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Clan: Ferritin (185)
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Family: DUF2202 (4)
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Methanocaldococcus jannaschii (strain ATCC 43067 / DSM 2661 / JAL-1 / JCM 10045 / NBRC 100440) (Meth (4)
3Q4NB:17-178; B:17-178CRYSTAL STRUCTURE OF HYPOTHETICAL PROTEIN MJ0754 FROM METHANOCOCCUS JANNASCHII DSM 2661
3Q4OA:17-178CRYSTAL STRUCTURE OF A DELETION MUTANT(11-185) OF HYPOTHETICAL PROTEIN MJ0754 DETERMINED TO 1.34A
3Q4QA:17-178CRYSTAL STRUCTURE OF A DELETION MUTANT(11-185) OF HYPOTHETICAL PROTEIN MJ0754 WITH MN2+
3Q4RA:17-178CRYSTAL STRUCTURE OF A DELETION MUTANT(11-185) OF HYPOTHETICAL PROTEIN MJ0754 WITH ZN2+
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Family: DUF305 (1)
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Streptomyces coelicolor (1)
2QF9B:43-199; B:43-199CRYSTAL STRUCTURE OF PUTATIVE SECRETED PROTEIN DUF305 FROM STREPTOMYCES COELICOLOR
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Family: FA_desaturase_2 (5)
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Mycobacterium tuberculosis (1)
1ZA0A:8-230X-RAY STRUCTURE OF PUTATIVE ACYL-ACP DESATURASE DESA2 FROM MYCOBACTERIUM TUBERCULOSIS H37RV
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Ricinus communis (Castor bean) (4)
1OQ4F:33-361; F:33-361; F:33-361; F:33-361; F:33-361; F:33-361THE CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN STEAROYL ACYL CARRIER PROTEIN DESATURASE FROM RICINUS COMMUNIS (CASTOR BEAN) AND AZIDE.
1OQ7F:33-361; F:33-361; F:33-361; F:33-361; F:33-361; F:33-361THE CRYSTAL STRUCTURE OF THE IRON FREE (APO-)FORM OF STEAROYL ACYL CARRIER PROTEIN DESATURASE FROM RICINUS COMMUNIS (CASTOR BEAN).
1OQ9A:33-361THE CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN STEAROYL ACYL CARRIER PROTEIN DESATURASE FROM RICINUS COMMUNIS (CASTOR BEAN) AND ACETATE.
1OQBF:33-361; F:33-361; F:33-361; F:33-361; F:33-361; F:33-361THE CRYSTAL STRUCTURE OF THE ONE-IRON FORM OF THE DI-IRON CENTER IN STEAROYL ACYL CARRIER PROTEIN DESATURASE FROM RICINUS COMMUNIS (CASTOR BEAN).
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Family: Ferritin (83)
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Archaeoglobus fulgidus (strain ATCC 49558 / VC-16 / DSM 4304 / JCM 9628 / NBRC 100126) (2)
1SQ3L:9-146; L:9-146; L:9-146; L:9-146; L:9-146; L:9-146; L:9-146; L:9-146; L:9-146; L:9-146; L:9-146; L:9-146CRYSTAL STRUCTURES OF A NOVEL OPEN PORE FERRITIN FROM THE HYPERTHERMOPHILIC ARCHAEON ARCHAEOGLOBUS FULGIDUS.
3KX9X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146; X:9-146ENGINEERING A CLOSED FORM OF THE ARCHAEOGLOBUS FULGIDUS FERRITIN BY SITE DIRECTED MUTAGENESIS
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Azotobacter vinelandii (1)
1SOFH:8-144; H:8-144; H:8-144; H:8-144; H:8-144; H:8-144; H:8-144; H:8-144CRYSTAL STRUCTURE OF THE AZOTOBACTER VINELANDII BACTERIOFERRITIN AT 2.6 A RESOLUTION
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Bacillus anthracis (3)
1JIGD:8-147; D:8-147; D:8-147; D:8-147DLP-2 FROM BACILLUS ANTHRACIS
1JI5D:6-145; D:6-145; D:6-145; D:6-145DLP-1 FROM BACILLUS ANTHRACIS
2QQYA:9-139CRYSTAL STRUCTURE OF FERRITIN LIKE, DIIRON-CARBOXYLATE PROTEINS FROM BACILLUS ANTHRACIS STR. AMES
