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enzyme (lysozyme)

 
Enzymes
  Enzyme classes:
  EC 1: Oxidoreductases
    EC 1.1
    EC 1.2
    EC 1.3
    EC 1.4
    EC 1.5
    EC 1.6
    EC 1.7
    EC 1.8
    EC 1.9
    EC 1.10
    EC 1.11
    EC 1.12
    EC 1.13
    EC 1.14
    EC 1.15
    EC 1.16
      EC 1.16.1
      EC 1.16.3
        EC 1.16.3.1
      EC 1.16.8
    EC 1.17
    EC 1.18
    EC 1.19
    EC 1.20
    EC 1.21
    EC 1.97
    EC 1.98
    EC 1.99
  EC 2: Transferases
  EC 3: Hydrolases
  EC 4: Lyases
  EC 5: Isomerases
  EC 6: Ligases
  General information:
  Catalytic mechanism
  Enzyme kinetics
  Inhibitors
  Enzymes in industry

EC 1.16.3.1 - Fe(II) :oxygen oxidoreductase (ferroxidase)



3D structures of EC 1.16.3.1 - ferroxidase in Protein Data Bank

updated: 6 January 2022, 2:15

In total: 254 PDB structures of EC 1.16.3.1 - ferroxidase:
  1. 1kcw: X-ray Crystal Structure of Human Ceruloplasmin at 3.0 Angstroms
  2. 3ka9: Frog M-ferritin, Eeh Mutant, with Cobalt
  3. 3ka8: Frog M-ferritin, Eqh Mutant, with Cobalt
  4. 3ka6: Frog M-ferritin, Eed Mutant, with Cobalt
  5. 3ka4: Frog M-ferritin with Cobalt
  6. 3ka3: Frog M-ferritin with Magnesium
  7. 6kh3: Design and Crystal Structure of Protein Mofs with Ferritin Nanocages as Linkers and Nickel Clusters as Nodes
  8. 3es3: Directing Noble Metal Ion Chemistry within a Designed Ferritin Protein. The Complex with Gold Ions. Ferritin H8- H9X Mutant
  9. 3erz: Directing Noble Metal Ion Chemistry within a Designed Ferritin Protein. Mercury Ions on The Three-fold Channel
  10. 3egm: Structural Basis of Iron Transport Gating in Helicobacter Pylori Ferritin
  11. 3e6s: Crystal Structure of Ferritin Soaked with Iron from Pseudo- Nitzschia Multiseries
  12. 3e6r: Crystal Structure of Apo-ferritin from Pseudo-nitzschia Multiseries
  13. 3e2c: Escherichia Coli Bacterioferritin Mutant E128R/E135R
  14. 3bvl: Structural Basis for The Iron Uptake Mechanism of Helicobacter Pylori Ferritin
  15. 3bvk: Structural Basis for The Iron Uptake Mechanism of Helicobacter Pylori Ferritin
  16. 3bvi: Structural Basis for The Iron Uptake Mechanism of Helicobacter Pylori Ferritin
  17. 3bvf: Structural Basis for The Iron Uptake Mechanism of Helicobacter Pylori Ferritin
  18. 3bve: Structural Basis for The Iron Uptake Mechanism of Helicobacter Pylori Ferritin
  19. 3ajq: Crystal Structure of Human H Ferritin E140Q Mutant
  20. 3ajp: Crystal Structure of Human H Ferritin E140A Mutant
  21. 3ajo: Crystal Structure of Wild-type Human Ferritin H Chain
  22. 3a9q: Crystal Structure Analysis of E173A Variant of The Soybean Ferritin Sfer4
  23. 3a68: Crystal Structure of Plant Ferritin Reveals a Novel Metal Binding Site That Functions as a Transit Site for Metal Transfer in Ferritin
  24. 2z6m: Crystal Structure of Human Ferritin H8 as Biotemplate for Noble Metal Nanoparticle Synthesis
  25. 2wlu: Iron-bound Crystal Structure of Streptococcus Pyogenes Dpr
  26. 6lrw: Marsupenaeus Japonicus Ferritin MUTANT(T158H) Ph 7.0
  27. 7kod: Cryo-em Structure of Heavy Chain Mouse Apoferritin
  28. 7k5h: 1.90 a Resolution Structure of Wt Bfrb from Pseudomonas Aeruginosa in Complex with a Protein-protein Interaction Inhibitor Km-5-66
  29. 7k5g: 1.95 a Resolution Structure of Wt Bfrb from Pseudomonas Aeruginosa in Complex with a Protein-protein Interaction Inhibitor Km-5-28
  30. 7k5f: 1.90 a Resolution Structure of Wt Bfrb from Pseudomonas Aeruginosa in Complex with a Protein-protein Interaction Inhibitor Km-5-50
  31. 7k5e: 1.75 a Resolution Structure of Wt Bfrb from Pseudomonas Aeruginosa in Complex with a Protein-protein Interaction Inhibitor Jag-5-7
  32. 6ljg: Crassostrea Gigas Ferritin MUTANT-D119G
  33. 6lij: Crassostrea Gigas Ferritin
  34. 7k3w: Apoferritin Structure at 1.36 Angstrom Resolution Determined from a 300 Kv Titan Krios G3I Electron Microscope with Falcon4 Detector
  35. 7k3v: Apoferritin Structure at 1.34 Angstrom Resolution Determined from a 300 Kv Titan Krios G3I Electron Microscope with K3 Detector
  36. 7k26: Crystal Structure of Human H-chain Ferritin Variant Infused with Sodium Acrylate
  37. 7jgq: Crystal Structure of The Ni-bound Human Heavy-chain Variant 122h-delta C-star with 2,5-furandihyrdoxamate Collected at 278k after One Heating/cooling Cycle
