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Class: Alpha Beta (26913)
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Architecture: 3-Layer(aba) Sandwich (12045)
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Topology: D-Maltodextrin-Binding Protein; domain 2 (600)
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Homologous Superfamily: Periplasmic binding protein-like II (486)
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[unclassified] (1)
1T0KA:5-111,A:260-331; A:112-259,A:332-369JOINT X-RAY AND NMR REFINEMENT OF YEAST L30E-MRNA COMPLEX
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, (Escherichia coli, staphylococcus aureus) (1)
1HSJA:5-111,A:260-331; B:5-111,B:260-331; A:112-259,A:332-370; B:112-259,B:332-370SARR MBP FUSION STRUCTURE
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, baker's yeast (Escherichia coli, saccharomyces cerevisiae) (2)
1MH3A:5-111,A:260-331; A:112-259,A:332-475MALTOSE BINDING-A1 HOMEODOMAIN PROTEIN CHIMERA, CRYSTAL FORM I
1MH4A:5-111,A:260-331; A:112-259,A:332-475MALTOSE BINDING-A1 HOMEODOMAIN PROTEIN CHIMERA, CRYSTAL FORM II
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, fruit fly (Escherichia coli, drosophila melanogaster) (1)
1R6ZA:1-110,A:257-330; Z:2-111,Z:255-330; P:1-111,P:255-330; P:112-254,P:331-371; Z:112-254,Z:331-371; A:111-256,A:331-371THE CRYSTAL STRUCTURE OF THE ARGONAUTE2 PAZ DOMAIN (AS A MBP FUSION)
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A1 (Sphingomonas sp) (5)
1J1NA:1-132,A:311-399; B:133-310,B:400-492; B:1-132,B:311-399; A:133-310,A:400-492STRUCTURE ANALYSIS OF ALGQ2, A MACROMOLECULE(ALGINATE)-BINDING PERIPLASMIC PROTEIN OF SPHINGOMONAS SP. A1., COMPLEXED WITH AN ALGINATE TETRASACCHARIDE
1KWHA:1-132,A:311-399; A:133-310,A:400-492STRUCTURE ANALYSIS ALGQ2, A MACROMOLECULE(ALGINATE)-BINDING PERIPLASMIC PROTEIN OF SPHINGOMONAS SP. A1.
1Y3NA:1-132,A:311-399; A:133-310,A:400-490STRUCTURE OF ALGQ1, ALGINATE-BINDING PROTEIN, COMPLEXED WITH AN ALGINATE DISACCHARIDE
1Y3PA:1-132,A:311-399; A:133-310,A:400-490STRUCTURE OF ALGQ1, ALGINATE-BINDING PROTEIN, COMPLEXED WITH AN ALGINATE TETRASACCHARIDE
1Y3QA:1-132,A:311-399; A:133-310,A:400-490STRUCTURE OF ALGQ1, ALGINATE-BINDING PROTEIN
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Alicyclobacillus acidocaldarius. Organism_taxid: 405212 (1)
1URDA:143-283,A:358-399; B:143-283,B:358-399; B:31-142,B:284-357; A:30-142,A:284-357X-RAY STRUCTURES OF THE MALTOSE-MALTODEXTRIN BINDING PROTEIN OF THE THERMOACIDOPHILIC BACTERIUM ALICYCLOBACILLUS ACIDOCALDARIUS PROVIDE INSIGHT INTO ACID STABILITY OF PROTEINS
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Alicyclobacillus acidocaldarius. Organism_taxid: 405212. (2)
1URGA:143-283,A:358-402; A:30-142,A:284-357X-RAY STRUCTURES FROM THE MALTOSE-MALTODEXTRIN BINDING PROTEIN OF THE THERMOACIDOPHILIC BACTERIUM ALICYCLOBACILLUS ACIDOCALDARIUS
1URSA:143-283,A:358-396; B:143-283,B:358-396; B:31-142,B:284-357; A:30-142,A:284-357X-RAY STRUCTURES OF THE MALTOSE-MALTODEXTRIN BINDING PROTEIN OF THE THERMOACIDOPHILIC BACTERIUM ALICYCLOBACILLUS ACIDOCALDARIUS
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Anas platyrhynchos. Organism_taxid: 8839. (2)
1AOVA:92-250; A:434-589; A:1-91,A:251-339; A:340-433,A:590-686APO DUCK OVOTRANSFERRIN
1DOTA:92-250; A:434-589; A:1-91,A:251-339; A:340-433,A:590-686CRYSTALLOGRAPHIC STRUCTURE OF DUCK OVOTRANSFERRIN AT 2.3 ANGSTROMS RESOLUTION
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Anas sp.. Organism_taxid: 42806 (1)
1OVBA:94-248THE MECHANISM OF IRON UPTAKE BY TRANSFERRINS: THE STRUCTURE OF AN 18KD NII-DOMAIN FRAGMENT AT 2.3 ANGSTROMS RESOLUTION
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Arabian camel (Camelus dromedarius) (2)
1DTZA:92-250; A:433-592; A:1-91,A:251-339; A:340-432,A:593-689STRUCTURE OF CAMEL APO-LACTOFERRIN DEMONSTRATES ITS DUAL ROLE IN SEQUESTERING AND TRANSPORTING FERRIC IONS SIMULTANEOUSLY:CRYSTAL STRUCTURE OF CAMEL APO-LACTOFERRIN AT 2.6A RESOLUTION.
1I6QA:92-250; A:433-592; A:1-91,A:251-339; A:340-432,A:593-689FORMATION OF A PROTEIN INTERMEDIATE AND ITS TRAPPING BY THE SIMULTANEOUS CRYSTALLIZATION PROCESS: CRYSTAL STRUCTURE OF AN IRON-SATURATED INTERMEDIATE IN THE FE3+ BINDING PATHWAY OF CAMEL LACTOFERRIN AT 2.7 RESOLUTION
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Archaeoglobus fulgidus dsm 4304. Organism_taxid: 224325. Strain: dsm 4304. (4)
1SW1A:6-109,A:214-275; B:6-109,B:214-275CRYSTAL STRUCTURE OF PROX FROM ARCHEOGLOBUS FULGIDUS IN COMPLEX WITH PROLINE BETAINE
1SW2A:6-109,A:214-275CRYSTAL STRUCTURE OF PROX FROM ARCHEOGLOBUS FULGIDUS IN COMPLEX WITH GLYCINE BETAINE
1SW4A:6-109,A:214-275; B:6-109,B:214-275CRYSTAL STRUCTURE OF PROX FROM ARCHEOGLOBUS FULGIDUS IN COMPLEX WITH TRIMETHYL AMMONIUM
1SW5A:6-109,A:214-275; B:6-109,B:214-275; C:6-109,C:214-275; D:6-109,D:214-275CRYSTAL STRUCTURE OF PROX FROM ARCHEOGLOBUS FULGIDUS IN THE LIGAND FREE FORM
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Archaeoglobus fulgidus dsm 4304. Organism_taxid: 224325. Strain: vc-16, dsm 4304, jcm 9628, nbrc 100126. (2)
2ONRA:29-112,A:284-342; A:113-283CRYSTAL STRUCTURE OF A. FULGIDUS PERIPLASMIC BINDING PROTEIN MODA WITH BOUND MOLYBDATE
2ONSA:29-112,A:284-342; A:113-283CRYSTAL STRUCTURE OF A. FULGIDUS PERIPLASMIC BINDING PROTEIN MODA WITH BOUND TUNGSTATE
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Archaeoglobus fulgidus. Organism_taxid: 2234. (1)
2ONKE:32-112,E:284-342; J:29-112,J:284-338; E:113-283; J:113-283ABC TRANSPORTER MODBC IN COMPLEX WITH ITS BINDING PROTEIN MODA
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Aureus mu50 (Staphylococcus aureus subsp) (2)
1P99A:40-118,A:230-294; A:119-2291.7A CRYSTAL STRUCTURE OF PROTEIN PG110 FROM STAPHYLOCOCCUS AUREUS
2QMWA:2-83,A:165-175; B:2-83,B:165-175; A:84-164; B:84-164THE CRYSTAL STRUCTURE OF THE PREPHENATE DEHYDRATASE (PDT) FROM STAPHYLOCOCCUS AUREUS SUBSP. AUREUS MU50
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Azotobacter vinelandii. Organism_taxid: 354. Strain: rp2. (1)
1ATGA:2-81,A:191-232; A:82-190AZOTOBACTER VINELANDII PERIPLASMIC MOLYBDATE-BINDING PROTEIN
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Bacillus subtilis. Organism_taxid: 1423. (4)
2IEEA:12-107,A:210-245; A:108-204,A:207-209; B:108-204,B:207-209; B:14-107,B:210-245CRYSTAL STRUCTURE OF YCKB_BACSU FROM BACILLUS SUBTILIS. NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET SR574.
2O1MA:86-206; B:86-206; A:14-85,A:207-245; B:14-85,B:207-243CRYSTAL STRUCTURE OF THE PROBABLE AMINO-ACID ABC TRANSPORTER EXTRACELLULAR-BINDING PROTEIN YTMK FROM BACILLUS SUBTILIS. NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET SR572
3THIA:9-116,A:264-330; A:117-263,A:337-370THIAMINASE I FROM BACILLUS THIAMINOLYTICUS
4THIA:9-116,A:264-330; A:117-263,A:337-370THIAMINASE I FROM BACILLUS THIAMINOLYTICUS WITH COVALENTLY BOUND 4-AMINO-2,5-DIMETHYLPYRIMIDINE
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Bacillus subtilis. Organism_taxid: 1423. Strain: subtilis 168. (1)
2VD2A:95-176THE CRYSTAL STRUCTURE OF HISG FROM B. SUBTILIS
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Bordetella pertussis tohama i. Organism_taxid: 257313. Strain: tohamai. (2)
2OWSA:6-102,A:234-283; A:103-233,A:284-323CRYSTAL STRUCTURE OF BORDETELLA PERTUSSIS HOLO FERRIC BINDING PROTEIN BOUND WITH TWO SYNERGISTIC OXALATE ANIONS
2OWTA:5-102,A:234-283; A:103-233,A:284-323CRYSTAL STRUCTURE OF BORDETELLA PERTUSSIS HOLO FERRIC BINDING PROTEIN WITH BOUND SYNERGISTIC CARBONATE ANION
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Bordetella pertussis tohama i. Organism_taxid: 257313. Strain: tohamai. (1)
1Y9UA:6-102,A:234-283; A:103-233,A:284-323BORDETELLA FERRIC BINDING PROTEIN
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Bos taurus. Organism_taxid: 9913. (1)
3CRBA:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX OF C-LOBE OF LACTOFERRIN WITH 2-CHROMENONE AT 2.6 A RESOLUTION
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Bovine (Bos taurus) (9)
2QJEA:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX OF BOVINE C-LOBE WITH AMYGDALIN AT 2.3A RESOLUTION
2R71A:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX OF BOVINE C-LOBE WITH INOSITOL AT 2.1A RESOLUTION
2ZMBA:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX OF C-TERMINAL LOBE OF BOVINE LACTOFERRIN WITH PARECOXIB AT 2.9 A RESOLUTION
3E9XA:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX OF C-LOBE OF LACTOFERRIN WITH NIMESULIDE AT 2.7 A RESOLUTION
3IAZA:343-414,A:596-657; A:415-595,A:658-668STRUCTURAL BASIS OF THE PREVENTION OF NSAID-INDUCED DAMAGE OF THE GASTROINTESTINAL TRACT BY C-TERMINAL HALF (C-LOBE) OF BOVINE COLOSTRUM PROTEIN LACTOFERRIN: BINDING AND STRUCTURAL STUDIES OF THE C-LOBE COMPLEX WITH ASPIRIN
3IB0A:343-414,A:596-657; A:415-595,A:658-668STRUCTURAL BASIS OF THE PREVENTION OF NSAID-INDUCED DAMAGE OF THE GASTROINTESTINAL TRACT BY C-TERMINAL HALF (C-LOBE) OF BOVINE COLOSTRUM PROTEIN LACTOFERRIN: BINDING AND STRUCTURAL STUDIES OF C-LOBE COMPLEX WITH DICLOFENAC
3IB1A:343-414,A:596-657; A:415-595,A:658-668STRUCTURAL BASIS OF THE PREVENTION OF NSAID-INDUCED DAMAGE OF THE GASTROINTESTINAL TRACT BY C-TERMINAL HALF (C-LOBE) OF BOVINE COLOSTRUM PROTEIN LACTOFERRIN: BINDING AND STRUCTURAL STUDIES OF C-LOBE COMPLEX WITH INDOMETHACIN
3IB2A:343-414,A:596-657; A:415-595,A:658-668STRUCTURE OF THE COMPLEX OF C-TERMINAL HALF (C-LOBE) OF BOVINE LACTOFERRIN WITH ALPHA-METHYL-4-(2-METHYLPROPYL) BENZENE ACETIC ACID
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Bovine,cow,domestic cattle,domestic cow (Bos taurus) (2)
3K0VA:343-414,A:596-657; A:415-595,A:658-668REMOVAL OF SUGARS AND SUGARS-LIKE MOLECULES FROM THE SOLUTION BY C-LOBE OF LACTOFERRIN: CRYSTAL STRUCTURE OF THE COMPLEX OF C-LOBE WITH BETA-D-GLUCOPYRANOSYL-(1->4)-BETA-D-GALACTOPYRANOSYL-(1->4)-ALPHA-D-GLUCOPYRANOSE AT 1.9 A RESOLUTION
3KJ7A:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX OF C-LOBE OF BOVINE LACTOFERRIN WITH DEXTRIN AT 1.9 A RESOLUTION
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Brown rat,rat,rats (Rattus norvegicus) (3)
3G3FA:3-109,A:215-253; B:2-109,B:215-257CRYSTAL STRUCTURE OF THE GLUR6 LIGAND BINDING DOMAIN DIMER WITH GLUTAMATE AND NACL AT 1.38 ANGSTROM RESOLUTION
3KEIA:1-105,A:215-254; B:1-105,B:215-254CRYSTAL STRUCTURE OF THE GLUA4 LIGAND-BINDING DOMAIN L651V MUTANT IN COMPLEX WITH GLUTAMATE
3KFMA:1-105,A:215-254CRYSTAL STRUCTURE OF THE GLUA4 LIGAND-BINDING DOMAIN L651V MUTANT IN COMPLEX WITH KAINATE
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Burkholderia cepacia. Organism_taxid: 292. Strain: strain dnt. (2)
2UYEB:76-170,B:270-301; A:88-170,A:270-302; A:171-269; B:171-269DOUBLE MUTANT Y110S,F111V DNTR FROM BURKHOLDERIA SP. STRAIN DNT IN COMPLEX WITH THIOCYANATE
2UYFB:76-170,B:270-301; A:89-170,A:270-303; A:171-269; B:171-269SINGLE MUTANT F111L DNTR FROM BURKHOLDERIA SP. STRAIN DNT IN COMPLEX WITH THIOCYANATE
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Burkholderia sp.. Organism_taxid: 233098. Strain: dnt. (2)
1UTBA:89-170,A:270-302; B:75-170,B:270-301; A:171-269; B:171-269DNTR FROM BURKHOLDERIA SP. STRAIN DNT
1UTHB:76-170,B:270-301; A:86-170,A:270-304; A:171-269; B:171-269DNTR FROM BURKHOLDERIA SP. STRAIN DNT IN COMPLEX WITH THIOCYANATE
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C58 (Agrobacterium tumefaciens str) (2)
3C9HA:134-261,A:337-354; B:134-261,B:337-353; A:16-133,A:262-336; B:15-133,B:262-336CRYSTAL STRUCTURE OF THE SUBSTRATE BINDING PROTEIN OF THE ABC TRANSPORTER FROM AGROBACTERIUM TUMEFACIENS
3FD3A:112-181,A:283-318; A:182-282STRUCTURE OF THE C-TERMINAL DOMAINS OF A LYSR FAMILY PROTEIN FROM AGROBACTERIUM TUMEFACIENS STR. C58.