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Bacteroides fragilis (strain ATCC 25285 / NCTC 9343) (1)
2VZBD:19-163; D:19-163; D:19-163; D:19-163A DODECAMERIC THIOFERRITIN IN THE BACTERIAL DOMAIN, CHARACTERIZATION OF THE BACTERIOFERRITIN-RELATED PROTEIN FROM BACTEROIDES FRAGILIS
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Brevibacillus brevis (Bacillus brevis) (1)
1N1QD:10-149; D:10-149; D:10-149; D:10-149CRYSTAL STRUCTURE OF A DPS PROTEIN FROM BACILLUS BREVIS
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Campylobacter jejuni (1)
1KRQA:7-144CRYSTAL STRUCTURE ANALYSIS OF CAMPYLOBACTER JEJUNI FERRITIN
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Desulfovibrio desulfuricans (strain ATCC 27774 / DSM 6949) (3)
1NF4P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149X-RAY STRUCTURE OF THE DESULFOVIBRIO DESULFURICANS BACTERIOFERRITIN: THE DIIRON SITE IN DIFFERENT STATES (REDUCED STRUCTURE)
1NF6P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149X-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)
1NFVP:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149; P:13-149X-RAY STRUCTURE OF DESULFOVIBRIO DESULFURICANS BACTERIOFERRITIN: THE DIIRON CENTRE IN DIFFERENT CATALYTIC STATES (AS-ISOLATED STRUCTURE)
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Equus caballus (Horse) (23)
1XZ3A:13-154COMPLEX OF APOFERRITIN WITH ISOFLURANE
2V2IA:13-154WILD TYPE RECOMBINANT HORSE SPLEEN APOFERRITIN COCRYSTALLIZED WITH HAEMIN IN ACIDIC CONDITIONS
2V2JA:13-154WILD TYPE RECOMBINANT HORSE SPLEEN APOFERRITIN COCRYSTALLIZED WITH HAEMIN IN BASIC CONDITIONS
2V2LA:13-154MUTANT (E53,56,57,60Q) RECOMBINANT HORSE SPLEEN APOFERRITIN COCRYSTALLIZED WITH HAEMIN IN ACIDIC CONDITIONS
2V2MA:13-154MUTANT (E53,56,57,60Q) RECOMBINANT HORSE SPLEEN APOFERRITIN COCRYSTALLIZED WITH HAEMIN IN BASIC CONDITIONS
2V2NA:13-154MUTANT R59M RECOMBINANT HORSE SPLEEN APOFERRITIN COCRYSTALLIZED WITH HAEMIN IN ACIDIC CONDITIONS
2V2OA:13-154MUTANT R59M RECOMBINANT HORSE SPLEEN APOFERRITIN COCRYSTALLIZED WITH HAEMIN IN BASIC CONDITIONS
2V2PA:13-154MUTANT (E53,56,57,60Q AND R59M) RECOMBINANT HORSE SPLEEN APOFERRITIN COCRYSTALLIZED WITH HAEMIN IN ACIDIC CONDITIONS
2V2RA:13-154MUTANT (E53,56,57,60Q AND R59M) RECOMBINANT HORSE SPLEEN APOFERRITIN COCRYSTALLIZED WITH HAEMIN IN BASIC CONDITIONS
2V2SA:13-154MUTANT R59M RECOMBINANT HORSE SPLEEN APOFERRITIN CRYSTALLIZED IN ACIDIC CONDITIONS
2W0OA:13-154HORSE SPLEEN APOFERRITIN
2Z5PA:13-154APO-FR WITH LOW CONTENT OF PD IONS
2Z5QA:13-154APO-FR WITH INTERMEDIATE CONTENT OF PD ION
2ZA6A:14-155RECOMBINANT HORSE L-CHAIN APOFERRITIN
2ZA8A:14-155RECOMBINANT HORSE L-CHAIN APOFERRITIN N-TERMINAL DELETION MUTANT (RESIDUES 1-8)
2ZG7X:13-154CRYSTAL STRUCTURE OF PD(ALLYL)/APO-FR
2ZG8X:13-154CRYSTAL STRUCTURE OF PD(ALLYL)/APO-H49AFR
2ZG9X:13-154CRYSTAL STRUCTURE OF PD(ALLYL)/APO-H114AFR
2ZURX:13-154CRYSTAL STRUCTURE OF RH(NBD)/APO-FR
3O7RA:13-154CRYSTAL STRUCTURE OF RU(P-CYMENE)/APO-H49AFR
3O7SA:13-154CRYSTAL STRUCTURE OF RU(P-CYMENE)/APO-FR
3RAVA:13-154HORSE SPLEEN APO-FERRITIN WITH BOUND PENTOBARBITAL
3RD0A:13-154HORSE SPLEEN APO-FERRITIN WITH BOUND THIOPENTAL
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Escherichia coli (strain K12) (4)
2Y3QL:8-144; L:8-144; L:8-144; L:8-144; L:8-144; L:8-144; L:8-144; L:8-144; L:8-144; L:8-144; L:8-144; L:8-1441.55A STRUCTURE OF APO BACTERIOFERRITIN FROM E. COLI
