> ILE VARIANT QUINOL:FUMARATE REDUCTASE FROM WOLINELLA SUCCINOGENES
(-)
Homologous Superfamily: Transmembrane di-heme cytochromes, Chain C (12)
(-)
Escherichia coli k-12. Organism_taxid: 83333. (2)
3IR5C:2-216CRYSTAL STRUCTURE OF NARGHI MUTANT NARG-H49C
3IR6C:2-216CRYSTAL STRUCTURE OF NARGHI MUTANT NARG-H49S
(-)
Escherichia coli k-12. Organism_taxid: 83333. Strain: k12. (1)
3IR7C:2-216CRYSTAL STRUCTURE OF NARGHI MUTANT NARG-R94S
(-)
Escherichia coli. Organism_taxid: 562. (6)
1Q16C:2-216CRYSTAL STRUCTURE OF NITRATE REDUCTASE A, NARGHI, FROM ESCHERICHIA COLI
1SIWC:2-216CRYSTAL STRUCTURE OF THE APOMOLYBDO-NARGHI
1Y4ZC:2-216THE CRYSTAL STRUCTURE OF NITRATE REDUCTASE A, NARGHI, IN COMPLEX WITH THE Q-SITE INHIBITOR PENTACHLOROPHENOL
1Y5IC:2-216THE CRYSTAL STRUCTURE OF THE NARGHI MUTANT NARI-K86A
1Y5LC:2-216THE CRYSTAL STRUCTURE OF THE NARGHI MUTANT NARI-H66Y
1Y5NC:2-216THE CRYSTAL STRUCTURE OF THE NARGHI MUTANT NARI-K86A IN COMPLEX WITH PENTACHLOROPHENOL
(-)
Escherichia coli. Organism_taxid: 562. Strain: gl101. Escherichia coli. Organism_taxid: 562. Strain: gl101. (2)
1KQFC:2-217FORMATE DEHYDROGENASE N FROM E. COLI
1KQGC:2-217FORMATE DEHYDROGENASE N FROM E. COLI
(-)
Escherichia coli. Organism_taxid: 83333. (1)
3EGWC:2-216THE CRYSTAL STRUCTURE OF THE NARGHI MUTANT NARH - C16A
(-)
Topology: Glutathione S-transferase Yfyf (Class Pi); Chain A, domain 2 (267)
(-)
Homologous Superfamily: [code=1.20.1050.10, no name defined] (249)
(-)
African malaria mosquito (Anopheles gambiae) (1)
1PN9B:78-207; A:78-208CRYSTAL STRUCTURE OF AN INSECT DELTA-CLASS GLUTATHIONE S-TRANSFERASE FROM A DDT-RESISTANT STRAIN OF THE MALARIA VECTOR ANOPHELES GAMBIAE
(-)
Anopheles cracens. Organism_taxid: 123217. (1)
1R5AA:80-215GLUTATHIONE S-TRANSFERASE
(-)
Anopheles cracens. Organism_taxid: 123217. (2)
1JLVA:78-207; B:78-207; C:78-207; D:78-207; E:78-207; F:78-207ANOPHELES DIRUS SPECIES B GLUTATHIONE S-TRANSFERASES 1-3
1JLWA:81-217; B:81-217ANOPHELES DIRUS SPECIES B GLUTATHIONE S-TRANSFERASES 1-4
(-)
Anopheles dirus. Organism_taxid: 7168. (3)
1V2AA:77-208; C:77-205; D:77-208; B:77-208GLUTATHIONE S-TRANSFERASE 1-6 FROM ANOPHELES DIRUS SPECIES B
3G7IB:81-213; A:81-217CRYSTAL STRUCTURE OF A DELTA CLASS GST (ADGSTD4-4) FROM ANOPHELES DIRUS, WITH GLUTATHIONE COMPLEXED IN ONE SUBUNIT
3G7JB:81-216; A:81-217CRYSTAL STRUCTURE OF A GENETICALLY MODIFIED DELTA CLASS GST (ADGSTD4-4) FROM ANOPHELES DIRUS, Y119E, IN COMPLEX WITH S-HEXYL GLUTATHIONE
(-)
Anopheles dirus. Organism_taxid: 7168. (2)