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Campylobacter jejuni. Organism_taxid: 197. (1)
1Y4TD:6-105,D:238-284; A:5-105,A:238-284FERRIC BINDING PROTEIN FROM CAMPYLOBACTER JEJUNI
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Campylobacter jejuni. Organism_taxid: 197. Strain: nctc 11168. (1)
3E13X:5-105,X:238-284IRON RECONSTITUTED FERRIC BINDING PROTEIN FROM CAMPYLOBACTER JEJUNI
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Cattle (Bos taurus) (37)
1BLFA:92-250; A:433-594; A:5-91,A:251-339; A:340-432,A:595-689STRUCTURE OF DIFERRIC BOVINE LACTOFERRIN AT 2.8 ANGSTROMS RESOLUTION
1NKXA:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF A PROTEOLYTICALLY GENERATED FUNCTIONAL MONOFERRIC C-LOBE OF BOVINE LACTOFERRIN AT 1.9A RESOLUTION
1SDXA:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE ZINC SATURATED C-TERMINAL HALF OF BOVINE LACTOFERRIN AT 2.0 A RESOLUTION REVEALS TWO ADDITIONAL ZINC BINDING SITES
2ALUA:343-414,A:596-657; A:415-595,A:658-668DETECTION OF NEW BINDING SITE IN THE C-TERMINAL LOBE OF LACTOFERRIN:CRYSTAL STRUCTURE OF THE COMPLEX FORMED BETWEEN BOVINE LACTOFERRIN AND A TETRASACCHARIDE AT 2.1A RESOLUTION
2AYSA:343-414,A:596-657; A:415-595,A:658-668A CONSERVED NON-METALLIC BINDING SITE IN THE C-TERMINAL LOBE OF LACTOFERRIN: STRUCTURE OF THE COMPLEX OF C-TERMINAL LOBE OF BOVINE LACTOFERRIN WITH N-ACETYL GALACTOSAMINE AT 1.86 A RESOLUTION
2B65A:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX OF C-LOBE OF BOVINE LACTOFERRIN WITH MALTOSE AT 1.5A RESOLUTION
2DOJA:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX OF C-TERMINAL LOBE OF BOVINE LACTOFERRIN WITH ADENOSINE AT 2.4 A RESOLUTION
2DP8A:343-414,A:596-657; A:415-595,A:658-668CARBOHYDRATE RECOGNITION BY LACTOFERRIN: CRYSTAL STRUCTURE OF THE COMPLEX OF C-TERMINAL LOBE OF BOVINE LACTOFERRIN WITH TRISACCHARIDE AT 2.5 A RESOLUTION
2DQVA:343-414,A:596-657; A:415-595,A:658-668STRUCTURE OF THE C-TERMINAL LOBE OF BOVINE LACTOFERRIN IN COMPLEX WITH GALACTOSE AT 2.7 A RESOLUTION
2DS9A:343-414,A:596-657; A:415-595,A:658-668STRUCTURE OF THE COMPLEX OF C-TERMINAL LOBE OF BOVINE LACTOFERRIN WITH MANNOSE AT 2.8 A RESOLUTION
2DSFA:343-414,A:596-657; A:415-595,A:658-668STRUCTURE OF THE COMPLEX OF C-TERMINAL LOBE OF BOVINE LACTOFERRIN WITH XYLOSE AT 2.8A RESOLUTION
2DVCA:343-414,A:596-657; A:415-595,A:658-668STRUCTURE OF THE BOVINE LACTOFERRIN C-LOBE COMPLEX WITH SUCROSE AT 3.0 A RESOLUTION
2DWAA:343-414,A:596-657; A:415-595,A:658-668STRUCTURE OF THE COMPLEX OF LACTOFERRIN C-TERMINAL HALF WITH FUCOSE AT 2.07 A RESOLUTION
2DWHA:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF N-ACETYLGLUCOSAMINE COMPLEX OF BOVINE LACTOFERRIN C-LOBE AT 2.8 A RESOLUTION
2DWIA:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX FORMED BETWEEN C-TERMINAL HALF OF BOVINE LACTOFERRIN AND CELLOBIOSE AT 2.2 A RESOLUTION
2DWJA:343-414,A:596-657; A:415-595,A:658-668STRUCTURE OF THE COMPLEX OF C-TERMINAL LOBE OF BOVINE LACTOFERRIN WITH RAFFINOSE AT 2.3 A RESOLUTION
2DXRA:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX FORMED BETWEEN C-TERMINAL HALF OF BOVINE LACTOFERRIN AND SORBITOL AT 2.85 A RESOLUTION
2DXYA:343-414,A:596-657; A:415-595,A:658-668STRUCTURE OF THE COMPLEX OF C-TERMINAL LOBE OF BOVINE LACTOFERRIN WITH TREHALOSE AT 2.0 A RESOLUTION
2DYXA:343-414,A:596-657; A:415-595,A:658-668STRUCTURE OF THE COMPLEX OF LACTOFERRIN C-LOBE WITH MELIBIOSE AT 2.0 A RESOLUTION
2E0SA:343-414,A:596-657; A:415-595,A:658-668CARBOHYDRATE RECOGNITION OF C-TERMINAL HALF OF LACTOFERRIN: CRYSTAL STRUCTURE OF THE COMPLEX OF C-LOBE WITH RHAMNOSE AT 2.15 A RESOLUTION
2E1SA:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX OF C-TERMINAL HALF OF BOVINE LACTOFERRIN AND ARABINOSE AT 2.7 A RESOLUTION
2FA7A:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX OF BOVINE LACTOFERRIN C-LOBE WITH A PENTASACCHARIDE AT 2.38 A RESOLUTION
2G93A:343-414,A:596-657; A:415-595,A:658-668LIGAND RECOGNITION SITE IN C-LOBE OF LACTOFERRIN: CRYSTAL STRUCTURE OF THE COMPLEX OF C-LOBE OF BOVINE LACTOFERRIN WITH METHYL ALPHA-D-MANNOPYRANOSIDE AT 1.9 A RESOLUTION
2H4IA:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX OF PROTEOLYTICALLY PRODUCED C-TERMINAL HALF OF BOVINE LACTOFERRIN WITH LACTOSE AT 2.55 A RESOLUTION
2HCAA:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF BOVINE LACTOFERRIN C-LOBE LIGANDED WITH GLUCOSE AT 2.8 A RESOLUTION
2NUVA:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX OF C-TERMINAL LOBE OF BOVINE LACTOFERRIN WITH ATENOLOL AT 2.25 A RESOLUTION
2NWJA:343-414,A:596-657; A:415-595,A:658-668STRUCTURE OF THE COMPLEX OF C-TERMINAL LOBE OF BOVINE LACTOFERRIN WITH DISACCHARIDE AT 1.75 A RESOLUTION
2O1LA:343-414,A:596-657; A:415-595,A:658-668STRUCTURE OF A COMPLEX OF C-TERMINAL LOBE OF BOVINE LACTOFERRIN WITH DISACCHARIDE AT 1.97 A RESOLUTION
2O51A:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF BOVINE C-LOBE WITH FRUCTOSE AT 3.0 A RESOLUTION
2OCUA:343-414,A:596-657; A:415-595,A:658-668STRUCTURE OF THE COMPLEX OF C-TERMINAL LOBE OF BOVINE LACTOFERRIN WITH N-(4-HYDROXYPHENYL) ACETAMIDE AT 2.38 A RESOLUTION
2P1SA:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE C-TERMINAL LOBE OF BOVINE LACTOFERRIN COMPLEXED WITH O-ALPHA-D-GLUCOPYRANOSYL-(1 3)-ALPHA-D-FRUCTOFURANOSYL- (2 1)- ALPHA-D-GLUCOPYRANOSIDE AT 1.93 A RESOLUTION
2PX1A:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX OF BOVINE LACTOFERRIN C-LOBE WITH RIBOSE AT 2.5 A RESOLUTION
2Q8JA:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX OF C-LOBE OF BOVINE LACTOFERRIN WITH MANNITOL AND MANNOSE AT 2.7 A RESOLUTION
2R9JA:343-414,A:596-657; A:415-595,A:658-668LIGAND RECOGNITION IN C-LOBE: THE CRYSTAL STRUCTURE OF THE COMPLEX OF LACTOFERRIN C-LOBE WITH NICOTINAMIDE AT 2.5 A RESOLUTION
3CFLA:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX FORMED BETWEEN C-LOBE OF BOVINE LACTOFERRIN AND 5-CHLORO-6'-METHYL-3-[4-(METHYLSULFONYL)PHENYL]-2,3'-BIPYRIDINE AT 2.25 A RESOLUTION
3CI8A:343-414,A:596-657; A:415-595,A:658-668CRYSTAL STRUCTURE OF THE COMPLEX OF C-LOBE OF LACTOFERRIN WITH VITAMIN B3 (NIACIN) AT 2.4 A RESOLUTION
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Chicken (Gallus gallus) (10)
1AIVA:92-247; A:431-589; A:5-91,A:248-341; A:342-430,A:590-685APO OVOTRANSFERRIN
1IEJA:82-250,A:317-327; A:5-81,A:251-316OVOTRANSFERRIN, N-TERMINAL LOBE, HOLO FORM, AT 1.65 A RESOLUTION
1IQ7A:344-414,A:593-653; A:415-592,A:654-661OVOTRANSFERRIN, C-TERMINAL LOBE, APO FORM
1N04A:92-247; A:431-589; A:5-91,A:248-339; A:340-430,A:590-685DIFERRIC CHICKEN SERUM TRANSFERRIN AT 2.8 A RESOLUTION.
1NFTA:82-250,A:317-327; A:5-81,A:251-316OVOTRANSFERRIN, N-TERMINAL LOBE, IRON LOADED OPEN FORM
1NNTA:82-250,A:317-327; A:5-81,A:251-316STRUCTURAL EVIDENCE FOR A PH-SENSITIVE DI-LYSINE TRIGGER IN THE HEN OVOTRANSFERRIN N-LOBE: IMPLICATIONS FOR TRANSFERRIN IRON RELEASE
1OVTA:92-247; A:431-589; A:5-91,A:248-339; A:340-430,A:590-685REFINED CRYSTALLOGRAPHIC STRUCTURE OF HEN OVOTRANSFERRIN AT 2.4 ANGSTROMS RESOLUTION
1RYXA:92-247; A:431-589; A:5-91,A:248-339; A:340-430,A:590-685CRYSTAL STRUCTURE OF HEN SERUM TRANSFERRIN IN APO- FORM
1TFAA:82-250,A:317-327; A:5-81,A:251-316OVOTRANSFERRIN, N-TERMINAL LOBE, APO FORM
2D3IA:92-247; A:431-589; A:5-91,A:248-335; A:342-430,A:590-685CRYSTAL STRUCTURE OF ALUMINUM-BOUND OVOTRANSFERRIN AT 2.15 ANGSTROM RESOLUTION
(-)
Chlorobium tepidum tls. Organism_taxid: 194439. Strain: tls, dsm 12025. (1)
2QMXA:3-81,A:168-178; B:3-81,B:168-178; A:82-167; B:82-167THE CRYSTAL STRUCTURE OF L-PHE INHIBITED PREPHENATE DEHYDRATASE FROM CHLOROBIUM TEPIDUM TLS
(-)
Citri (Xanthomonas axonopodis pv) (1)
3GZGA:2-82,A:195-233; B:2-82,B:195-233; C:2-82,C:195-233; A:83-194; B:83-194; C:83-194CRYSTAL STRUCTURE OF THE XANTHOMONAS AXONOPODIS PV. CITRI MOLYBDATE-BINDING PROTEIN (MODA) MUTANT (K127S)
(-)
Citri str (Xanthomonas axonopodis pv) (1)
2H5YB:1-82,B:195-233; A:2-82,A:195-233; C:2-82,C:195-233; A:83-194; B:83-194; C:83-194CRYSTALLOGRAPHIC STRUCTURE OF THE MOLYBDATE-BINDING PROTEIN OF XANTHOMONAS CITRI AT 1.7 ANG RESOLUTION BOUND TO MOLYBDATE
(-)
Coccidioides immitis rs. Organism_taxid: 246410. Strain: rs. (1)
3CVGA:24-125,A:251-303; B:24-125,B:251-303; D:26-125,D:251-303; A:127-250; B:127-250; C:127-250; D:127-250; C:97-125,C:251-303CRYSTAL STRUCTURE OF A PERIPLASMIC PUTATIVE METAL BINDING PROTEIN
(-)
Common duck (Anas platyrhynchos) (2)
1GV8A:94-25218 KDA FRAGMENT OF N-II DOMAIN OF DUCK OVOTRANSFERRIN
1GVCA:94-25018KDA N-II DOMAIN FRAGMENT OF DUCK OVOTRANSFERRIN + NTA
(-)