1JREL:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167DNA PROTECTION AND BINDING BY E. COLI DPS PROTEIN
1L8HL:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167DNA PROTECTION AND BINDING BY E. COLI DPS PROTEIN
1L8IL:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167; L:30-167DNA PROTECTION AND BINDING BY E. COLI DPS PROTEIN
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Halobacterium salinarium (strain ATCC 700922 / JCM 11081 / NRC-1) (Halobacterium halobium) (5)
1MOJD:31-176; D:31-176; D:31-176; D:31-176CRYSTAL STRUCTURE OF AN ARCHAEAL DPS-HOMOLOGUE FROM HALOBACTERIUM SALINARUM
1TJOD:31-176; D:31-176; D:31-176; D:31-176IRON-OXO CLUSTERS BIOMINERALIZING ON PROTEIN SURFACES. STRUCTURAL ANALYSIS OF H.SALINARUM DPSA IN ITS LOW AND HIGH IRON STATES
1TK6D:31-176; D:31-176; D:31-176; D:31-176IRON-OXO CLUSTERS BIOMINERALIZING ON PROTEIN SURFACES. STRUCTURAL ANALYSIS OF H.SALINARUM DPSA IN ITS LOW AND HIGH IRON STATES
1TKOD:31-176; D:31-176; D:31-176; D:31-176IRON-OXO CLUSTERS BIOMINERALIZING ON PROTEIN SURFACES. STRUCTURAL ANALYSIS OF H.SALINARUM DPSA IN ITS LOW AND HIGH IRON STATES
1TKPD:31-176; D:31-176; D:31-176; D:31-176IRON-OXO CLUSTERS BIOMINERALIZING ON PROTEIN SURFACES. STRUCTURAL ANALYSIS OF H.SALINARUM DPSA IN ITS LOW AND HIGH IRON STATES
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Helicobacter pylori (Campylobacter pylori) (1)
1JI4L:4-144; L:4-144; L:4-144; L:4-144; L:4-144; L:4-144; L:4-144; L:4-144; L:4-144; L:4-144; L:4-144; L:4-144NAP PROTEIN FROM HELICOBACTER PYLORI
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Homo sapiens (Human) (3)
2Z6ML:17-158; L:17-158; L:17-158; L:17-158; L:17-158; L:17-158; L:17-158; L:17-158; L:17-158; L:17-158; L:17-158; L:17-158CRYSTAL STRUCTURE OF HUMAN FERRITIN H8 AS BIOTEMPLATE FOR NOBLE METAL NANOPARTICLE SYNTHESIS
3KXUA:14-155CRYSTAL STRUCTURE OF HUMAN FERRITIN FTL498INSTC PATHOGENIC MUTANT
1R03A:17-158CRYSTAL STRUCTURE OF A HUMAN MITOCHONDRIAL FERRITIN
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Listeria innocua (1)
1QGHL:10-155; L:10-155; L:10-155; L:10-155; L:10-155; L:10-155; L:10-155; L:10-155; L:10-155; L:10-155; L:10-155; L:10-155THE X-RAY STRUCTURE OF THE UNUSUAL DODECAMERIC FERRITIN FROM LISTERIA INNOCUA, REVEALS A NOVEL INTERSUBUNIT IRON BINDING SITE.
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Microbacterium arborescens (2)
2YJJL:23-161; L:23-161; L:23-161; L:23-161; L:23-161; L:23-161; L:23-161; L:23-161; L:23-161; L:23-161; L:23-161; L:23-161STRUCTURE OF DPS FROM MICROBACTERIUM ARBORESCENS IN THE LOW IRON FORM
2YJKL:20-158; L:20-158; L:20-158; L:20-158; L:20-158; L:20-158; L:20-158; L:20-158; L:20-158; L:20-158; L:20-158; L:20-158STRUCTURE OF DPS FROM MICROBACTERIUM ARBORESCENS IN THE HIGH IRON FORM
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Mycobacterium smegmatis (6)
1UVHD:18-160; D:18-160; D:18-160; D:18-160X-RAY STRUCTURE OF DPS FROM MYCOBACTERIUM SMEGMATIS
1VEIA:18-160MYCOBACTERIUM SMEGMATIS DPS
1VELF:18-160; F:18-160; F:18-160; F:18-160; F:18-160; F:18-160MYCOBACTERIUM SMEGMATIS DPS TETRAGONAL FORM
1VEQL:18-160; L:18-160; L:18-160; L:18-160; L:18-160; L:18-160; L:18-160; L:18-160; L:18-160; L:18-160; L:18-160; L:18-160MYCOBACTERIUM SMEGMATIS DPS HEXAGONAL FORM