3F63B:81-216; A:81-218CRYSTAL STRUCTURE OF A DELTA CLASS GST (ADGSTD4-4) FROM ANOPHELES DIRUS, IN COMPLEX WITH S-HEXYL GLUTATHIONE
3F6DB:81-213; A:81-218CRYSTAL STRUCTURE OF A GENETICALLY MODIFIED DELTA CLASS GST (ADGSTD4-4) FROM ANOPHELES DIRUS, F123A, IN COMPLEX WITH S-HEXYL GLUTATHIONE
(-)
Baker's yeast (Saccharomyces cerevisiae) (9)
1G6WA:197-353; B:197-352; C:197-352; D:197-352CRYSTAL STRUCTURE OF THE GLOBULAR REGION OF THE PRION PROTEIN URE2 FROM THE YEAST SACCAROMYCES CEREVISIAE
1G6YA:197-352; B:197-352CRYSTAL STRUCTURE OF THE GLOBULAR REGION OF THE PRION PROTEIN URE2 FROM YEAST SACCHAROMYCES CEREVISIAE
1HQOA:197-349; B:197-349CRYSTAL STRUCTURE OF THE NITROGEN REGULATION FRAGMENT OF THE YEAST PRION PROTEIN URE2P
1JZRA:197-352; B:197-352; C:197-352; D:197-352URE2P IN COMPLEX WITH GLUTATHIONE
1K0AB:197-351; A:197-352URE2P IN COMPLEX WITH S-HEXYLGLUTATHIONE
1K0BA:197-350; B:197-352; C:197-352; D:197-352URE2P IN COMPLEX WITH GLUTATHIONE
1K0CA:197-350; D:197-352; C:197-352; B:197-352URE2P IN COMPLEX WITH S-P-NITROBENZYLGLUTATHIONE
1K0DA:197-350; B:197-352; D:197-352; C:197-352URE2P IN COMPLEX WITH GLUTATHIONE
1NHYA:80-219CRYSTAL STRUCTURE OF THE GST-LIKE DOMAIN OF ELONGATION FACTOR 1-GAMMA FROM SACCHAROMYCES CEREVISIAE.
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Black rat (Rattus rattus) (10)
2GSTA:86-190; B:86-190STRUCTURE OF THE XENOBIOTIC SUBSTRATE BINDING SITE OF A GLUTATHIONE S-TRANSFERASE AS REVEALED BY X-RAY CRYSTALLOGRAPHIC ANALYSIS OF PRODUCT COMPLEXES WITH THE DIASTEREOMERS OF 9-(S-GLUTATHIONYL)-10-HYDROXY-9, 10-DIHYDROPHENANTHRENE
3GSTA:86-190; B:86-190STRUCTURE OF THE XENOBIOTIC SUBSTRATE BINDING SITE OF A GLUTATHIONE S-TRANSFERASE AS REVEALED BY X-RAY CRYSTALLOGRAPHIC ANALYSIS OF PRODUCT COMPLEXES WITH THE DIASTEREOMERS OF 9-(S-GLUTATHIONYL)-10-HYDROXY-9, 10-DIHYDROPHENANTHRENE
4GSTA:86-190; B:86-190REACTION COORDINATE MOTION IN AN SNAR REACTION CATALYZED BY GLUTATHIONE TRANSFERASE
5GSTA:86-190; B:86-190REACTION COORDINATE MOTION IN AN SNAR REACTION CATALYZED BY GLUTATHIONE TRANSFERASE
6GSTA:86-190; B:86-190FIRST-SPHERE AND SECOND-SPHERE ELECTROSTATIC EFFECTS IN THE ACTIVE SITE OF A CLASS MU GLUTATHIONE TRANSFERASE
6GSUA:86-190; B:86-190FIRST-SPHERE AND SECOND-SPHERE ELECTROSTATIC EFFECTS IN THE ACTIVE SITE OF A CLASS MU GLUTATHIONE TRANSFERASE
6GSVA:86-190; B:86-190FIRST-SPHERE AND SECOND-SPHERE ELECTROSTATIC EFFECTS IN THE ACTIVE SITE OF A CLASS MU GLUTATHIONE TRANSFERASE
6GSWA:86-190; B:86-190FIRST-SPHERE AND SECOND-SPHERE ELECTROSTATIC EFFECTS IN THE ACTIVE SITE OF A CLASS MU GLUTATHIONE TRANSFERASE