Cupriavidus necator. Organism_taxid: 106590. (1)
1IXCA:162-267; B:162-267; A:88-161,A:268-293; B:88-161,B:268-289CRYSTAL STRUCTURE OF CBNR, A LYSR FAMILY TRANSCRIPTIONAL REGULATOR
(-)
Cupriavidus necator. Organism_taxid: 106590. (1)
1IZ1A:162-267; B:162-267; P:162-267; Q:162-267; B:88-161,B:268-293; A:88-161,A:268-292; P:88-161,P:268-292; Q:88-161,Q:268-292CRYSTAL STRUCTURE OF CBNR, A LYSR FAMILY TRANSCRIPTIONAL REGULATOR
(-)
Deinococcus radiodurans. Organism_taxid: 1299. Strain: deinococcus radiodurans. (1)
2I6EA:16-86,A:200-280; B:16-86,B:200-280; C:87-199; D:87-199; E:87-199; F:87-199; G:87-199; H:87-199; C:16-86,C:200-280; D:16-86,D:200-280; E:16-86,E:200-280; F:16-86,F:200-280; G:16-86,G:200-280; H:16-86,H:200-280; A:87-199; B:87-199CRYSTAL STRUCTURE OF PROTEIN DR0370 FROM DEINOCOCCUS RADIODURANS, PFAM DUF178
(-)
Designed synthetic gene. (1)
1SVXB:5-111,B:258-331; B:112-257,B:332-373CRYSTAL STRUCTURE OF A DESIGNED SELECTED ANKYRIN REPEAT PROTEIN IN COMPLEX WITH THE MALTOSE BINDING PROTEIN
(-)
Escherichia coli k12. Organism_taxid: 83333. Strain: k-12 (1)
1DPEA:1-9,A:179-259,A:479-507DIPEPTIDE-BINDING PROTEIN
(-)
Escherichia coli k12. Organism_taxid: 83333. Strain: k-12. (1)
2FYIC:80-166,C:268-307; A:85-166,A:268-307; B:85-166,B:268-307; D:85-166,D:268-307; A:167-267; B:167-267; C:167-267; D:167-267CRYSTAL STRUCTURE OF THE COFACTOR-BINDING DOMAIN OF THE CBL TRANSCRIPTIONAL REGULATOR
(-)
Escherichia coli k12. Organism_taxid: 83333. Strain: k12. (5)
1ANFA:5-111,A:260-331; A:112-259,A:332-369MALTODEXTRIN BINDING PROTEIN WITH BOUND MALTOSE
1EZ9A:5-111,A:260-331; B:1112-1259,B:1332-1370; B:1005-1111,B:1260-1331; A:112-259,A:332-370STRUCTURE OF MALTOTETRAITOL BOUND TO OPEN-FORM MALTODEXTRIN BINDING PROTEIN IN P1 CRYSTAL FORM
2R6GE:4-111,E:260-331; E:112-259,E:332-370THE CRYSTAL STRUCTURE OF THE E. COLI MALTOSE TRANSPORTER
3MBPA:5-111,A:260-331; A:112-259,A:332-370MALTODEXTRIN-BINDING PROTEIN WITH BOUND MALTOTRIOSE
4MBPA:5-111,A:260-331; A:112-259,A:332-369MALTODEXTRIN BINDING PROTEIN WITH BOUND MALTETROSE
(-)
Escherichia coli k12. Organism_taxid: 83333. Strain: k12. (3)
1MPBA:5-111,A:260-331; A:112-259,A:332-370MALTODEXTRIN-BINDING PROTEIN (MALTOSE-BINDING PROTEIN) MUTANT, WITH ARGININE REPLACING TRYPTOPHAN AT POSITION 230 (TRP-230-ARG)
1MPCA:5-111,A:260-331; A:112-259,A:332-370MALTODEXTRIN-BINDING PROTEIN (MALTOSE-BINDING PROTEIN) MUTANT, WITH ARGININE REPLACING TRYPTOPHAN AT POSITION 230 (TRP-230-ARG)
1MPDA:5-111,A:260-331; A:112-259,A:332-370MALTODEXTRIN-BINDING PROTEIN (MALTOSE-BINDING PROTEIN) MUTANT, WITH ARGININE REPLACING TRYPTOPHAN AT POSITION 230 (TRP-230-ARG), COMPLEXED WITH MALTOSE
(-)
Escherichia coli. Organism_taxid: 562 (6)
1DPPA:1-9,A:179-259,A:479-507; C:1-9,C:179-259,C:479-507; E:1-9,E:179-259,E:479-507; G:1-9,G:179-259,G:479-507DIPEPTIDE BINDING PROTEIN COMPLEX WITH GLYCYL-L-LEUCINE
1HSLA:1-90,A:192-238; A:91-191; B:91-191; B:1-90,B:192-238REFINED 1.89 ANGSTROMS STRUCTURE OF THE HISTIDINE-BINDING PROTEIN COMPLEXED WITH HISTIDINE AND ITS RELATIONSHIP WITH MANY OTHER ACTIVE TRANSPORT(SLASH)CHEMOSENSORY RECEPTORS
1MDP1:5-111,1:260-331; 2:5-111,2:260-331; 1:112-259,1:332-369; 2:112-259,2:332-369REFINED STRUCTURES OF TWO INSERTION(SLASH)DELETION MUTANTS PROBE FUNCTION OF THE MALTODEXTRIN BINDING PROTEIN
1MDQA:5-111,A:260-331; A:112-259,A:332-371REFINED STRUCTURES OF TWO INSERTION(SLASH)DELETION MUTANTS PROBE FUNCTION OF THE MALTODEXTRIN BINDING PROTEIN
1PBPA:1-77,A:230-239,A:254-321; A:78-229,A:240-253FINE TUNING OF THE SPECIFICITY OF THE PERIPLASMIC PHOSPHATE TRANSPORT RECEPTOR: SITE-DIRECTED MUTAGENESIS, LIGAND BINDING, AND CRYSTALLOGRAPHIC STUDIES
1PDAA:3-99,A:200-220; A:100-199STRUCTURE OF PORPHOBILINOGEN DEAMINASE REVEALS A FLEXIBLE MULTIDOMAIN POLYMERASE WITH A SINGLE CATALYTIC SITE
(-)
Escherichia coli. Organism_taxid: 562. (22)
1AMFA:3-82,A:195-233; A:83-194CRYSTAL STRUCTURE OF MODA, A MOLYBDATE TRANSPORT PROTEIN, COMPLEXED WITH MOLYBDATE
1IUDA:5-111,A:260-331; A:112-259,A:332-369MALTODEXTRIN-BINDING PROTEIN INSERTION/DELETION MUTANT WITH AN INSERTED B-CELL EPITOPE FROM THE PRES2 REGION OF HEPATITIS B VIRUS
1JVXA:5-111,A:260-332; A:112-259,A:333-371MALTODEXTRIN-BINDING PROTEIN VARIANT D207C/A301GS/P316C CROSS-LINKED IN CRYSTAL
1JVYA:5-111,A:260-332; A:112-259,A:333-369MALTODEXTRIN-BINDING PROTEIN VARIANT D207C/A301GS/P316C WITH BETA-MERCAPTOETHANOL MIXED DISULFIDES
1LAXC:5-111,C:260-331; A:5-111,A:260-331; C:112-259,C:332-368; A:112-259,A:332-369CRYSTAL STRUCTURE OF MALE31, A DEFECTIVE FOLDING MUTANT OF MALTOSE-BINDING PROTEIN
1N3WA:5-111,A:260-331; A:112-259,A:332-370ENGINEERED HIGH-AFFINITY MALTOSE-BINDING PROTEIN
1N3XA:5-111,A:260-331; A:112-259,A:332-370LIGAND-FREE HIGH-AFFINITY MALTOSE-BINDING PROTEIN
1NL5A:5-111,A:260-331; A:112-259,A:332-370ENGINEERED HIGH-AFFINITY MALTOSE-BINDING PROTEIN
1PEBA:5-111,A:260-331; A:112-259,A:332-370LIGAND-FREE HIGH-AFFINITY MALTOSE-BINDING PROTEIN
1POTA:132-255,A:316-347; A:26-131,A:256-315SPERMIDINE/PUTRESCINE-BINDING PROTEIN COMPLEXED WITH SPERMIDINE (MONOMER FORM)
1POY1:132-255,1:316-348; 1:26-131,1:256-315; 2:26-131,2:256-315; 3:26-131,3:256-315; 4:26-131,4:256-315; 2:132-255,2:316-348; 3:132-255,3:316-348; 4:132-255,4:316-348SPERMIDINE/PUTRESCINE-BINDING PROTEIN COMPLEXED WITH SPERMIDINE (DIMER FORM)
1Q1KA:102-191; A:5-101,A:192-225STRUCTURE OF ATP-PHOSPHORIBOSYLTRANSFERASE FROM E. COLI COMPLEXED WITH PR-ATP
1R9LA:1-91,A:233-309STRUCTURE ANALYSIS OF PROX IN COMPLEX WITH GLYCINE BETAINE
1R9QA:1-91,A:233-309STRUCTURE ANALYSIS OF PROX IN COMPLEX WITH PROLINE BETAINE
1WODA:3-82,A:195-233; A:83-194CRYSTAL STRUCTURE OF MODA, A MOLYBDATE PROTEIN, COMPLEXED WITH TUNGSTATE
1Y4CA:4-111,A:260-331; A:112-259,A:332-370DESIGNED HELICAL PROTEIN FUSION MBP
1YTVA:19-125,A:274-345; B:19-125,B:274-345; A:126-273,A:346-380; B:126-273,B:346-380MALTOSE-BINDING PROTEIN FUSION TO A C-TERMINAL FRAGMENT OF THE V1A VASOPRESSIN RECEPTOR
1ZIUA:5-111,A:260-331; A:112-259,A:332-370CRYSTAL STRUCTURE OF NICKEL-BOUND ENGINEERED MALTOSE BINDING PROTEIN
1ZJLA:5-111,A:260-331; A:112-259,A:332-370CRYSTAL STRUCTURE OF ZINC-BOUND ENGINEERED MALTOSE BINDING PROTEIN
1ZKBA:5-111,A:260-331; A:112-259,A:332-370ZINC-FREE ENGINEERED MALTOSE BINDING PROTEIN
1ZMGA:5-111,A:260-331; A:112-259,A:332-370CRYSTAL STRUCTURE OF COPPER-BOUND ENGINEERED MALTOSE BINDING PROTEIN
2D21A:1-112,A:259-325; A:113-258,A:326-370NMR STRUCTURE OF STEREO-ARRAY ISOTOPE LABELLED (SAIL) MALTODEXTRIN-BINDING PROTEIN (MBP)
(-)
Escherichia coli. Organism_taxid: 562. (17)
1AH5A:3-99,A:200-220; A:100-199REDUCED FORM SELENOMETHIONINE-LABELLED HYDROXYMETHYLBILANE SYNTHASE DETERMINED BY MAD
1EZOA:5-111,A:260-331; A:112-259,A:332-370GLOBAL FOLD OF MALTODEXTRIN BINDING PROTEIN COMPLEXED WITH BETA-CYCLODEXTRIN
1EZPA:5-111,A:260-331; A:112-259,A:332-369GLOBAL FOLD OF MALTODEXTRIN BINDING PROTEIN COMPLEXED WITH BETA-CYCLODEXTRIN USING PEPTIDE ORIENTATIONS FROM DIPOLAR COUPLINGS
1FQAA:5-111,A:260-331; A:112-259,A:332-370STRUCTURE OF MALTOTETRAITOL BOUND TO OPEN-FORM MALTODEXTRIN BINDING PROTEIN IN P2(1)CRYSTAL FORM
1FQBA:5-111,A:260-331; A:112-259,A:332-370STRUCTURE OF MALTOTRIOTOL BOUND TO OPEN-FORM MALTODEXTRIN BINDING PROTEIN IN P2(1)CRYSTAL FORM
1FQCA:5-111,A:260-331; A:112-259,A:332-370CRYSTAL STRUCTURE OF MALTOTRIOTOL BOUND TO CLOSED-FORM MALTODEXTRIN BINDING PROTEIN
1FQDA:5-111,A:260-331; A:112-259,A:332-370CRYSTAL STRUCTURE OF MALTOTETRAITOL BOUND TO CLOSED-FORM MALTODEXTRIN BINDING PROTEIN
1GTKA:3-99,A:200-220; A:100-199TIME-RESOLVED AND STATIC-ENSEMBLE STRUCTURAL CHEMISTRY OF HYDROXYMETHYLBILANE SYNTHASE
1I69A:87-163,A:268-297; B:1087-1163,B:1268-1297; A:164-267; B:1164-1267CRYSTAL STRUCTURE OF THE REDUCED FORM OF OXYR
1I6AA:87-163,A:268-298; A:164-267CRYSTAL STRUCTURE OF THE OXIDIZED FORM OF OXYR
1JW4A:5-111,A:260-331; A:112-259,A:332-370STRUCTURE OF LIGAND-FREE MALTODEXTRIN-BINDING PROTEIN
1JW5A:5-111,A:260-331; A:112-259,A:332-370STRUCTURE OF MALTOSE BOUND TO OPEN-FORM MALTODEXTRIN-BINDING PROTEIN IN P1 CRYSTAL
1LLSA:5-111,A:260-331; A:112-259,A:332-370CRYSTAL STRUCTURE OF UNLIGANDED MALTOSE BINDING PROTEIN WITH XENON
1NMUA:5-111,A:260-331; A:112-259,A:332-370; C:112-259,C:332-370; C:5-111,C:260-331MBP-L30
1YPNA:3-99,A:200-220; A:100-199REDUCED FORM HYDROXYMETHYLBILANE SYNTHASE (K59Q MUTANT) CRYSTAL STRUCTURE AFTER 2 HOURS IN A FLOW CELL DETERMINED BY TIME-RESOLVED LAUE DIFFRACTION
2H25A:5-111,A:260-331; A:112-259,A:332-370SOLUTION STRUCTURE OF MALTOSE BINDING PROTEIN COMPLEXED WITH BETA-CYCLODEXTRIN