2YW6C:18-160; C:18-160; C:18-160STRUCTURAL STUDIES OF N TERMINAL DELETION MUTANT OF DPS FROM MYCOBACTERIUM SMEGMATIS
2YW7J:18-157; J:18-157; J:18-157; J:18-157; J:18-157; J:18-157; J:18-157; J:18-157; J:18-157; J:18-157CRYSTAL STRUCTURE OF C-TERMINAL DELETION MUTANT OF MYCOBACTERIUM SMEGMATIS DPS
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Mycobacterium smegmatis (strain ATCC 700084 / mc(2)155) (1)
2Z90D:21-160; D:21-160; D:21-160; D:21-160CRYSTAL STRUCTURE OF THE SECOND DPS FROM MYCOBACTERIUM SMEGMATIS
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Mycobacterium tuberculosis (2)
3QD8X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149; X:12-149CRYSTAL STRUCTURE OF MYCOBACTERIUM TUBERCULOSIS BFRB
2WTLF:8-144; F:8-144; F:8-144; F:8-144; F:8-144; F:8-144CRYSTAL STRUCTURE OF BFRA FROM M. TUBERCULOSIS
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Pseudomonas aeruginosa (7)
3R2HA:8-1441.7 A RESOLUTION STRUCTURE OF AS-ISOLATED FTNA FROM PSEUDOMONAS AERUGINOSA (PH 10.5)
3R2KA:8-1441.55A RESOLUTION STRUCTURE OF AS-ISOLATED FTNA FROM PSEUDOMONAS AERUGINOSA (PH 7.5)
3R2LA:8-1441.85A RESOLUTION STRUCTURE OF IRON SOAKED FTNA FROM PSEUDOMONAS AERUGINOSA (PH 7.5)
3R2MA:8-1441.8A RESOLUTION STRUCTURE OF DOUBLY SOAKED FTNA FROM PSEUDOMONAS AERUGINOSA (PH 7.5)
3R2OA:8-1441.95 A RESOLUTION STRUCTURE OF AS-ISOLATED FTNA FROM PSEUDOMONAS AERUGINOSA (PH 6.0)
3R2RA:8-1441.65A RESOLUTION STRUCTURE OF IRON SOAKED FTNA FROM PSEUDOMONAS AERUGINOSA (PH 6.0)
3R2SA:8-1442.1A RESOLUTION STRUCTURE OF DOUBLY SOAKED FTNA FROM PSEUDOMONAS AERUGINOSA (PH 6.0)
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Pyrococcus furiosus (strain ATCC 43587 / DSM 3638 / JCM 8422 / Vc1) (1)
2X17Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144; Z:7-144THE X-RAY STRUCTURE OF FERRITIN FROM PYROCOCCUS FURIOSUS LOADED WITH AG(I)
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Rhodobacter capsulatus (Rhodopseudomonas capsulata) (1)
1JGCC:8-144; C:8-144; C:8-144THE 2.6 A STRUCTURE RESOLUTION OF RHODOBACTER CAPSULATUS BACTERIOFERRITIN WITH METAL-FREE DINUCLEAR SITE AND HEME IRON IN A CRYSTALLOGRAPHIC SPECIAL POSITION
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Streptococcus pyogenes serotype M1 (2)
2WLAA:29-172STREPTOCOCCUS PYOGENES DPR
2WLUA:29-172IRON-BOUND CRYSTAL STRUCTURE OF STREPTOCOCCUS PYOGENES DPR
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Streptococcus suis (7)
1UMNL:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172CRYSTAL STRUCTURE OF DPS-LIKE PEROXIDE RESISTANCE PROTEIN (DPR) FROM STREPTOCOCCUS SUIS
2UX1L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172IDENTIFICATION OF TWO ZINC-BINDING SITES IN THE STREPTOCOCCUS SUIS DPR PROTEIN
2V15L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172TERBIUM BINDING IN STREPTOCOCCUS SUIS DPR PROTEIN
2XJML:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172CRYSTAL STRUCTURE OF STREPTOCOCCUS SUIS DPR WITH COBALT
2XJNL:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172CRYSTAL STRUCTURE OF STREPTOCOCCUS SUIS DPR WITH COPPER
2XJOL:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172CRYSTAL STRUCTURE OF STREPTOCOCCUS SUIS DPR WITH NICKEL
2XKQL:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172; L:26-172CRYSTAL STRUCTURE OF STREPTOCOCCUS SUIS DPR WITH MANGANESE