6GSXA:86-190; B:86-190FIRST-SPHERE AND SECOND-SPHERE ELECTROSTATIC EFFECTS IN THE ACTIVE SITE OF A CLASS MU GLUTATHIONE TRANSFERASE
6GSYA:86-190; B:86-190FIRST-SPHERE AND SECOND-SPHERE ELECTROSTATIC EFFECTS IN THE ACTIVE SITE OF A CLASS MU GLUTATHIONE TRANSFERASE
(-)
Blood fluke (Schistosoma haematobium) (6)
1OE7A:84-207; B:84-20728KDA GLUTATHIONE S-TRANSFERASE FROM SCHISTOSOMA HAEMATOBIUM
1OE8A:84-207; B:84-20728KDA GLUTATHIONE S-TRANSFERASE FROM SCHISTOSOMA HAEMATOBIUM (GLUTATHIONE SATURATED)
2C80A:84-211; B:84-211STRUCTURE OF SH28GST IN COMPLEX WITH S-HEXYL GLUTATHIONE
2C8UA:84-205; B:84-205STRUCTURE OF R21Q MUTANT OF SH28GST
2CAIA:84-211; B:84-211STRUCTURE OF GLUTATHIONE-S-TRANSFERASE MUTANT, R21L, FROM SCHISTOSOMA HAEMATOBIUM
2CAQA:84-207STRUCTURE OF R21L MUTANT OF SH28GST IN COMPLEX WITH GSH
(-)
Blood fluke (Schistosoma japonicum) (3)
3CRTA:82-186STRUCTURAL CHARACTERIZATION OF AN ENGINEERED ALLOSTERIC PROTEIN
3CRUA:82-186STRUCTURAL CHARACTERIZATION OF AN ENGINEERED ALLOSTERIC PROTEIN
3D0ZA:82-186STRUCTURAL CHARCATERIZATION OF AN ENGINEERED ALLOSTERIC PROTEIN
(-)
Bordetella bronchiseptica rb50. Organism_taxid: 257310. Strain: rb50 /nctc 13252. (1)
3H1NA:84-203; B:84-203CRYSTAL STRUCTURE OF PROBABLE GLUTATHIONE S-TRANSFERASE FROM BORDETELLA BRONCHISEPTICA RB50
(-)
Bread wheat (Aegilops tauschii) (1)
1GWCA:84-224; B:84-224; C:84-224THE STRUCTURE OF A TAU CLASS GLUTATHIONE S-TRANSFERASE FROM WHEAT, ACTIVE IN HERBICIDE DETOXIFICATION
(-)
Burkholderia xenovorans lb400. Organism_taxid: 266265. Strain: lb400. (2)
2DSAA:83-188; B:83-188; C:83-188; D:83-188TERNARY COMPLEX OF BPHK, A BACTERIAL GST
2GDRA:83-188; B:83-188; C:83-188; D:83-188; E:83-188; F:83-188CRYSTAL STRUCTURE OF A BACTERIAL GLUTATHIONE TRANSFERASE
(-)
Chicken (Gallus gallus) (6)
1C72A:86-190; C:86-190; D:86-190; B:86-190TYR115, GLN165 AND TRP209 CONTRIBUTE TO THE 1,2-EPOXY-3-(P-NITROPHENOXY)PROPANE CONJUGATING ACTIVITIES OF GLUTATHIONE S-TRANSFERASE CGSTM1-1
1GSUA:86-190; B:86-190AN AVIAN CLASS-MU GLUTATHIONE S-TRANSFERASE, CGSTM1-1 AT 1.94 ANGSTROM RESOLUTION
1VF1A:82-190CGSTA1-1 IN COMPLEX WITH GLUTATHIONE
1VF2A:82-190; B:1082-1190CGSTA1-1 IN COMPLEX WITH S-HEXYL-GLUTATHIONE
1VF3A:82-190; B:1082-1190CGSTA1-1 IN COMPLEX WITH GLUTATHIONE CONJUGATE OF CDNB
1VF4A:82-190CGSTA1-1 APO FORM
(-)
Coccidioides immitis. Organism_taxid: 5501. (1)
3LG6A:101-231; B:101-231; C:101-231; D:101-231CRYSTAL STRUCTURE OF PUTATIVE GLUTATHIONE TRANSFERASE FROM COCCIDIOIDES IMMITIS<