2YPNA:3-99,A:200-220; A:100-199HYDROXYMETHYLBILANE SYNTHASE
(-)
Escherichia coli. Organism_taxid: 562. Expression_system_vector_type:bacterial (2)
1DMBA:5-111,A:260-331; A:112-259,A:332-370REFINED 1.8 ANGSTROMS STRUCTURE REVEALS THE MECHANISM OF BINDING OF A CYCLIC SUGAR, BETA-CYCLODEXTRIN, TO THE MALTODEXTRIN BINDING PROTEIN
1OMPA:5-111,A:260-331; A:112-259,A:332-370CRYSTALLOGRAPHIC EVIDENCE OF A LARGE LIGAND-INDUCED HINGE-TWIST MOTION BETWEEN THE TWO DOMAINS OF THE MALTODEXTRIN-BINDING PROTEIN INVOLVED IN ACTIVE TRANSPORT AND CHEMOTAXIS
(-)
Escherichia coli. Organism_taxid: 562. Strain: an2538. (1)
1OIBA:1-77,A:230-239,A:254-321; B:1-77,B:230-239,B:254-321; A:78-229,A:240-253; B:78-229,B:240-253PHOSPHATE-BINDING PROTEIN MUTANT T141D
(-)
Escherichia coli. Organism_taxid: 562. Strain: bk9mdg (1)
1WDNA:5-87,A:184-224; A:88-183GLUTAMINE-BINDING PROTEIN
(-)
Escherichia coli. Organism_taxid: 562. Strain: bk9mdg. (1)
1GGGA:5-87,A:184-224; B:5-87,B:184-224; A:88-183; B:88-183GLUTAMINE BINDING PROTEIN OPEN LIGAND-FREE STRUCTURE
(-)
Escherichia coli. Organism_taxid: 562. Strain: kk313. (1)
1A99A:29-135,A:277-336; B:29-135,B:277-336; C:29-135,C:277-336; D:29-135,D:277-336; A:136-276,A:337-369; B:136-276,B:337-369; C:136-276,C:337-369; D:136-276,D:337-369PUTRESCINE RECEPTOR (POTF) FROM E. COLI
(-)
Escherichia coli. Organism_taxid: 562. Strain: pan92 (5)
1QUIA:1-77,A:230-239,A:254-321; A:78-229,A:240-253PHOSPHATE-BINDING PROTEIN MUTANT WITH ASP 137 REPLACED BY GLY COMPLEX WITH BROMINE AND PHOSPHATE
1QUJA:1-77,A:230-239,A:254-321; A:78-229,A:240-253PHOSPHATE-BINDING PROTEIN MUTANT WITH ASP 137 REPLACED BY GLY COMPLEX WITH CHLORINE AND PHOSPHATE
1QUKA:1-77,A:230-239,A:254-321; A:78-229,A:240-253PHOSPHATE-BINDING PROTEIN MUTANT WITH ASP 137 REPLACED BY ASN COMPLEX WITH PHOSPHATE
1QULA:1-77,A:230-239,A:254-321; A:78-229,A:240-253PHOSPHATE-BINDING PROTEIN MUTANT WITH ASP 137 REPLACED BY THR COMPLEX WITH CHLORINE AND PHOSPHATE
2ABHA:1-77,A:230-239,A:254-321; A:78-229,A:240-253PHOSPHATE-BINDING PROTEIN (RE-REFINED)
(-)
Escherichia coli. Organism_taxid: 562. Strain: pan92. (1)
1IXIA:1-77,A:230-239,A:254-321; A:78-229,A:240-253PHOSPHATE-BINDING PROTEIN MUTANT WITH ASP 56 REPLACED BY ASN COMPLEX WITH MONOBASIC PHOSPHATE ION
(-)
Escherichia coli. Organism_taxid: 562. Strain: pan92. (1)
1A40A:1-77,A:230-239,A:254-321; A:78-229,A:240-253PHOSPHATE-BINDING PROTEIN WITH ALA 197 REPLACED WITH TRP
(-)
Escherichia coli. Organism_taxid: 562. Strain: pan92. Cell_line: an1667. (1)
1IXHA:1-77,A:230-239,A:254-321; A:78-229,A:240-253PHOSPHATE-BINDING PROTEIN (PBP) COMPLEXED WITH PHOSPHATE
(-)
Escherichia coli. Organism_taxid: 562. Strain: pan92. Cell_line: an2538. (3)
1A54A:1-77,A:230-239,A:254-321; A:78-229,A:240-253PHOSPHATE-BINDING PROTEIN MUTANT A197C LABELLED WITH A COUMARIN FLUOROPHORE AND BOUND TO DIHYDROGENPHOSPHATE ION
1A55A:1-77,A:230-239,A:254-321; A:78-229,A:240-253PHOSPHATE-BINDING PROTEIN MUTANT A197C
1IXGA:1-77,A:230-239,A:254-321; A:78-229,A:240-253PHOSPHATE-BINDING PROTEIN MUTANT WITH THR 141 REPLACED BY ASP (T141D), COMPLEXED WITH PHOSPATE
(-)
Escherichia coli. Organism_taxid: 83333. Strain: k-12. (1)
1H3DA:102-191; A:5-101,A:192-225STRUCTURE OF THE E.COLI ATP-PHOSPHORIBOSYLTRANSFERASE
(-)
Geobacillus stearothermophilus. Organism_taxid: 1422. Strain: geobacillus stearothermophilus dsmz 13240. (3)
2PVUA:23-105,A:204-243CRYSTAL STRUCTURES OF THE ARGININE-, LYSINE-, HISTIDINE-BINDING PROTEIN ARTJ FROM THE THERMOPHILIC BACTERIUM GEOBACILLUS STEAROTHERMOPHILUS
2Q2AA:23-105,A:204-243; B:23-105,B:204-243; C:23-105,C:204-243; D:23-105,D:204-243CRYSTAL STRUCTURES OF THE ARGININE-, LYSINE-, HISTIDINE-BINDING PROTEIN ARTJ FROM THE THERMOPHILIC BACTERIUM GEOBACILLUS STEAROTHERMOPHILUS
2Q2CA:23-105,A:204-243; B:23-105,B:204-243; C:23-105,C:204-243; D:23-105,D:204-243CRYSTAL STRUCTURES OF THE ARGININE-, LYSINE-, HISTIDINE-BINDING PROTEIN ARTJ FROM THE THERMOPHILIC BACTERIUM GEOBACILLUS STEAROTHERMOPHILUS
(-)
Goat (Capra hircus) (1)
1JW1A:92-250; A:433-594; A:5-91,A:251-339; A:340-432,A:595-689CRYSTALLIZATION AND STRUCTURE DETERMINATION OF GOAT LACTOFERRIN AT 4.0 RESOLUTION: A NEW FORM OF PACKING IN LACTOFERRINS WITH A HIGH SOLVENT CONTENT IN CRYSTALS
(-)
Haemophilus influenzae. Organism_taxid: 727. (8)
1D9VA:1-101,A:226-277; A:102-225,A:278-309HAEMOPHILUS INFLUENZAE FERRIC-BINDING PROTEIN APO FORM
1MRPA:1-101,A:226-277; A:102-225,A:278-309FERRIC-BINDING PROTEIN FROM HAEMOPHILUS INFLUENZAE
1NNFA:1-101,A:226-277; A:102-225,A:278-308CRYSTAL STRUCTURE ANALYSIS OF HAEMOPHLIUS INFLUENZAE FERRIC-ION BINDING PROTEIN H9Q MUTANT FORM
1QVSA:1-101,A:226-277; A:102-225,A:278-308CRYSTAL STRUCTURE OF HAEMOPHILUS INFLUENZAE H9A MUTANT HOLO FERRIC ION-BINDING PROTEIN A
1QW0A:1-101,A:226-277; A:102-225,A:278-308CRYSTAL STRUCTURE OF HAEMOPHILUS INFLUENZAE N175L MUTANT HOLO FERRIC ION-BINDING PROTEIN A
2O68A:1-101,A:226-277; A:102-225,A:278-307CRYSTAL STRUCTURE OF HAEMOPHILUS INFLUENZAE Q58L MUTANT FBPA
2O69A:1-101,A:226-277; A:102-225,A:278-308CRYSTAL STRUCTURE OF HAEMOPHILUS INFLUENZAE N193L MUTANT FBPA
2O6AA:1-101,A:226-277; A:102-225,A:278-307CRYSTAL STRUCTURE OF THE HAEMOPHILUS INFLUENZAE E57A MUTANT FBPA
(-)
Horse (Equus caballus) (7)
1B1XA:92-250; A:1-91,A:251-339; A:340-432,A:593-689; A:433-592STRUCTURE OF DIFERRIC MARE LACTOFERRIN AT 2.62A RESOLUTION
1B7UA:92-250; A:433-592; A:1-91,A:251-339; A:340-432,A:593-689STRUCTURE OF MARE APOLACTOFERRIN: THE N AND C LOBES ARE IN THE CLOSED FORM
1B7ZA:92-250; A:1-91,A:251-339; A:340-432,A:593-689; A:433-592STRUCTURE OF OXALATE SUBSTITUTED DIFERRIC MARE LACTOFERRIN FROM COLOSTRUM
1F9BA:92-250; A:1-91,A:251-339; A:340-432,A:593-689; A:433-592MELANIN PROTEIN INTERACTION: X-RAY STRUCTURE OF THE COMPLEX OF MARE LACTOFERRIN WITH MELANIN MONOMERS
1I6BA:92-250; A:433-592; A:1-91,A:251-339; A:340-432,A:593-689STRUCTURE OF EQUINE APOLACTOFERRIN AT 3.2 A RESOLUTION USING CRYSTALS GROWN AT 303K
1QJMA:92-250; A:433-592; A:1-91,A:251-339; A:340-432,A:593-689CRYSTAL STRUCTURE OF A COMPLEX OF LACTOFERRIN WITH A LANTHANIDE ION (SM3+) AT 3.4 ANGSTROM RESOLUTION
3CR9A:92-250; A:433-592; A:1-91,A:251-339; A:340-432,A:593-689CRYSTAL STRUCTURE OF THE COMPLEX OF LACTOFERRIN WITH 6-(HYDROXYMETHYL)OXANE-2,3,4,5-TETROL AT 3.49 A RESOLUTION
(-)
Human (Homo sapiens) (55)
1A8EA:3-84,A:250-311; A:85-249HUMAN SERUM TRANSFERRIN, RECOMBINANT N-TERMINAL LOBE
1A8FA:3-84,A:250-311; A:85-249HUMAN SERUM TRANSFERRIN, RECOMBINANT N-TERMINAL LOBE
1B0LA:92-250; A:435-594; A:1-91,A:251-339; A:340-434,A:595-691RECOMBINANT HUMAN DIFERRIC LACTOFERRIN
1B3EA:4-84,A:250-311; A:85-249HUMAN SERUM TRANSFERRIN, N-TERMINAL LOBE, EXPRESSED IN PICHIA PASTORIS
1BKAA:92-250; A:434-594; A:4-91,A:251-339; A:340-433,A:595-691OXALATE-SUBSTITUTED DIFERRIC LACTOFERRIN
1BP5A:4-84,A:250-311; B:4-84,B:250-311; C:4-84,C:250-311; D:4-84,D:250-311; A:85-249; B:85-249; C:85-249; D:85-249HUMAN SERUM TRANSFERRIN, RECOMBINANT N-TERMINAL LOBE, APO FORM
1BTJA:4-84,A:250-311; B:4-84,B:250-311; A:85-249; B:85-249HUMAN SERUM TRANSFERRIN, RECOMBINANT N-TERMINAL LOBE, APO FORM, CRYSTAL FORM 2
1CB6A:1092-1250; A:1435-1594; A:1001-1091,A:1251-1339; A:1340-1434,A:1595-1691STRUCTURE OF HUMAN APOLACTOFERRIN AT 2.0 A RESOLUTION.
1D3KA:3-84,A:250-311; A:85-249HUMAN SERUM TRANSFERRIN
1D4NA:3-84,A:250-311; A:85-249HUMAN SERUM TRANSFERRIN
1DSNA:82-253; A:2-81,A:254-316D60S N-TERMINAL LOBE HUMAN LACTOFERRIN
1DTGA:4-84,A:250-311; A:85-249HUMAN TRANSFERRIN N-LOBE MUTANT H249E
1EH3A:82-253; A:4-81,A:254-316R210K N-TERMINAL LOBE HUMAN LACTOFERRIN
1FCKA:92-252; A:1-91,A:253-338; A:434-596; A:340-433,A:597-691STRUCTURE OF DICERIC HUMAN LACTOFERRIN
1FQEA:3-84,A:250-311; A:85-249CRYSTAL STRUCTURES OF MUTANT (K206A) THAT ABOLISH THE DILYSINE INTERACTION IN THE N-LOBE OF HUMAN TRANSFERRIN
1FQFA:3-84,A:250-311; A:85-249CRYSTAL STRUCTURES OF MUTANT (K296A) THAT ABOLISH THE DILYSINE INTERACTION IN THE N-LOBE OF HUMAN TRANSFERRIN
1H43A:82-253; A:5-81,A:254-313R210E N-TERMINAL LOBE HUMAN LACTOFERRIN
1H44A:82-253,A:317-325; A:4-81,A:254-316R210L N-TERMINAL LOBE HUMAN LACTOFERRIN
1H45A:82-253,A:317-322; A:4-81,A:254-316R210G N-TERMINAL LOBE HUMAN LACTOFERRIN
1HSEA:86-253; A:4-85,A:254-320H253M N TERMINAL LOBE OF HUMAN LACTOFERRIN
1JQFA:3-84,A:250-311; A:85-249HUMAN TRANSFERRIN N-LOBE MUTANT H249Q
1L5TA:82-253,A:317-327; B:82-253,B:317-327; A:4-81,A:254-316; B:4-81,B:254-316CRYSTAL STRUCTURE OF A DOMAIN-OPENED MUTANT (R121D) OF THE HUMAN LACTOFERRIN N-LOBE REFINED FROM A MEROHEDRALLY-TWINNED CRYSTAL FORM.