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Thermosynechococcus elongatus (strain BP-1) (1)
2VXXD:30-174; D:30-174; D:30-174; D:30-174X-RAY STRUCTURE OF DPSA FROM THERMOSYNECHOCOCCUS ELONGATUS
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Thermotoga maritima (2)
1VLGH:9-146; H:9-146; H:9-146; H:9-146; H:9-146; H:9-146; H:9-146; H:9-146CRYSTAL STRUCTURE OF FERRITIN (TM1128) FROM THERMOTOGA MARITIMA AT 2.00 A RESOLUTION
1Z4AH:9-146; H:9-146; H:9-146; H:9-146; H:9-146; H:9-146; H:9-146; H:9-146FERRITIN FROM T. MARITIMA
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Trichoplusia ni (Cabbage looper) (1)
1Z6OL:38-188; L:38-188; L:38-188; L:38-188; L:38-188; L:38-188; L:38-188; L:38-188; L:38-188; L:38-188; L:38-188; L:38-188; X:22-146; X:22-146; X:22-146; X:22-146; X:22-146; X:22-146; X:22-146; X:22-146; X:22-146; X:22-146; X:22-146; X:22-146CRYSTAL STRUCTURE OF TRICHOPLUSIA NI SECRETED FERRITIN
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Vibrio cholerae (1)
3QZ3C:13-150; C:13-150; C:13-150THE CRYSTAL STRUCTURE OF FERRITIN FROM VIBRIO CHOLERAE O1 BIOVAR EL TOR STR. N16961
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Family: Mn_catalase (2)
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Thermus thermophilus (2)
2V8TB:1-302; B:1-302CRYSTAL STRUCTURE OF MN CATALASE FROM THERMUS THERMOPHILUS COMPLEXED WITH CHLORIDE
2V8UB:1-302; B:1-302ATOMIC RESOLUTION STRUCTURE OF MN CATALASE FROM THERMUS THERMOPHILUS
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Family: PaaA_PaaC (10)
(-)
Azoarcus evansii (3)
3PERB:95-265; B:95-265CRYSTAL STRUCTURE OF BOXB WITH PHOSPHATE BOUND TO THE DIIRON CENTER
3PM5D:95-265; D:95-265; D:95-265; D:95-265CRYSTAL STRUCTURE OF BOXB IN MIXED VALENT STATE WITH BOUND BENZOYL-COA
3Q1GD:95-265; D:95-265; D:95-265; D:95-265CRYSTAL STRUCTURE OF BOXB CRYSTALLIZED WITH PEG
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Escherichia coli (strain K12) (7)
3PVRA:2-291; C:2-248; C:2-248THE PHENYLACETYL-COA MONOOXYGENASE PAAAC SUBCOMPLEX WITH BENZOYL-COA
3PVTA:2-291; C:2-248; C:2-248THE PHENYLACETYL-COA MONOOXYGENASE PAAAC SUBCOMPLEX WITH 3-HYDROXYBUTANOYL-COA
3PVYA:2-291; C:2-248; C:2-248THE PHENYLACETYL-COA MONOOXYGENASE PAAAC SUBCOMPLEX WITH COENZYME A
3PW1A:2-291; C:2-248; C:2-248THE PHENYLACETYL-COA MONOOXYGENASE PAAAC SUBCOMPLEX WITH PHENYLACETYL-COA
3PW8D:2-291; D:2-291; B:2-248; B:2-248THE PHENYLACETYL-COA MONOOXYGENASE PAAAC SUBCOMPLEX WITH ACETYL-COA
3PWQH:2-291; H:2-291; H:2-291; H:2-291; R:2-238; R:2-238; R:2-238; R:2-238; R:2-238; R:2-238; R:2-238; R:2-238THE PHENYLACETYL-COA MONOOXYGENASE PAAAC SUBCOMPLEX
1OTKB:3-244; B:3-244STRUCTURAL GENOMICS, PROTEIN PAAC
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Family: Phenol_Hydrox (21)
(-)
Methylococcus capsulatus (11)
1MMOE:36-263; E:36-263; C:71-308; C:71-308CRYSTAL STRUCTURE OF A BACTERIAL NON-HAEM IRON HYDROXYLASE THAT CATALYSES THE BIOLOGICAL OXIDATION OF METHANE
1MTYE:36-263; E:36-263; C:71-308; C:71-308METHANE MONOOXYGENASE HYDROXYLASE FROM METHYLOCOCCUS CAPSULATUS (BATH)
1XMFB:36-263; B:36-263; D:71-308; D:71-308STRUCTURE OF MN(II)-SOAKED APO METHANE MONOOXYGENASE HYDROXYLASE CRYSTALS FROM M. CAPSULATUS (BATH)
1XMGB:36-263; B:36-263; D:71-308; D:71-308CRYSTAL STRUCTURE OF APO METHANE MONOOXYGENASE HYDROXYLASE FROM M. CAPSULATUS (BATH)
1XMHB:36-263; B:36-263; D:71-308; D:71-308STRUCTURE OF CO(II) RECONSTITUTED METHANE MONOOXYGENASE HYDROXYLASE FROM M. CAPSULATUS (BATH)
1XU3B:36-263; B:36-263; D:71-308; D:71-308SOLUBLE METHANE MONOOXYGENASE HYDROXYLASE-SOAKED WITH BROMOPHENOL
1XU5B:36-263; B:36-263; D:71-308; D:71-308SOLUBLE METHANE MONOOXYGENASE HYDROXYLASE-PHENOL SOAKED
1XVCB:36-263; B:36-263; D:71-308; D:71-308SOLUBLE METHANE MONOOXYGENASE HYDROXYLASE: 8-BROMOOCTANOL SOAKED STRUCTURE
1XVDB:36-263; B:36-263; D:71-308; D:71-308SOLUBLE METHANE MONOOXYGENASE HYDROXYLASE: 4-FLUOROPHENOL SOAKED STRUCTURE
1XVEB:36-263; B:36-263; D:71-308; D:71-308SOLUBLE METHANE MONOOXYGENASE HYDROXYLASE: 3-BROMO-3-BUTENOL SOAKED STRUCTURE
1XVFB:36-263; B:36-263; D:71-308; D:71-308SOLUBLE METHANE MONOOXYGENASE HYDROXYLASE: CHLOROPROPANOL SOAKED STRUCTURE
(-)
Methylosinus trichosporium (2)
1MHYD:36-263; B:74-311METHANE MONOOXYGENASE HYDROXYLASE
1MHZD:36-263; B:74-311METHANE MONOOXYGENASE HYDROXYLASE
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Pseudomonas sp. OX1 (4)
3N1XB:56-281; A:17-251X-RAY CRYSTAL STRUCTURE OF TOLUENE/O-XYLENE MONOOXYGENASE HYDROXYLASE T201C MUTANT
3N1YB:56-281; A:17-251X-RAY CRYSTAL STRUCTURE OF TOLUENE/O-XYLENE MONOOXYGENASE HYDROXYLASE T201G MUTANT
3N1ZB:56-281; A:17-251X-RAY CRYSTAL STRUCTURE OF TOLUENE/O-XYLENE MONOOXYGENASE HYDROXYLASE T201S MUTANT
3N20B:56-281; A:17-251X-RAY CRYSTAL STRUCTURE OF TOLUENE/O-XYLENE MONOOXYGENASE HYDROXYLASE T201V MUTANT
(-)
Pseudomonas stutzeri (Pseudomonas perfectomarina) (4)
1T0QA:17-251; B:56-281STRUCTURE OF THE TOLUENE/O-XYLENE MONOOXYGENASE HYDROXYLASE
1T0RA:17-251; B:56-281CRYSTAL STRUCTURE OF THE TOLUENE/O-XYLENE MONOOXYGENASE HYDROXUYLASE FROM PSEUDOMONAS STUTZERI-AZIDE BOUND
1T0SA:17-251; B:56-281STRUCTURE OF THE TOLUENE/O-XYLENE MONOOXYGENASE HYDROXYLASE WITH 4-BROMOPHENOL BOUND
2RDBA:17-251; B:56-281X-RAY CRYSTAL STRUCTURE OF TOLUENE/O-XYLENE MONOOXYGENASE HYDROXYLASE I100W MUTANT
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Family: Ribonuc_red_sm (41)
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Bacillus halodurans (1)
2RCCC:28-310; C:28-310; C:28-310CRYSTAL STRUCTURE OF PUTATIVE CLASS I RIBONUCLEOTIDE REDUCTASE (NP_241368.1) FROM BACILLUS HALODURANS AT 1.90 A RESOLUTION
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Chlamydia trachomatis (1)
1SYYA:22-318CRYSTAL STRUCTURE OF THE R2 SUBUNIT OF RIBONUCLEOTIDE REDUCTASE FROM CHLAMYDIA TRACHOMATIS
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Corynebacterium ammoniagenes (Brevibacterium ammoniagenes) (5)
1KGND:13-291; D:13-291; D:13-291; D:13-291R2F FROM CORYNEBACTERIUM AMMONIAGENES IN ITS OXIDISED, FE CONTAINING, FORM
1KGOD:13-291; D:13-291; D:13-291; D:13-291R2F FROM CORYNEBACTERIUM AMMONIAGENES IN ITS REDUCED, FE CONTAINING, FORM
1KGPD:13-291; D:13-291; D:13-291; D:13-291R2F FROM CORYNEBACTERIUM AMMONIAGENES IN ITS MN SUBSTITUTED FORM
1OQUD:13-291; D:13-291; D:13-291; D:13-291A PROTEIN COORDINATED TRI-NUCLEAR FE COMPLEX FORMED DURING SOAKING OF CRYSTALS OF THE RIBONUCLEOTIDE REDUCTASE R2F PROTEIN FROM CORYNEBACTERIUM AMMONIAGENES
3MJOB:13-291; B:13-291SMALL SUBUNIT (R2F) OF NATIVE RIBONUCLEOTIDE REDUCTASE FROM CORYNEBACTERIUM AMMONIAGENES
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Escherichia coli (strain K12) (22)