1LCFA:92-250; A:435-594; A:1-91,A:251-339; A:340-434,A:595-691CRYSTAL STRUCTURE OF COPPER-AND OXALATE-SUBSTITUTED HUMAN LACTOFERRIN AT 2.0 ANGSTROMS RESOLUTION
1LCTA:82-253,A:317-327; A:4-81,A:254-316STRUCTURE OF THE RECOMBINANT N-TERMINAL LOBE OF HUMAN LACTOFERRIN AT 2.0 ANGSTROMS RESOLUTION
1LFGA:92-250; A:435-594; A:1-91,A:251-339; A:340-434,A:595-691STRUCTURE OF DIFERRIC HUMAN LACTOFERRIN
1LFHA:92-250; A:435-594; A:1-91,A:251-339; A:340-434,A:595-691MOLECULAR REPLACEMENT SOLUTION OF THE STRUCTURE OF APOLACTOFERRIN, A PROTEIN DISPLAYING LARGE-SCALE CONFORMATIONAL CHANGE
1LFIA:92-250; A:435-594; A:1-91,A:251-339; A:340-434,A:595-691METAL SUBSTITUTION IN TRANSFERRINS: THE CRYSTAL STRUCTURE OF HUMAN COPPER-LACTOFERRIN AT 2.1 ANGSTROMS RESOLUTION
1N76A:92-250; A:435-594; A:2-91,A:251-339; A:340-434,A:595-691CRYSTAL STRUCTURE OF HUMAN SEMINAL LACTOFERRIN AT 3.4 A RESOLUTION
1N7WA:3-84,A:250-331; A:85-249CRYSTAL STRUCTURE OF HUMAN SERUM TRANSFERRIN, N-LOBE L66W MUTANT
1N7XA:3-84,A:250-331; A:85-249HUMAN SERUM TRANSFERRIN, N-LOBE Y45E MUTANT
1N84A:3-84,A:250-331; A:85-249HUMAN SERUM TRANSFERRIN, N-LOBE
1OQGA:3-84,A:250-331; A:85-249CRYSTAL STRUCTURE OF THE D63E MUTANT OF THE N-LOBE HUMAN TRANSFERRIN
1OQHA:3-84,A:250-331; A:85-249CRYSTAL STRUCTURE OF THE R124A MUTANT OF THE N-LOBE HUMAN TRANSFERRIN
1RYOA:4-84,A:250-311; A:85-249HUMAN SERUM TRANSFERRIN, N-LOBE BOUND WITH OXALATE
1SQYA:92-250; A:435-594; A:1-91,A:251-339; A:340-434,A:595-691STRUCTURE OF HUMAN DIFERRIC LACTOFERRIN AT 2.5A RESOLUTION USING CRYSTALS GROWN AT PH 6.5
1VFDA:86-253; A:5-85,A:254-320HUMAN LACTOFERRIN, N-TERMINAL LOBE MUTANT WITH ARG 121 REPLACED BY GLU (R121E)
1VFEA:86-253; A:5-85,A:254-320HUMAN LACTOFERRIN, N-TERMINAL LOBE MUTANT WITH ARG 121 REPLACED BY SER (R121S)
2BJJX:93-253; X:1-92,X:254-339; X:435-597; X:341-434,X:598-692STRUCTURE OF RECOMBINANT HUMAN LACTOFERRIN PRODUCED IN THE MILK OF TRANSGENIC COWS
2HAUA:4-92,A:249-336; A:426-582; B:426-582; A:337-425,A:583-679; B:337-425,B:583-679; B:4-92,B:249-336; A:93-248; B:93-248APO-HUMAN SERUM TRANSFERRIN (NON-GLYCOSYLATED)
2HAVA:4-92,A:249-336; A:426-582; B:426-582; A:337-425,A:583-679; B:337-425,B:583-679; B:4-92,B:249-336; A:93-248; B:93-248APO-HUMAN SERUM TRANSFERRIN (GLYCOSYLATED)
2O7UA:3-84,A:250-331; B:3-84,B:250-331; C:3-84,C:250-331; D:3-84,D:250-331; E:3-84,E:250-331; F:3-84,F:250-331; G:3-84,G:250-331; H:3-84,H:250-331; I:3-84,I:250-331; A:85-249; B:85-249; C:85-249; D:85-249; E:85-249; F:85-249; G:85-249; H:85-249; I:85-249CRYSTAL STRUCTURE OF K206E/K296E MUTANT OF THE N-TERMINAL HALF MOLECULE OF HUMAN TRANSFERRIN
2O84X:3-84,X:250-331; X:85-249CRYSTAL STRUCTURE OF K206E MUTANT OF N-LOBE HUMAN TRANSFERRIN
2PMSA:83-254; B:83-254; A:3-82,A:255-317; B:3-82,B:255-317CRYSTAL STRUCTURE OF THE COMPLEX OF HUMAN LACTOFERRIN N-LOBE AND LACTOFERRIN-BINDING DOMAIN OF PNEUMOCOCCAL SURFACE PROTEIN A
2XHDB:4-109,B:219-262; A:4-109,A:219-258CRYSTAL STRUCTURE OF N-((2S)-5-(6-FLUORO-3-PYRIDINYL)-2,3-DIHYDRO-1H-INDEN-2-YL)-2-PROPANESULFONAMIDE IN COMPLEX WITH THE LIGAND BINDING DOMAIN OF THE HUMAN GLUA2 RECEPTOR
2ZNSA:415-521,A:747-789CRYSTAL STRUCTURE OF THE LIGAND-BINDING CORE OF THE HUMAN IONOTROPIC GLUTAMATE RECEPTOR, GLUR5, IN COMPLEX WITH GLUTAMATE
2ZNTA:415-521,A:747-789CRYSTAL STRUCTURE OF THE LIGAND-BINDING CORE OF THE HUMAN IONOTROPIC GLUTAMATE RECEPTOR, GLUR5, IN COMPLEX WITH A NOVEL SELECTIVE AGONIST, DYSIHERBAINE
2ZNUA:415-521,A:747-789CRYSTAL STRUCTURE OF THE LIGAND-BINDING CORE OF THE HUMAN IONOTROPIC GLUTAMATE RECEPTOR, GLUR5, IN COMPLEX WITH A NOVEL SELECTIVE AGONIST, NEODYSIHERBAINE A
3FGSA:3-84,A:250-331; A:85-249CRYSTAL STRUCTURE OF G65R/K206E DOUBLE MUTANT OF THE N-LOBE HUMAN TRANSFERRIN
3FUZA:415-521,A:747-790; B:415-521,B:747-790CRYSTAL STRUCTURE OF THE HUMAN GLUTAMATE RECEPTOR, GLUR5, LIGAND-BINDING CORE IN COMPLEX WITH L-GLUTAMATE IN SPACE GROUP P1
3FV1A:415-521,A:747-790; B:415-521,B:747-790CRYSTAL STRUCTURE OF THE HUMAN GLUTAMATE RECEPTOR, GLUR5, LIGAND-BINDING CORE IN COMPLEX WITH DYSIHERBAINE IN SPACE GROUP P1
3FV2A:415-521,A:747-790; B:415-521,B:747-790CRYSTAL STRUCTURE OF THE HUMAN GLUTAMATE RECEPTOR, GLUR5, LIGAND-BINDING CORE IN COMPLEX WITH NEODYSIHERBAINE A IN SPACE GROUP P1
3FVGA:415-521,A:747-790; B:415-521,B:747-790CRYSTAL STRUCTURE OF THE HUMAN GLUTAMATE RECEPTOR, GLUR5, LIGAND-BINDING CORE IN COMPLEX WITH MSVIII-19 IN SPACE GROUP P1
3FVKA:415-521,A:747-790; B:415-521,B:747-790CRYSTAL STRUCTURE OF THE HUMAN GLUTAMATE RECEPTOR, GLUR5, LIGAND-BINDING CORE IN COMPLEX WITH 8-DEOXY-NEODYSIHERBAINE A IN SPACE GROUP P1
3FVNA:415-521,A:747-790; B:415-521,B:747-790CRYSTAL STRUCTURE OF THE HUMAN GLUTAMATE RECEPTOR, GLUR5, LIGAND-BINDING CORE IN COMPLEX WITH 9-DEOXY-NEODYSIHERBAINE A IN SPACE GROUP P1
3FVOA:415-521,A:747-790; B:415-521,B:747-790CRYSTAL STRUCTURE OF THE HUMAN GLUTAMATE RECEPTOR, GLUR5, LIGAND-BINDING CORE IN COMPLEX WITH 8-EPI-NEODYSIHERBAINE A IN SPACE GROUP P1
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Human t-lymphotropic virus 1. Organism_taxid: 11908. Strain: 3-19-3. (1)
1MG1A:6-112,A:261-332; A:113-260,A:333-371HTLV-1 GP21 ECTODOMAIN/MALTOSE-BINDING PROTEIN CHIMERA
(-)
Klebsiella aerogenes. Organism_taxid: 28451. (1)
1AL3A:88-166,A:268-324; A:167-267COFACTOR BINDING FRAGMENT OF CYSB FROM KLEBSIELLA AEROGENES
(-)
Lactococcus lactis. Organism_taxid: 1358. (2)
1Z7ME:92-175; G:92-175; H:92-175; F:92-175ATP PHOSPHORIBOSYL TRANSFERASE (HISZG ATP-PRTASE) FROM LACTOCOCCUS LACTIS
1Z7NE:92-175; F:92-175; G:92-175; H:92-175ATP PHOSPHORIBOSYL TRANSFERASE (HISZG ATP-PRTASE) FROM LACTOCOCCUS LACTIS WITH BOUND PRPP SUBSTRATE
(-)
Mannheimia haemolytica. Organism_taxid: 75985. (3)
1Q35A:1-98,A:227-275; A:99-226,A:276-318CRYSTAL STRUCTURE OF PASTEURELLA HAEMOLYTICA APO FERRIC ION-BINDING PROTEIN A
1SI0A:1-98,A:227-275; A:99-226,A:276-316CRYSTAL STRUCTURE OF MANNHEIMIA HAEMOLYTICA FERRIC IRON-BINDING PROTEIN A IN A CLOSED CONFORMATION
1SI1A:1-98,A:227-275; A:99-226,A:276-316CRYSTAL STRUCTURE OF MANNHEIMIA HAEMOLYTICA FERRIC IRON-BINDING PROTEIN A IN AN OPEN CONFORMATION
(-)
Methanobacterium thermoautotrophicum. Organism_taxid: 187420. Strain:deltah. (1)
2VD3A:90-180; B:90-180THE STRUCTURE OF HISTIDINE INHIBITED HISG FROM METHANOBACTERIUM THERMOAUTOTROPHICUM
(-)
Mycobacterium tuberculosis h37rv. Organism_taxid: 83332. Strain: h37rv. (1)
1PC3A:27-105,A:290-351; B:27-105,B:290-351; A:106-289; B:106-289CRYSTAL STRUCTURE OF THE EXTRACELLULAR PHOSPHATE ABC TRANSPORT RECEPTOR (PSTS-1) AND IMMUNODOMINANT ANTIGEN OF M. TUBERCULOSIS.
(-)
Mycobacterium tuberculosis h37rv. Organism_taxid: 83332. Strain: h37rv. (2)
1NH7A:1-84,A:179-211; A:91-176ATP PHOSPHORIBOSYLTRANSFERASE (ATP-PRTASE) FROM MYCOBACTERIUM TUBERCULOSIS
1NH8A:1-84,A:179-211; A:91-176ATP PHOSPHORIBOSYLTRANSFERASE (ATP-PRTASE) FROM MYCOBACTERIUM TUBERCULOSIS IN COMPLEX WITH AMP AND HISTIDINE
(-)
N16961 (Vibrio cholerae o1 biovar eltor str) (1)
1TWYD:103-237; A:104-237; F:28-103,F:238-276; G:28-103,G:238-276; H:28-103,H:238-276; B:29-103,B:238-276; D:28-102,D:238-276; E:29-103,E:238-276; C:104-237; E:104-237; G:104-237; H:104-237; F:104-237; B:104-237; A:28-103,A:238-276; C:28-103,C:238-276CRYSTAL STRUCTURE OF AN ABC-TYPE PHOSPHATE TRANSPORT RECEPTOR FROM VIBRIO CHOLERAE
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Neisseria gonorrhoeae. Organism_taxid: 485 (1)
1R1NA:1-101,A:226-277; B:1-101,B:226-277; B:102-225,B:278-309; C:102-225,C:278-309; D:102-225,D:278-309; E:102-225,E:278-309; F:102-225,F:278-309; G:102-225,G:278-309; H:102-225,H:278-309; I:102-225,I:278-309; C:1-101,C:226-277; D:1-101,D:226-277; E:1-101,E:226-277; F:1-101,F:226-277; G:1-101,G:226-277; H:1-101,H:226-277; I:1-101,I:226-277; A:102-225,A:278-309TRI-NUCLEAR OXO-IRON CLUSTERS IN THE FERRIC BINDING PROTEIN FROM N. GONORRHOEAE
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Neisseria gonorrhoeae. Organism_taxid: 485. (1)
1XC1A:1-101,A:226-277; B:1-101,B:226-277; B:102-225,B:278-309; C:102-225,C:278-309; D:102-225,D:278-309; E:102-225,E:278-309; F:102-225,F:278-309; G:102-225,G:278-309; H:102-225,H:278-309; I:102-225,I:278-309; C:1-101,C:226-277; D:1-101,D:226-277; E:1-101,E:226-277; F:1-101,F:226-277; G:1-101,G:226-277; H:1-101,H:226-277; I:1-101,I:226-277; A:102-225,A:278-309OXO ZIRCONIUM(IV) CLUSTER IN THE FERRIC BINDING PROTEIN (FBP)
(-)
Neisseria gonorrhoeae. Organism_taxid: 485. Strain: fbpa. (1)
1D9YA:1-101,A:226-277; A:102-225,A:278-309NEISSERIA GONORRHOEAE FERRIC BINDING PROTEIN
(-)
Neisseria gonorrhoeae. Organism_taxid: 485. Strain: fbpa. (1)
1O7TA:1-101,A:226-277; B:1-101,B:226-277; B:102-225,B:278-309; C:102-225,C:278-309; D:102-225,D:278-309; E:102-225,E:278-309; F:102-225,F:278-309; G:102-225,G:278-309; H:102-225,H:278-309; I:102-225,I:278-309; C:1-101,C:226-277; D:1-101,D:226-277; E:1-101,E:226-277; F:1-101,F:226-277; G:1-101,G:226-277; H:1-101,H:226-277; I:1-101,I:226-277; A:102-225,A:278-309METAL NANOCLUSTERS BOUND TO THE FERRIC BINDING PROTEIN FROM NEISSERIA GONORRHOEAE.
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Norway rat (Rattus norvegicus) (84)
1FTJA:4-109,A:219-258; A:110-218; B:110-218; C:110-218; B:4-109,B:219-258; C:4-109,C:219-258CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH GLUTAMATE AT 1.9 RESOLUTION
1FTKA:16-121,A:235-274; A:122-234CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2I) IN COMPLEX WITH KAINATE AT 1.6 A RESOLUTION
1FTLA:5-109,A:219-258; A:110-218; B:110-218; B:5-109,B:219-258CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH THE ANTAGONIST DNQX AT 1.8 A RESOLUTION
1FTMA:4-109,A:219-258; A:110-218; B:110-218; C:110-218; B:4-109,B:219-258; C:4-109,C:219-258CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH AMPA AT 1.7 RESOLUTION
1FTOA:5-109,A:219-258; B:5-109,B:219-258; A:110-218; B:110-218CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN THE APO STATE AT 2.0 A RESOLUTION
1FW0A:4-109,A:219-258; A:110-218CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH KAINATE AT 2.0 A RESOLUTION
1GR2A:16-121,A:235-277; A:122-234STRUCTURE OF A GLUTAMATE RECEPTOR LIGAND BINDING CORE (GLUR2) COMPLEXED WITH KAINATE
1LB8A:4-109,A:219-258; B:4-109,B:219-258; A:110-218; B:110-218CRYSTAL STRUCTURE OF THE NON-DESENSITIZING GLUR2 LIGAND BINDING CORE MUTANT (S1S2J-L483Y) IN COMPLEX WITH AMPA AT 2.3 RESOLUTION
1LB9A:5-109,A:219-258; B:5-109,B:219-258; A:110-218; B:110-218CRYSTAL STRUCTURE OF THE NON-DESENSITIZING GLUR2 LIGAND BINDING CORE MUTANT (S1S2J-L483Y) IN COMPLEX WITH ANTAGONIST DNQX AT 2.3 A RESOLUTION
1LBBA:4-109,A:219-258; A:110-218CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING DOMAIN MUTANT (S1S2J-N754D) IN COMPLEX WITH KAINATE AT 2.1 A RESOLUTION
1LBCA:4-109,A:219-258; B:4-109,B:219-258; C:4-109,C:219-258; A:110-218; B:110-218; C:110-218CRYSTAL STRUCTURE OF GLUR2 LIGAND BINDING CORE (S1S2J-N775S) IN COMPLEX WITH CYCLOTHIAZIDE (CTZ) AS WELL AS GLUTAMATE AT 1.8 A RESOLUTION
1M5BA:4-109,A:219-258; A:110-218; B:110-218; C:110-218; B:4-109,B:219-258; C:4-109,C:219-258X-RAY STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH 2-ME-TET-AMPA AT 1.85 A RESOLUTION.
1M5CA:4-109,A:219-258; A:110-218X-RAY STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH BR-HIBO AT 1.65 A RESOLUTION
1M5DA:4-109,A:219-258; A:110-218X-RAY STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J-Y702F) IN COMPLEX WITH BR-HIBO AT 1.73 A RESOLUTION
1M5EA:4-109,A:219-258; A:110-218; B:110-218; C:110-218; B:4-109,B:219-258; C:4-109,C:219-258X-RAY STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH ACPA AT 1.46 A RESOLUTION
1M5FA:4-109,A:219-258; B:4-109,B:219-258; C:4-109,C:219-258; A:110-218; B:110-218; C:110-218X-RAY STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J-Y702F) IN COMPLEX WITH ACPA AT 1.95 A RESOLUTION
1MM6A:4-109,A:219-258; B:4-109,B:219-258; A:110-218; B:110-218CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH QUISQUALATE IN A NON ZINC CRYSTAL FORM AT 2.15 ANGSTROMS RESOLUTION
1MM7A:4-109,A:219-258; A:110-218; B:110-218; C:110-218; B:4-109,B:219-258; C:4-109,C:219-258CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH QUISQUALATE IN A ZINC CRYSTAL FORM AT 1.65 ANGSTROMS RESOLUTION
1MQDA:1-106,A:216-255; A:107-215; B:107-215; C:107-215; D:107-215; B:1-106,B:216-255; C:1-106,C:216-255; D:1-106,D:216-255X-RAY STRUCTURE OF THE GLUR2 LIGAND-BINDING CORE (S1S2J) IN COMPLEX WITH (S)-DES-ME-AMPA AT 1.46 A RESOLUTION. CRYSTALLIZATION IN THE PRESENCE OF LITHIUM SULFATE.