1JPRB:181-335; B:181-335; B:181-335; B:181-335MN SUBSTITUTED RIBONUCLEOTIDE REDUCTASE R2 FROM E. COLI OXIDIZED BY NITRIC OXIDE
1JQCB:181-335; B:181-335; B:181-335; B:181-335MN SUBSTITUTED RIBONUCLEOTIDE REDUCTASE R2 FROM E. COLI OXIDIZED BY HYDROGEN PEROXIDE AND HYDROXYLAMINE
1MRRB:181-335; B:181-335; B:181-335; B:181-335SUBSTITUTION OF MANGANESE FOR IRON IN RIBONUCLEOTIDE REDUCTASE FROM ESCHERICHIA COLI. SPECTROSCOPIC AND CRYSTALLOGRAPHIC CHARACTERIZATION
1MXRB:181-335; B:181-335; B:181-335; B:181-335HIGH RESOLUTION STRUCTURE OF RIBONUCLEOTIDE REDUCTASE R2 FROM E. COLI IN ITS OXIDISED (MET) FORM
1PFRB:181-335; B:181-335; B:181-335; B:181-335RIBONUCLEOSIDE-DIPHOSPHATE REDUCTASE 1 BETA CHAIN
1PIMB:181-335; B:181-335; B:181-335; B:181-335DITHIONITE REDUCED E. COLI RIBONUCLEOTIDE REDUCTASE R2 SUBUNIT, D84E MUTANT
1PIYB:181-335; B:181-335; B:181-335; B:181-335RIBONUCLEOTIDE REDUCTASE R2 SOAKED WITH FERROUS ION AT NEUTRAL PH
1PIZB:181-335; B:181-335; B:181-335; B:181-335RIBONUCLEOTIDE REDUCTASE R2 D84E MUTANT SOAKED WITH FERROUS IONS AT NEUTRAL PH
1PJ0B:181-335; B:181-335; B:181-335; B:181-335RIBONUCLEOTIDE REDUCTASE R2-D84E/W48F MUTANT SOAKED WITH FERROUS IONS AT NEUTRAL PH
1PM2B:181-335; B:181-335; B:181-335; B:181-335CRYSTAL STRUCTURE OF MANGANESE SUBSTITUTED R2-D84E (D84E MUTANT OF THE R2 SUBUNIT OF E. COLI RIBONUCLEOTIDE REDUCTASE)
1R65B:181-335; B:181-335; B:181-335; B:181-335CRYSTAL STRUCTURE OF FERROUS SOAKED RIBONUCLEOTIDE REDUCTASE R2 SUBUNIT (WILDTYPE) AT PH 5 FROM E. COLI
1RIBB:181-335; B:181-335; B:181-335; B:181-335STRUCTURE AND FUNCTION OF THE ESCHERICHIA COLI RIBONUCLEOTIDE REDUCTASE PROTEIN R2
1RSRB:181-335; B:181-335; B:181-335; B:181-335AZIDE COMPLEX OF THE DIFERROUS F208A MUTANT R2 SUBUNIT OF RIBONUCLEOTIDE REDUCTASE
1RSVB:181-335; B:181-335; B:181-335; B:181-335AZIDE COMPLEX OF THE DIFERROUS E238A MUTANT R2 SUBUNIT OF RIBONUCLEOTIDE REDUCTASE
1XIKB:181-335; B:181-335; B:181-335; B:181-335RIBONUCLEOSIDE-DIPHOSPHATE REDUCTASE 1 BETA CHAIN
1YFDB:181-335; B:181-335; B:181-335; B:181-335CRYSTAL STRUCTURE OF THE Y122H MUTANT OF RIBONUCLEOTIDE REDUCTASE R2 PROTEIN FROM E. COLI
2XOFB:181-335; B:181-335; B:181-335; B:181-335RIBONUCLEOTIDE REDUCTASE Y122NO2Y MODIFIED R2 SUBUNIT OF E. COLI
3N37A:5-281RIBONUCLEOTIDE REDUCTASE DIMANGANESE(II)-NRDF FROM ESCHERICHIA COLI
3N38A:6-281RIBONUCLEOTIDE REDUCTASE NRDF FROM ESCHERICHIA COLI SOAKED WITH FERROUS IONS
3N39B:6-281; B:6-281RIBONUCLEOTIDE REDUCTASE DIMANGANESE(II)-NRDF FROM ESCHERICHIA COLI IN COMPLEX WITH NRDI
3N3AB:6-281; B:6-281RIBONUCLEOTIDE REDUCTASE DIMANGANESE(II)-NRDF FROM ESCHERICHIA COLI IN COMPLEX WITH REDUCED NRDI
3N3BB:5-281; B:5-281RIBONUCLEOTIDE REDUCTASE DIMANGANESE(II)-NRDF FROM ESCHERICHIA COLI IN COMPLEX WITH REDUCED NRDI WITH A TRAPPED PEROXIDE
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Homo sapiens (Human) (2)
2VUXB:32-313; B:32-313HUMAN RIBONUCLEOTIDE REDUCTASE, SUBUNIT M2 B
2UW2A:70-350CRYSTAL STRUCTURE OF HUMAN RIBONUCLEOTIDE REDUCTASE SUBUNIT R2
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Mus musculus (Mouse) (3)
1W68A:71-348CRYSTAL STRUCTURE OF MOUSE RIBONUCLEOTIDE REDUCTASE SUBUNIT R2 UNDER OXIDIZING CONDITIONS. A FULLY OCCUPIED DINUCLEAR IRON CLUSTER.
1W69A:71-348CRYSTAL STRUCTURE OF MOUSE RIBONUCLEOTIDE REDUCTASE SUBUNIT R2 UNDER REDUCING CONDITIONS. A FULLY OCCUPIED DINUCLEAR IRON CLUSTER AND BOUND ACETATE.
1XSMA:71-352PROTEIN R2 OF RIBONUCLEOTIDE REDUCTASE FROM MOUSE
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Mycobacterium tuberculosis (1)
1UZRC:9-286; C:9-286; C:9-286CRYSTAL STRUCTURE OF THE CLASS IB RIBONUCLEOTIDE REDUCTASE R2F-2 SUBUNIT FROM MYCOBACTERIUM TUBERCULOSIS
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Plasmodium vivax (strain Salvador I) (1)
2O1ZB:30-309; B:30-309PLASMODIUM VIVAX RIBONUCLEOTIDE REDUCTASE SUBUNIT R2 (PV086155)
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Plasmodium yoelii yoelii (1)
2P1IH:47-309; H:47-309; H:47-309; H:47-309; H:47-309; H:47-309; H:47-309; H:47-309PLASMODIUM YOELII RIBONUCLEOTIDE REDUCTASE SUBUNIT R2 (PY03671)
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Saccharomyces cerevisiae (strain ATCC 204508 / S288c) (Bakers yeast) (2)
1JK0A:76-358; B:25-295RIBONUCLEOTIDE REDUCTASE Y2Y4 HETERODIMER
1SMQD:76-358; D:76-358; D:76-358; D:76-358STRUCTURE OF THE RIBONUCLEOTIDE REDUCTASE RNR2 HOMODIMER FROM SACCHAROMYCES CEREVISIAE
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Salmonella typhimurium (2)
1R2FB:6-281; B:6-281RIBONUCLEOTIDE REDUCTASE R2F PROTEIN FROM SALMONELLA TYPHIMURIUM
2R2FB:2-281; B:2-281RIBONUCLEOTIDE REDUCTASE R2F PROTEIN FROM SALMONELLA TYPHIMURIUM (OXIDIZED)
(-)
Family: Rubrerythrin (18)
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Cyanophora paradoxa (1)
3QHBB:31-173; B:31-173; B:31-173; B:31-173CRYSTAL STRUCTURE OF OXIDIZED SYMERYTHRIN FROM CYANOPHORA PARADOXA
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Desulfovibrio vulgaris (strain Hildenborough / ATCC 29579 / NCIMB 8303) (10)
1YUXB:31-160; B:31-160MIXED VALANT STATE OF NIGERYTHRIN
1YUZB:31-160; B:31-160PARTIALLY REDUCED STATE OF NIGERYTHRIN
1YV1B:31-160; B:31-160FULLY REDUCED STATE OF NIGERYTHRIN (ALL FERROUS)
1JYBA:11-139CRYSTAL STRUCTURE OF RUBRERYTHRIN
1LKMA:11-139CRYSTAL STRUCTURE OF DESULFOVIBRIO VULGARIS RUBRERYTHRIN ALL-IRON(III) FORM
1LKOA:11-139CRYSTAL STRUCTURE OF DESULFOVIBRIO VULGARIS RUBRERYTHRIN ALL-IRON(II) FORM
1LKPA:11-139CRYSTAL STRUCTURE OF DESULFOVIBRIO VULGARIS RUBRERYTHRIN ALL-IRON(II) FORM, AZIDE ADDUCT
1QYBA:11-139X-RAY CRYSTAL STRUCTURE OF DESULFOVIBRIO VULGARIS RUBRERYTHRIN WITH ZINC SUBSTITUTED INTO THE [FE(SCYS)4] SITE AND ALTERNATIVE DIIRON SITE STRUCTURES
1RYTA:11-139RUBRERYTHRIN
1S30A:11-139X-RAY CRYSTAL STRUCTURE OF DESULFOVIBRIO VULGARIS RUBRERYTHRIN WITH DISPLACEMENT OF IRON BY ZINC AT THE DIIRON SITE
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Magnetospirillum magneticum (strain AMB-1 / ATCC 700264) (1)
2OH3A:7-145CRYSTAL STRUCTURE OF COG1633: UNCHARACTERIZED CONSERVED PROTEIN (ZP_00055496.1) FROM MAGNETOSPIRILLUM MAGNETOTACTICUM MS-1 AT 2.00 A RESOLUTION
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Pyrococcus furiosus (5)
1NNQB:10-125; B:10-125RUBRERYTHRIN FROM PYROCOCCUS FURIOSUS PFU-1210814
3MPSK:10-125; K:10-125; K:10-125; K:10-125; K:10-125; K:10-125; K:10-125; K:10-125PEROXIDE BOUND OXIDIZED RUBRERYTHRIN FROM PYROCOCCUS FURIOSUS
3PWFB:10-125; B:10-125HIGH RESOLUTION STRUCTURE OF THE FULLY REDUCED FORM OF RUBRERYTHRIN FROM P. FURIOSUS
3PZAB:10-125; B:10-125FULLY REDUCED (ALL-FERROUS) PYROCOCCUS RUBRERYTHRIN AFTER A 10 SECOND EXPOSURE TO PEROXIDE.
3QVDH:10-125; H:10-125; H:10-125; H:10-125; H:10-125; H:10-125; H:10-125; H:10-125EXPOSURE OF RUBRERYTHRIN FROM PYROCOCCUS FURIOSUS TO PEROXIDE, FIFTEEN SECOND TIME POINT.
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Thermotoga maritima (1)
1VJXA:5-141CRYSTAL STRUCTURE OF A PUTATIVE FERRITIN-LIKE DIIRON-CARBOXYLATE PROTEIN (TM1526) FROM THERMOTOGA MARITIMA AT 2.30 A RESOLUTION