1MQGA:4-109,A:219-258; B:4-109,B:219-258; A:110-218; B:110-218CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH IODO-WILLARDIINE AT 2.15 ANGSTROMS RESOLUTION
1MQHA:4-109,A:219-258; A:110-218CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH BROMO-WILLARDIINE AT 1.8 ANGSTROMS RESOLUTION
1MQIA:4-109,A:219-258; A:110-218CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH FLUORO-WILLARDIINE AT 1.35 ANGSTROMS RESOLUTION
1MQJA:4-109,A:219-258; A:110-218CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH WILLARDIINE AT 1.65 ANGSTROMS RESOLUTION
1MS7A:1-106,A:216-255; B:1-106,B:216-255; C:1-106,C:216-255; A:107-215; B:107-215; C:107-215X-RAY STRUCTURE OF THE GLUR2 LIGAND-BINDING CORE (S1S2J) IN COMPLEX WITH (S)-DES-ME-AMPA AT 1.97 A RESOLUTION, CRYSTALLIZATION IN THE PRESENCE OF ZINC ACETATE
1MXUA:4-109,A:219-258; A:110-218; B:110-218; C:110-218; B:4-109,B:219-258; C:4-109,C:219-258CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH BROMO-WILLARDIINE (CONTROL FOR THE CRYSTAL TITRATION EXPERIMENTS)
1MXVA:4-109,A:219-258; B:4-109,B:219-258; C:4-109,C:219-258; A:110-218; B:110-218; C:110-218CRYSTAL TITRATION EXPERIMENTS (AMPA CO-CRYSTALS SOAKED IN 10 MM BRW)
1MXWA:4-109,A:219-258; A:110-218; B:110-218; C:110-218; B:4-109,B:219-258; C:4-109,C:219-258CRYSTAL TITRATION EXPERIMENTS (AMPA CO-CRYSTALS SOAKED IN 1 MM BRW)
1MXXA:4-109,A:219-258; B:4-109,B:219-258; C:4-109,C:219-258; A:110-218; B:110-218; C:110-218CRYSTAL TITRATION EXPERIMENTS (AMPA CO-CRYSTALS SOAKED IN 100 UM BRW)
1MXYA:4-109,A:219-258; B:4-109,B:219-258; C:4-109,C:219-258; A:110-218; B:110-218; C:110-218CRYSTAL TITRATION EXPERIMENTS (AMPA CO-CRYSTALS SOAKED IN 10 UM BRW)
1MXZA:4-109,A:219-258; A:110-218; B:110-218; C:110-218; B:4-109,B:219-258; C:4-109,C:219-258CRYSTAL TITRATION EXPERIMENTS (AMPA CO-CRYSTALS SOAKED IN 1 UM BRW)
1MY0A:4-109,A:219-258; A:110-218; B:110-218; C:110-218; B:4-109,B:219-258; C:4-109,C:219-258CRYSTAL TITRATION EXPERIMENTS (AMPA CO-CRYSTALS SOAKED IN 100 NM BRW)
1MY1A:4-109,A:219-258; C:4-109,C:219-258; A:110-218; B:110-218; C:110-218; B:4-109,B:219-258CRYSTAL TITRATION EXPERIMENTS (AMPA CO-CRYSTALS SOAKED IN 10 NM BRW)
1MY2A:4-109,A:219-258; A:110-218; B:110-218; C:110-218; B:4-109,B:219-258; C:4-109,C:219-258CRYSTAL TITRATION EXPERIMENT (AMPA COMPLEX CONTROL)
1MY3A:4-109,A:219-258; A:110-218; B:110-218; C:110-218; B:4-109,B:219-258; C:4-109,C:219-258CRYSTAL STRUCTURE OF GLUTAMATE RECEPTOR LIGAND-BINDING CORE IN COMPLEX WITH BROMO-WILLARDIINE IN THE ZN CRYSTAL FORM
1MY4A:4-109,A:219-258; B:4-109,B:219-258; C:4-109,C:219-258; A:110-218; B:110-218; C:110-218CRYSTAL STRUCTURE OF GLUTAMATE RECEPTOR LIGAND-BINDING CORE IN COMPLEX WITH IODO-WILLARDIINE IN THE ZN CRYSTAL FORM
1N0TA:5-109,A:219-258; B:5-109,B:219-258; C:5-109,C:219-258; D:5-109,D:219-258; A:110-218; B:110-218; C:110-218; D:110-218X-RAY STRUCTURE OF THE GLUR2 LIGAND-BINDING CORE (S1S2J) IN COMPLEX WITH THE ANTAGONIST (S)-ATPO AT 2.1 A RESOLUTION.
1NNKA:1-106,A:216-255; A:107-215X-RAY STRUCTURE OF THE GLUR2 LIGAND-BINDING CORE (S1S2J) IN COMPLEX WITH (S)-ATPA AT 1.85 A RESOLUTION. CRYSTALLIZATION WITH ZINC IONS.
1NNPA:1-106,A:215-258; B:1-106,B:215-258; A:107-214; B:107-214X-RAY STRUCTURE OF THE GLUR2 LIGAND-BINDING CORE (S1S2J) IN COMPLEX WITH (S)-ATPA AT 1.9 A RESOLUTION. CRYSTALLIZATION WITHOUT ZINC IONS.
1P1NA:4-109,A:219-258; A:110-218GLUR2 LIGAND BINDING CORE (S1S2J) MUTANT L650T IN COMPLEX WITH KAINATE
1P1OA:4-109,A:219-258; A:110-218CRYSTAL STRUCTURE OF THE GLUR2 LIGAND-BINDING CORE (S1S2J) MUTANT L650T IN COMPLEX WITH QUISQUALATE
1P1QA:4-109,A:219-258; B:4-109,B:219-258; C:4-109,C:219-258; A:110-218; B:110-218; C:110-218CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) L650T MUTANT IN COMPLEX WITH AMPA
1P1UA:4-109,A:219-258; B:4-109,B:219-258; A:110-218; B:110-218CRYSTAL STRUCTURE OF THE GLUR2 LIGAND-BINDING CORE (S1S2J) L650T MUTANT IN COMPLEX WITH AMPA (AMMONIUM SULFATE CRYSTAL FORM)
1P1WA:4-109,A:219-258; B:4-109,B:219-258; A:110-218; B:110-218CRYSTAL STRUCTURE OF THE GLUR2 LIGAND-BINDING CORE (S1S2J) WITH THE L483Y AND L650T MUTATIONS AND IN COMPLEX WITH AMPA
1PB7A:4-143,A:252-292; A:144-251CRYSTAL STRUCTURE OF THE NR1 LIGAND BINDING CORE IN COMPLEX WITH GLYCINE AT 1.35 ANGSTROMS RESOLUTION
1PB8A:4-143,A:252-292; A:144-251CRYSTAL STRUCTURE OF THE NR1 LIGAND BINDING CORE IN COMPLEX WITH D-SERINE AT 1.45 ANGSTROMS RESOLUTION
1PB9A:4-143,A:252-292; A:144-251CRYSTAL STRUCTURE OF THE NR1 LIGAND BINDING CORE IN COMPLEX WITH D-CYCLOSERINE AT 1.60 ANGSTROMS RESOLUTION
1PBQA:5-144,A:248-290; B:5-144,B:248-290; A:145-247; B:145-247CRYSTAL STRUCTURE OF THE NR1 LIGAND BINDING CORE IN COMPLEX WITH 5,7-DICHLOROKYNURENIC ACID (DCKA) AT 1.90 ANGSTROMS RESOLUTION
1S50A:2-109,A:215-259; A:110-214X-RAY STRUCTURE OF THE GLUR6 LIGAND BINDING CORE (S1S2A) IN COMPLEX WITH GLUTAMATE AT 1.65 A RESOLUTION
1S7YA:3-109,A:215-253; A:110-214; B:110-214; B:3-109,B:215-253CRYSTAL STRUCTURE OF THE GLUR6 LIGAND BINDING CORE IN COMPLEX WITH GLUTAMATE AT 1.75 A RESOLUTION ORTHORHOMBIC FORM
1S9TA:3-109,A:215-253; A:110-214; B:110-214; B:3-109,B:215-253CRYSTAL STRUCTURE OF THE GLUR6 LIGAND BINDING CORE IN COMPLEX WITH QUISQUALATE AT 1.8A RESOLUTION
1SD3A:3-109,A:215-253; A:110-214; B:110-214; B:3-109,B:215-253CRYSTAL STRUCTURE OF THE GLUR6 LIGAND BINDING CORE IN COMPLEX WITH 2S,4R-4-METHYLGLUTAMATE AT 1.8 ANGSTROM RESOLUTION
1SYHA:0-106,A:216-258; A:107-215X-RAY STRUCTURE OF THE GLUR2 LIGAND-BINDING CORE (S1S2J) IN COMPLEX WITH (S)-CPW399 AT 1.85 A RESOLUTION.
1SYIA:0-106,A:216-255; B:0-106,B:216-255; A:107-215; B:107-215X-RAY STRUCTURE OF THE Y702F MUTANT OF THE GLUR2 LIGAND-BINDING CORE (S1S2J) IN COMPLEX WITH (S)-CPW399 AT 2.1 A RESOLUTION.
1TT1A:3-109,A:215-253; B:3-109,B:215-253; A:110-214; B:110-214CRYSTAL STRUCTURE OF THE GLUR6 LIGAND BINDING CORE IN COMPLEX WITH KAINATE 1.93 A RESOLUTION
1TXFA:5-108,A:214-252; A:109-213CRYSTAL STRUCTURE OF THE GLUR5 LIGAND BINDING CORE IN COMPLEX WITH GLUTAMATE AT 2.1 ANGSTROM RESOLUTION
1VSOA:5-108,A:214-255CRYSTAL STRUCTURE OF THE LIGAND-BINDING CORE OF IGLUR5 IN COMPLEX WITH THE ANTAGONIST (S)-ATPO AT 1.85 A RESOLUTION
1WVJA:1-109,A:219-262; A:110-218EXPLORING THE GLUR2 LIGAND-BINDING CORE IN COMPLEX WITH THE BICYCLIC AMPA ANALOGUE (S)-4-AHCP
1XHYA:1-106,A:216-255; A:107-215X-RAY STRUCTURE OF THE Y702F MUTANT OF THE GLUR2 LIGAND-BINDING CORE (S1S2J) IN COMPLEX WITH KAINATE AT 1.85 A RESOLUTION
1Y1MB:5-143,B:252-285; A:5-143,A:252-285; A:144-251; B:144-251CRYSTAL STRUCTURE OF THE NR1 LIGAND BINDING CORE IN COMPLEX WITH CYCLOLEUCINE
1Y1ZA:5-143,A:252-291; A:144-251CRYSTAL STRUCTURE OF THE NR1 LIGAND BINDING CORE IN COMPLEX WITH ACBC
1Y20A:5-143,A:252-291; A:144-251CRYSTAL STRUCTURE OF THE NR1 LIGAND-BINDING CORE IN COMPLEX WITH ACPC
1YAEF:431-536,F:763-800; B:537-761; E:423-536,E:762-801; E:537-761; A:537-761; C:537-761; D:537-761; C:423-536,C:762-802; B:423-536,B:762-804; D:423-536,D:762-804; A:421-536,A:762-804STRUCTURE OF THE KAINATE RECEPTOR SUBUNIT GLUR6 AGONIST BINDING DOMAIN COMPLEXED WITH DOMOIC ACID
1YCJA:429-536,A:762-799; B:430-536,B:762-805CRYSTAL STRUCTURE OF THE KAINATE RECEPTOR GLUR5 LIGAND-BINDING CORE IN COMPLEX WITH (S)-GLUTAMATE
2A5SA:7-134,A:242-280CRYSTAL STRUCTURE OF THE NR2A LIGAND BINDING CORE IN COMPLEX WITH GLUTAMATE
2A5TA:4-143,A:252-287; B:7-134,B:242-280; A:144-251CRYSTAL STRUCTURE OF THE NR1/NR2A LIGAND-BINDING CORES COMPLEX
2AIXA:1-106,A:216-258; A:107-215X-RAY STRUCTURE OF THE GLUR2 LIGAND-BINDING CORE (S1S2J) IN COMPLEX WITH (S)-THIO-ATPA AT 2.2 A RESOLUTION.
2AL4A:4-109,A:219-261; A:110-218; B:110-218; C:110-218; D:110-218; E:110-218; F:110-218; C:4-109,C:219-261; D:4-109,D:219-261; F:4-109,F:219-261; B:3-109,B:219-261; E:3-109,E:219-261CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH QUISQUALATE AND CX614.
2AL5A:3-109,A:219-262; A:110-218; B:110-218; B:3-109,B:219-262CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH FLUORO-WILLARDIINE AND ANIRACETAM
2ANJA:1-109,A:219-262; A:110-218CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J-Y450W) MUTANT IN COMPLEX WITH THE PARTIAL AGONIST KAINIC ACID AT 2.1 A RESOLUTION
2F34A:4-108,A:214-254; B:4-108,B:214-254CRYSTAL STRUCTURE OF THE GLUR5 LIGAND BINDING CORE DIMER WITH UBP310 AT 1.74 ANGSTROMS RESOLUTION
2F35A:4-108,A:214-254; B:4-108,B:214-254CRYSTAL STRUCTURE OF THE GLUR5 LIGAND BINDING CORE WITH UBP302 AT 1.87 ANGSTROMS RESOLUTION
2F36A:5-108,A:214-258; C:5-108,C:214-258; B:5-108,B:214-252; D:5-108,D:214-252CRYSTAL STRUCTURE OF THE GLUR5 LIGAND BINDING CORE DIMER WITH GLUTAMATE AT 2.1 ANGSTROMS RESOLUTION
2GFEA:2-109,A:219-258; B:2-109,B:219-258; C:2-109,C:219-258CRYSTAL STRUCTURE OF THE GLUR2 A476E S673D LIGAND BINDING CORE MUTANT AT 1.54 ANGSTROMS RESOLUTION
2I0BA:4-109,A:215-257; C:3-109,C:215-257; B:1-109,B:215-257CRYSTAL STRUCTURE OF THE GLUR6 LIGAND BINDING CORE ELKQ MUTANT DIMER AT 1.96 ANGSTROMS RESOLUTION
2I0CB:4-109,B:215-259; A:3-109,A:215-259CRYSTAL STRUCTURE OF THE GLUR6 LIGAND BINDING CORE DIMER CROSSLINKED BY DISULFIDE BONDS BETWEEN Y490C AND L752C AT 2.25 ANGSTROMS RESOLUTION
2I3VA:3-109,A:219-258; B:3-109,B:219-258; C:4-109,C:219-258; D:4-109,D:219-258MEASUREMENT OF CONFORMATIONAL CHANGES ACCOMPANYING DESENSITIZATION IN AN IONOTROPIC GLUTAMATE RECEPTOR: STRUCTURE OF G725C MUTANT
2I3WA:4-109,A:219-258; B:4-109,B:219-258MEASUREMENT OF CONFORMATIONAL CHANGES ACCOMPANYING DESENSITIZATION IN AN IONOTROPIC GLUTAMATE RECEPTOR: STRUCTURE OF S729C MUTANT
2OJTA:4-108,A:214-254; B:4-108,B:214-254; A:109-213STRUCTURE AND MECHANISM OF KAINATE RECEPTOR MODULATION BY ANIONS
2P2AB:1-106,B:216-258; A:0-106,A:216-254; A:107-215X-RAY STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH 2-BN-TET-AMPA AT 2.26A RESOLUTION
2PBWB:4-108,B:214-256; A:4-108,A:214-251; A:109-213CRYSTAL STRUCTURE OF THE LIGAND-BINDING CORE OF IGLUR5 IN COMPLEX WITH THE PARTIAL AGONIST DOMOIC ACID AT 2.5 A RESOLUTION
3B6QA:393-498,A:731-770CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) MUTANT T686A IN COMPLEX WITH GLUTAMATE AT 2.0 RESOLUTION
3B6TA:393-498,A:731-770CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) T686A MUTANT IN COMPLEX WITH QUISQUALATE AT 2.1 RESOLUTION
3B6WA:393-498,A:731-770; B:393-498,B:731-770; C:393-498,C:731-770; D:393-498,D:731-770CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) T686S MUTANT IN COMPLEX WITH GLUTAMATE AT 1.7 RESOLUTION
3B7DD:3-109,D:219-258; A:4-109,A:219-258; B:4-109,B:219-258; E:4-109,E:219-258; F:4-109,F:219-258; H:4-109,H:219-258; C:5-109,C:219-258; G:5-109,G:219-258CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (HS1S2J) IN COMPLEX WITH CNQX AT 2.5 A RESOLUTION
(-)
Nostoc punctiforme pcc 73102. Organism_taxid: 63737. Strain: pcc 73102. (1)
2PYYB:4-87,B:183-226; A:4-87,A:183-221; C:4-87,C:183-221; A:88-182; B:88-182; C:88-182CRYSTAL STRUCTURE OF THE GLUR0 LIGAND-BINDING CORE FROM NOSTOC PUNCTIFORME IN COMPLEX WITH (L)-GLUTAMATE
(-)
Paenibacillus thiaminolyticus. Organism_taxid: 49283 (1)
2THIA:9-116,A:264-330; B:9-116,B:264-330; A:117-263,A:337-370; B:117-263,B:337-370THIAMINASE I FROM BACILLUS THIAMINOLYTICUS
(-)
Pcc 6803 (Synechocystis sp) (6)
1II5A:1-94,A:188-226; A:95-187CRYSTAL STRUCTURE OF THE GLUR0 LIGAND BINDING CORE COMPLEX WITH L-GLUTAMATE
1IITA:1-94,A:188-225; A:95-187GLUR0 LIGAND BINDING CORE COMPLEX WITH L-SERINE
1IIWA:1-94,A:188-225; A:95-187GLUR0 LIGAND BINDING CORE: CLOSED-CLEFT LIGAND-FREE STRUCTURE
2PT1A:44-145,A:277-323FUTA1 SYNECHOCYSTIS PCC 6803
2PT2A:45-145,A:277-323STRUCTURE OF FUTA1 WITH IRON(II)
3F11A:45-145,A:277-323STRUCTURE OF FUTA1 WITH IRON(III)
(-)
Pig (Sus scrofa) (1)
1H76A:94-250; A:431-591; A:3-93,A:251-342; A:343-430,A:592-686THE CRYSTAL STRUCTURE OF DIFERRIC PORCINE SERUM TRANSFERRIN
(-)
Porphyromonas gingivalis w83. Organism_taxid: 242619. Strain: w83. (1)
2P0SB:48-158; A:48-156STRUCTURAL GENOMICS, THE CRYSTAL STRUCTURE OF A PUTATIVE ABC TRANSPORTER DOMAIN FROM PORPHYROMONAS GINGIVALIS W83
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Pseudomonas aeruginosa pa01. Organism_taxid: 208964. Strain: pa01 / 1c/ prs 101 / lmg 12228. (1)
3FZVD:80-164,D:272-300; C:80-164,C:272-299; A:88-164,A:272-300; B:88-164,B:272-300; A:166-271; B:166-271; C:166-271; D:166-271CRYSTAL STRUCTURE OF PA01 PROTEIN, PUTATIVE LYSR FAMILY TRANSCRIPTIONAL REGULATOR FROM PSEUDOMONAS AERUGINOSA
(-)
Pseudomonas aeruginosa. Organism_taxid: 287. (1)
2ESNA:92-175,A:275-303; B:92-175,B:275-305; D:94-175,D:275-303; C:94-175,C:275-305; A:176-274; B:176-274; C:176-274; D:176-274THE CRYSTAL STRUCTURE OF PROBABLE TRANSCRIPTIONAL REGULATOR PA0477 FROM PSEUDOMONAS AERUGINOSA
(-)
Pyrococcus furiosus. Organism_taxid: 2261. (1)
1ELJA:1-116,A:264-330; A:117-263,A:337-379THE CRYSTAL STRUCTURE OF LIGANDED MALTODEXTRIN-BINDING PROTEIN FROM PYROCOCCUS FURIOSUS
(-)
Rabbit (Oryctolagus cuniculus) (2)
1JNFA:95-246; A:425-579; A:3-94,A:247-336; A:337-424,A:580-676RABBIT SERUM TRANSFERRIN AT 2.6 A RESOLUTION.
1TFDA:85-249; A:6-84,A:250-303HIGH-RESOLUTION X-RAY STUDIES ON RABBIT SERUM TRANSFERRIN: PRELIMINARY STRUCTURE ANALYSIS OF THE N-TERMINAL HALF-MOLECULE AT 2.3 ANGSTROMS RESOLUTION
(-)
Rat (Rattus norvegicus) (37)
2CMOA:5-109,A:219-258; B:5-109,B:219-258THE STRUCTURE OF A MIXED GLUR2 LIGAND-BINDING CORE DIMER IN COMPLEX WITH (S)-GLUTAMATE AND THE ANTAGONIST (S)-NS1209
2QS1A:4-108,A:214-254; B:4-108,B:214-254CRYSTAL STRUCTURE OF THE GLUR5 LIGAND BINDING CORE DIMER IN COMPLEX WITH UBP315 AT 1.80 ANGSTROMS RESOLUTION
2QS2A:4-108,A:214-254; B:4-108,B:214-254CRYSTAL STRUCTURE OF THE GLUR5 LIGAND BINDING CORE DIMER IN COMPLEX WITH UBP318 AT 1.80 ANGSTROMS RESOLUTION
2QS3A:4-108,A:214-254; B:4-108,B:214-254CRYSTAL STRUCTURE OF THE GLUR5 LIGAND BINDING CORE DIMER IN COMPLEX WITH UBP316 AT 1.76 ANGSTROMS RESOLUTION
2QS4D:4-108,D:214-256; B:4-108,B:214-254; C:4-108,C:214-254; A:2-108,A:214-257CRYSTAL STRUCTURE OF THE GLUR5 LIGAND BINDING CORE DIMER IN COMPLEX WITH LY466195 AT 1.58 ANGSTROMS RESOLUTION
2UXAA:4-109,A:219-258; B:4-109,B:219-258; C:4-109,C:219-258; A:110-218CRYSTAL STRUCTURE OF THE GLUR2-FLIP LIGAND BINDING DOMAIN, R/G UNEDITED.
2V3TA:2-105,A:220-264; B:3-105,B:220-259STRUCTURE OF THE LIGAND-BINDING CORE OF THE IONOTROPIC GLUTAMATE RECEPTOR-LIKE GLURDELTA2 IN THE APO FORM
2V3UA:1-105,A:220-261STRUCTURE OF THE LIGAND-BINDING CORE OF THE IONOTROPIC GLUTAMATE RECEPTOR-LIKE GLURDELTA2 IN COMPLEX WITH D-SERINE
2WKYB:4-108,B:214-256; A:4-108,A:214-258CRYSTAL STRUCTURE OF THE LIGAND-BINDING CORE OF GLUR5 IN COMPLEX WITH THE AGONIST 4-AHCP
3BBRB:4-109,B:219-258; A:4-109,A:219-256CRYSTAL STRUCTURE OF THE IGLUR2 LIGAND BINDING CORE (S1S2J-N775S) IN COMPLEX WITH A DIMERIC POSITIVE MODULATOR AS WELL AS GLUTAMATE AT 2.25 A RESOLUTION
3BFTA:3-109,A:219-258; B:3-109,B:219-258; C:3-109,C:219-258STRUCTURE OF THE LIGAND-BINDING CORE OF GLUR2 IN COMPLEX WITH THE AGONIST (S)-TDPA AT 2.25 A RESOLUTION
3BFUC:2-109,C:219-258; B:4-109,B:219-258; D:4-109,D:219-258; A:1-109,A:219-258STRUCTURE OF THE LIGAND-BINDING CORE OF GLUR2 IN COMPLEX WITH THE AGONIST (R)-TDPA AT 1.95 A RESOLUTION
3BKIB:5-109,B:219-258; C:5-109,C:219-258; D:5-109,D:219-258; P:5-109,P:219-258CRYSTAL STRUCTURE OF THE GLUR2 LIGAND BINDING CORE (S1S2J) IN COMPLEX WITH FQX AT 1.87 ANGSTROMS
3C31B:4-108,B:214-257; A:4-109,A:214-257CRYSTAL STRUCTURE OF GLUR5 LIGAND-BINDING CORE IN COMPLEX WITH LITHIUM AT 1.49 ANGSTROM RESOLUTION
3C32A:4-108,A:214-257; B:4-108,B:214-257CRYSTAL STRUCTURE OF GLUR5 LIGAND-BINDING CORE IN COMPLEX WITH SODIUM AT 1.72 ANGSTROM RESOLUTION
3C33A:4-108,A:214-257; B:4-108,B:214-257CRYSTAL STRUCTURE OF GLUR5 LIGAND-BINDING CORE IN COMPLEX WITH POTASSIUM AT 1.78 ANGSTROM RESOLUTION
3C34A:4-108,A:214-257; B:4-108,B:214-257CRYSTAL STRUCTURE OF GLUR5 LIGAND-BINDING CORE IN COMPLEX WITH RUBIDIUM AT 1.82 ANGSTROM RESOLUTION
3C35A:4-108,A:214-257; B:4-108,B:214-257CRYSTAL STRUCTURE OF GLUR5 LIGAND-BINDING CORE IN COMPLEX WITH CESIUM AT 1.97 ANGSTROM RESOLUTION
3C36A:4-108,A:214-257; B:4-108,B:214-257CRYSTAL STRUCTURE OF GLUR5 LIGAND-BINDING CORE IN COMPLEX WITH AMMONIUM IONS AT 1.68 ANGSTROM RESOLUTION
3EN3A:1-105,A:215-254CRYSTAL STRUCTURE OF THE GLUR4 LIGAND-BINDING DOMAIN IN COMPLEX WITH KAINATE
3EPEA:1-105,A:215-254; B:1-105,B:215-254CRYSTAL STRUCTURE OF THE GLUR4 LIGAND-BINDING DOMAIN IN COMPLEX WITH GLUTAMATE
3FASA:2-107,A:217-256; B:2-107,B:217-256X-RAY STRUCTURE OF IGLUR4 FLIP LIGAND-BINDING CORE (S1S2) IN COMPLEX WITH (S)-GLUTAMATE AT 1.40A RESOLUTION
3FATA:2-107,A:217-256; C:2-107,C:217-256; B:2-107,B:217-255X-RAY STRUCTURE OF IGLUR4 FLIP LIGAND-BINDING CORE (S1S2) IN COMPLEX WITH (S)-AMPA AT 1.90A RESOLUTION
3GBAD:5-108,D:214-257; C:5-108,C:214-257; A:1-108,A:214-257; B:1-108,B:213-257X-RAY STRUCTURE OF IGLUR5 LIGAND-BINDING CORE (S1S2) IN COMPLEX WITH DYSIHERBAINE AT 1.35A RESOLUTION
3GBBA:3-108,A:214-257; B:1-108,B:214-257X-RAY STRUCUTRE OF IGLUR5 LIGAND-BINDING CORE (S1S2) IN COMPLEX WITH MSVIII-19 AT 2.10A RESOLUTION
3H6TA:4-109,A:219-258; B:4-109,B:219-258; C:4-109,C:219-258CRYSTAL STRUCTURE OF THE IGLUR2 LIGAND-BINDING CORE (S1S2J-N754S) IN COMPLEX WITH GLUTAMATE AND CYCLOTHIAZIDE AT 2.25 A RESOLUTION
3H6UA:4-109,A:219-258CRYSTAL STRUCTURE OF THE IGLUR2 LIGAND-BINDING CORE (S1S2J-N754S) IN COMPLEX WITH GLUTAMATE AND NS1493 AT 1.85 A RESOLUTION
3H6VA:4-109,A:219-258; B:4-109,B:219-258CRYSTAL STRUCTURE OF THE IGLUR2 LIGAND-BINDING CORE (S1S2J-N754S) IN COMPLEX WITH GLUTAMATE AND NS5206 AT 2.10 A RESOLUTION
3H6WA:4-109,A:219-258; B:4-109,B:219-258CRYSTAL STRUCTURE OF THE IGLUR2 LIGAND-BINDING CORE (S1S2J-N754S) IN COMPLEX WITH GLUTAMATE AND NS5217 AT 1.50 A RESOLUTION
3IJOB:4-109,B:219-258; E:4-109,E:219-258; H:4-109,H:219-258CRYSTAL STRUCTURE OF THE AMPA SUBUNIT GLUR2 BOUND TO THE ALLOSTERIC MODULATOR, ALTHIAZIDE
3IJXB:4-109,B:219-258; D:4-109,D:219-258; H:4-109,H:219-258CRYSTAL STRUCTURE OF THE AMPA SUBUNIT GLUR2 BOUND TO THE ALLOSTERIC MODULATOR, HYDROCHLOROTHIAZIDE
3IK6B:4-109,B:219-258; E:4-109,E:219-258; H:4-109,H:219-258CRYSTAL STRUCTURE OF THE AMPA SUBUNIT GLUR2 BOUND TO THE ALLOSTERIC MODULATOR, CHLOROTHIAZIDE
3IL1B:4-109,B:219-258; E:4-109,E:219-258; H:4-109,H:219-258CRYSTAL STRUCTURE OF THE AMPA SUBUNIT GLUR2 BOUND TO THE ALLOSTERIC MODULATOR, IDRA-21
3ILTB:4-109,B:219-258; E:4-109,E:219-258; H:4-109,H:219-258CRYSTAL STRUCTURE OF THE AMPA SUBUNIT GLUR2 BOUND TO THE ALLOSTERIC MODULATOR, TRICHLORMETHIAZIDE
3ILUB:4-109,B:219-258; E:4-109,E:219-258; H:4-109,H:219-258CRYSTAL STRUCTURE OF THE AMPA SUBUNIT GLUR2 BOUND TO THE ALLOSTERIC MODULATOR, HYDROFLUMETHIAZIDE
3KG2B:393-498,B:733-772; D:393-498,D:733-772; A:393-498,A:733-782; C:393-498,C:733-782AMPA SUBTYPE IONOTROPIC GLUTAMATE RECEPTOR IN COMPLEX WITH COMPETITIVE ANTAGONIST ZK 200775
3KGCB:4-109,B:219-258; A:5-109,A:219-258ISOLATED LIGAND BINDING DOMAIN DIMER OF GLUA2 IONOTROPIC GLUTAMATE RECEPTOR IN COMPLEX WITH GLUTAMATE, LY 404187 AND ZK 200775
(-)
Rattus norvegicus. Organism_taxid: 10116. (10)
3DLNA:4-109,A:219-258CRYSTAL STRUCTURE OF THE BINDING DOMAIN OF THE AMPA SUBUNIT GLUR3 BOUND TO GLUTAMATE
3DP4A:4-109,A:219-258CRYSTAL STRUCTURE OF THE BINDING DOMAIN OF THE AMPA SUBUNIT GLUR3 BOUND TO AMPA
3DP6A:4-109,A:219-258; B:4-109,B:219-258; C:4-109,C:219-258CRYSTAL STRUCTURE OF THE BINDING DOMAIN OF THE AMPA SUBUNIT GLUR2 BOUND TO GLUTAMATE
3G3GA:3-109,A:215-258; B:2-109,B:215-257CRYSTAL STRUCTURE OF THE GLUR6 LIGAND BINDING DOMAIN DIMER K665R MUTANT WITH GLUTAMATE AND NACL AT 1.3 ANGSTROM RESOLUTION
3G3HA:3-109,A:215-258; B:1-109,B:215-257CRYSTAL STRUCTURE OF THE GLUR6 LIGAND BINDING DOMAIN DIMER K665R I749L Q753K MUTANT WITH GLUTAMATE AND NACL AT 1.5 ANGSTROM RESOLUTION
3G3IB:2-109,B:215-257; A:3-109,A:215-258CRYSTAL STRUCTURE OF THE GLUR6 LIGAND BINDING DOMAIN DIMER I442H K494E I749L Q753K MUTANT WITH GLUTAMATE AND NACL AT 1.37 ANGSTROM RESOLUTION
3G3JB:2-109,B:215-257; A:3-109,A:215-259CRYSTAL STRUCTURE OF THE GLUR6 LIGAND BINDING DOMAIN DIMER I442H K494E K665R I749L Q753K MUTANT WITH GLUTAMATE AND NACL AT 1.32 ANGSTROM RESOLUTION
3G3KA:3-109,A:215-258; B:2-109,B:215-257CRYSTAL STRUCTURE OF THE GLUR6 LIGAND BINDING DOMAIN DIMER I442H K494E K665R I749L Q753K E757Q MUTANT WITH GLUTAMATE AND NACL AT 1.24 ANGSTROM RESOLUTION
3H03A:5-109,A:219-258; B:5-109,B:219-258; D:5-109,D:219-258; G:5-109,G:219-258CRYSTAL STRUCTURE OF THE BINDING DOMAIN OF THE AMPA SUBUNIT GLUR2 BOUND TO UBP277
3H06B:5-109,B:219-258; E:5-109,E:219-258; G:5-109,G:219-258; H:5-109,H:219-258; J:5-109,J:219-258; L:5-109,L:219-258; N:5-109,N:219-258; P:5-109,P:219-258CRYSTAL STRUCTURE OF THE BINDING DOMAIN OF THE AMPA SUBUNIT GLUR2 BOUND TO THE WILLARDIINE ANTAGONIST, UBP282
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Rha1 (Rhodococcus sp) (1)
2QL3A:173-278; B:173-278; K:173-278; L:173-278; A:99-172,A:279-303; B:99-172,B:279-303; C:99-172,C:279-303; D:99-172,D:279-303; E:99-172,E:279-303; F:99-172,F:279-303; G:99-172,G:279-303; H:99-172,H:279-303; C:173-278; I:99-172,I:279-303; J:99-172,J:279-303; K:99-172,K:279-303; L:99-172,L:279-303; D:173-278; E:173-278; F:173-278; G:173-278; H:173-278; I:173-278; J:173-278CRYSTAL STRUCTURE OF THE C-TERMINAL DOMAIN OF A PROBABLE LYSR FAMILY TRANSCRIPTIONAL REGULATOR FROM RHODOCOCCUS SP. RHA1
(-)
Salmonella typhimurium. Organism_taxid: 602 (6)
1LAFE:1-90,E:192-238; E:91-191STRUCTURAL BASES FOR MULTIPLE LIGAND SPECIFICITY OF THE PERIPLASMIC LYSINE-, ARGININE-, ORNITHINE-BINDING PROTEIN
1LAGE:1-90,E:192-238; E:91-191STRUCTURAL BASES FOR MULTIPLE LIGAND SPECIFICITY OF THE PERIPLASMIC LYSINE-, ARGININE-, ORNITHINE-BINDING PROTEIN
1LAHE:1-90,E:192-238; E:91-191STRUCTURAL BASES FOR MULTIPLE LIGAND SPECIFICITY OF THE PERIPLASMIC LYSINE-, ARGININE-, ORNITHINE-BINDING PROTEIN
1LSTA:1-90,A:192-238; A:91-191THREE-DIMENSIONAL STRUCTURES OF THE PERIPLASMIC LYSINE-, ARGININE-, ORNITHINE-BINDING PROTEIN WITH AND WITHOUT A LIGAND
1SBPA:1-94,A:220-276; A:95-219,A:277-3091.7 ANGSTROMS REFINED STRUCTURE OF SULFATE-BINDING PROTEIN INVOLVED IN ACTIVE TRANSPORT AND NOVEL MODE OF SULFATE BINDING
2LAOA:1-90,A:192-238; A:91-191THREE-DIMENSIONAL STRUCTURES OF THE PERIPLASMIC LYSINE-, ARGININE-, ORNITHINE-BINDING PROTEIN WITH AND WITHOUT A LIGAND
(-)
Salmonella typhimurium. Organism_taxid: 602. (24)
1B05A:1-44,A:169-270,A:487-517STRUCTURE OF OLIGO-PEPTIDE BINDING PROTEIN COMPLEXED WITH LYS-CYS-LYS
1B32A:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KMK
1B3FA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KHK
1B3GA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KIK
1B3LA:1-44,A:169-270,A:487-517; C:1-44,C:169-270,C:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KGK
1B40A:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KFK
1B46A:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KPK
1B4ZA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KDK
1B51A:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KSK
1B52A:1-44,A:169-270,A:487-516OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KTK
1B58A:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KYK
1B5IA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KNK
1B5JA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KQK
1B9JA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KLK
1JETA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KAK
1JEUA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KEK
1JEVA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KWK
1OLAA:1-44,A:169-270,A:487-517THE STRUCTURAL BASIS OF MULTISPECIFICITY IN THE OLIGOPEPTIDE-BINDING PROTEIN OPPA
1OLCA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH LYS-LYS-LYS-ALA
1QKAA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KRK
1QKBA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KVK
1RKMA:1-44,A:169-270,A:487-517STRUCTURE OF OPPA
2OLBA:1-44,A:169-270,A:487-517OLIGOPEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH TRI-LYSINE
2RKMA:1-44,A:169-270,A:487-517STRUCTURE OF OPPA COMPLEXED WITH LYS-LYS
(-)
Salmonella typhimurium. Organism_taxid: 602. (8)
1B0HA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN COMPLEXED WITH LYSYL-NAPTHYLALANYL-LYSINE
1B1HA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN/TRIPEPTIDE (LYS HPE LYS) COMPLEX
1B2HA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN COMPLEXED WITH LYSYL-ORNITHYL-LYSINE
1B3HA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN COMPLEXED WITH LYSYL-CYCLOHEXYLALANYL-LYSINE
1B4HA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN COMPLEXED WITH LYSYL-DIAMINOBUTYRIC ACID-LYSINE
1B5HA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN COMPLEXED WITH LYSYL-DIAMINOPROPANOIC ACID-LYSINE
1B6HA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN COMPLEXED WITH LYSYL-NORVALYL-LYSINE
1B7HA:1-44,A:169-270,A:487-517OLIGO-PEPTIDE BINDING PROTEIN COMPLEXED WITH LYSYL-NORLEUCYL-LYSINE
(-)
Shigella flexneri 2a. Organism_taxid: 42897. Strain: 2457t, 301. (1)
2OZZA:-2-93,A:186-228; B:12-93,B:186-228; A:94-185; B:94-185CRYSTAL STRUCTURE OF YHFZ FROM SHIGELLA FLEXNERI
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Sphingomonas. Organism_taxid: 90322. Strain: a1. (1)
3A09A:1-132,A:311-399; A:133-310,A:400-490CRYSTAL STRUCTURE OF SPHINGOMONAS SP. A1 ALGINATE-BINDING PROTEIN ALGQ1 IN COMPLEX WITH UNSATURATED TRIMANNURONATE
(-)
Streptomyces coelicolor. Organism_taxid: 1902. (1)
2NXOD:5-80,D:183-280; B:5-80,B:183-280; A:5-80,A:183-281; C:4-80,C:183-280; A:81-182; C:81-182; B:81-182; D:81-182CRYSTAL STRUCTURE OF PROTEIN SCO4506 FROM STREPTOMYCES COELICOLOR, PFAM DUF178
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Synechocystis sp.. Organism_taxid: 1148. Strain: pcc 6803 (2)
2VOZB:32-129,B:263-309; A:34-129,A:263-309APO FUTA2 FROM SYNECHOCYSTIS PCC6803
2VP1A:34-129,A:263-309; B:34-129,B:263-309FE-FUTA2 FROM SYNECHOCYSTIS PCC6803
(-)
Synthetic construct. Organism_taxid: 32630. Strain: ed9. (1)
1A7LA:5-111,A:260-331; B:5-111,B:260-331; C:5-111,C:260-331; B:112-259,B:332-365I; C:112-259,C:332-365I; A:112-259,A:333-383IDOMINANT B-CELL EPITOPE FROM THE PRES2 REGION OF HEPATITIS B VIRUS IN THE FORM OF AN INSERTED PEPTIDE SEGMENT IN MALTODEXTRIN-BINDING PROTEIN
(-)
Thermococcus litoralis. Organism_taxid: 2265. (1)
1EU8A:2-123,A:293-360; A:124-292,A:361-408STRUCTURE OF TREHALOSE MALTOSE BINDING PROTEIN FROM THERMOCOCCUS LITORALIS
(-)
Thermotoga maritima. Organism_taxid: 2336. (2)
1O63A:2-85,A:168-204; B:2-85,B:168-201; A:86-167; B:86-167CRYSTAL STRUCTURE OF AN ATP PHOSPHORIBOSYLTRANSFERASE
1O64A:2-85,A:168-204; B:2-85,B:168-201; A:86-167; B:86-167CRYSTAL STRUCTURE OF AN ATP PHOSPHORIBOSYLTRANSFERASE
(-)
Thermotoga maritima. Organism_taxid: 243274. Strain: msb8. (1)
1USYG:1-85,G:168-204; F:1-85,F:168-203; E:1-85,E:168-202; H:1-85,H:168-202; E:86-167; F:86-167; G:86-167; H:86-167ATP PHOSPHORIBOSYL TRANSFERASE (HISG:HISZ) COMPLEX FROM THERMOTOGA MARITIMA
(-)
Thermus thermophilus. Organism_taxid: 274. (1)
1VE4A:94-176ATP-PHOSPHORIBOSYLTRANSFERASE(HISG) FROM THERMUS THERMOPHILUS HB8
(-)
Thermus thermophilus. Organism_taxid: 300852. Strain: hb8. (2)
1US4A:109-247; A:17-108,A:248-314PUTATIVE GLUR0 LIGAND BINDING CORE WITH L-GLUTAMATE
1US5A:109-247; A:17-108,A:248-313PUTATIVE GLUR0 LIGAND BINDING CORE WITH L-GLUTAMATE
(-)
Treponema pallidum. Organism_taxid: 160. (1)
1XS5A:5-88,A:195-244; A:89-194THE CRYSTAL STRUCTURE OF LIPOPROTEIN TP32 FROM TREPONEMA PALLIDUM
(-)
Vibrio parahaemolyticus rimd 2210633. Organism_taxid: 223926. Strain:rimd 2210633. (1)
2QSXA:16-84,A:183-212; B:17-84,B:183-212; B:85-182; A:85-182CRYSTAL STRUCTURE OF PUTATIVE TRANSCRIPTIONAL REGULATOR LYSR FROM VIBRIO PARAHAEMOLYTICUS
(-)
Water buffalo (Bubalus bubalis) (2)
1BIYA:92-250; A:433-594; A:5-91,A:251-339; A:340-432,A:595-689STRUCTURE OF DIFERRIC BUFFALO LACTOFERRIN
1CE2A:92-250; A:433-594; A:5-91,A:251-339; A:340-432,A:595-689STRUCTURE OF DIFERRIC BUFFALO LACTOFERRIN AT 2.5A RESOLUTION
(-)
Yellow-flowered pea (Lathyrus ochruss) (1)
1LGBC:91-249INTERACTION OF A LEGUME LECTIN WITH THE N2 FRAGMENT OF HUMAN LACTOTRANSFERRIN OR WITH THE ISOLATED BIANTENNARY GLYCOPEPTIDE: ROLE OF THE FUCOSE MOIETY
(-)
Yersinia enterocolitica. Organism_taxid: 630. (2)
1XVXA:2-101,A:228-282; A:102-227,A:283-312CRYSTAL STRUCTURE OF IRON-LOADED YERSINIA ENTEROCOLITICA YFUA
1XVYA:3-98,A:225-279; A:99-224,A:280-309CRYSTAL STRUCTURE OF IRON-FREE SERRATIA MARCESCENS SFUA
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Yersinia pestis co92. Organism_taxid: 214092. Strain: co92. (2)
2Z22A:1-77,A:230-239,A:254-321; X:1-77,X:230-239,X:254-321; A:78-229,A:240-253; X:78-229,X:240-253CRYSTAL STRUCTURE OF PHOSPHATE PREPLASMIC BINDING PROTEIN PSTS FROM YERSINIA PESTIS
2Z23A:1-44,A:169-270,A:487-517CRYSTAL STRUCTURE OF Y.PESTIS OLIGO PEPTIDE BINDING PROTEIN OPPA WITH TRI-LYSINE LIGAND