  38. 7jgp: Crystal Structure of The Ni-bound Human Heavy-chain Variant 122h-delta C-star with 2,5-furandihyrdoxamate at 318k
  39. 7jgo: Crystal Structure of The Ni-bound Human Heavy-chain Variant 122h-delta C-star with 2,5-furandihyrdoxamate Collected at 278k
  40. 7jgk: Crystal Structure of The Ni-bound Human Heavy-chain Variant 122h-delta C-star with 2,5-furandihyrdoxamate Collected at 100k
  41. 7a6b: 1.33 a Structure of Human Apoferritin Obtained from Titan Mono- Bcor Microscope
  42. 7a6a: 1.15 a Structure of Human Apoferritin Obtained from Titan Mono- Bcor Microscope
  43. 7a4m: Cryo-em Structure of Mouse Heavy-chain Apoferritin at 1.22 a
  44. 2cei: Recombinant Human H Ferritin, K86Q Mutant, Soaked with Zn
  45. 2chi: Recombinant Human H Ferritin, K86Q and E27D Mutant
  46. 2cih: Recombinant Human H Ferritin, K86Q and E27D Mutant, Soaked with Zn
  47. 2clu: Recombinant Human H Ferritin, K86Q and E107D Mutant
  48. 2cn6: Recombinant Human H Ferritin, K86Q and E107D Mutant, Soaked with Zn Ions
  49. 2cn7: Recombinant Human H Ferritin, K86Q, E27D and E107D Mutant
  50. 6b8g: Twice-contracted Human Heavy-chain Ferritin Crystal-hydrogel Hybrid
  51. 6b8f: Contracted Human Heavy-chain Ferritin Crystal-hydrogel Hybrid
  52. 6a4u: The First Crystal Structure of Crustacean Ferritin That Is a Hybrid Type of H and L Ferritin
  53. 5znd: 8-mer Nanotube Derived from 24-mer Rhuhf Nanocage
  54. 5z91: Human Mitochondrial Ferritin Mutant Bound with Gold Ions
  55. 5z8u: Human Mitochondrial Ferritin Mutant - C102A/C130A
  56. 5z8s: Human Mitochondrial Ferritin Mutant - C102A/C130A/E27C/E61C/E62C
  57. 5z8j: Human Mitochondrial Ferritin Mutant - E27C/E62C/C102G/C130G
  58. 2htn: E. Coli Bacterioferritin in Its As-isolated Form
  59. 2iu2: Recombinant Human H Ferritin, K86Q, E27D and E107D Mutant, Soaked with Zn Ions
  60. 2j5w: Ceruloplasmin Revisited: Structural and Functional Roles of Various Metal Cation Binding Sites
  61. 6wyh: Crystal Structure of Human H-chain Ferritin Variant 157c Delta C-star Modified with a Raft Agent Soaked in an Acrylate Solution
  62. 6wyg: Crystal Structure of Human H-chain Ferritin Variant 157c Delta C-star Modified with a Raft Agent
  63. 6wyf: Crystal Structure of Human H-chain Ferritin Variant 157c Delta C-star Modified with a Raft Agent Soaked in an Acrylate Solution
  64. 6ls2: Marsupenaeus Japonicus Ferritin Mutant (T158H) Ph 4.0
  65. 6lrx: Marsupenaeus Japonicus Ferritin MUTANT(T158H)
  66. 6lrv: Marsupenaeus Japonicus Ferritin MUTANT(T158H) Ph9.0
  67. 6lru: Marsupenaeus Japonicus Ferritin Mutant (T158H)
  68. 6lbd: Shrimp Ferritin T158R G159R
  69. 6lbc: Shrimp FERRITIN-T158R
  70. 6z9f: 1.56 a Structure of Human Apoferritin Obtained from Data Subset of Titan Mono-bcor Microscope
  71. 6z9e: 1.55 a Structure of Human Apoferritin Obtained from Data Subset of Titan Mono-bcor Microscope
  72. 6z6u: 1.25 a Structure of Human Apoferritin Obtained from Titan Mono-bcor Microscope
  73. 6sht: Molecular Structure of Mouse Apoferritin Resolved at 2.7 Angstroms with The Glacios Cryo-microscope
  74. 6p8l: Escherichia Coli Bacterioferritin Substituted with Zinc Protoporphyrin IX (zn Absorption Edge X-ray Data)
  75. 6p8k: Escherichia Coli Bacterioferritin Substituted with Zinc Protoporphyrin IX
  76. 6m54: Human Apo Ferritin Frozen on Tem Grid with Amorphous Nickel Titanium Alloy Supporting Film
  77. 6m52: Human Apo Ferritin Frozen on Tem Grid with Amorphous Carbon Supporting Film
  78. 6lp5: Structure of Sinonovacula Constricta Ferritin
  79. 6job: Ferritin Variant with "gmg" Motif
  80. 3s4m: Crystal Structure of Wild-type Human Frataxin
  81. 3s5d: Crystal Structure of Human Frataxin Variant W155A
  82. 3s5e: Crystal Structure of Human Frataxin Variant W155R, One of The Friedreich's Ataxia Point Mutations
  83. 3s5f: Crystal Structure of Human Frataxin Variant W155F
  84. 3t3j: 1.70 a Structure of Friedreich's Ataxia Frataxin Variant N146K
  85. 3t3k: 1.24 a Structure of Friedreich's Ataxia Frataxin Variant Q148R
  86. 3t3l: 1.15 a Structure of Human Frataxin Variant Q153A
  87. 3t3t: 1.38 a Structure of Human Frataxin Variant Q148G
  88. 3t3x: 1.57 a Structure of Friedreich's Ataxia Frataxin Variant R165C
  89. 6s61: Apoferritin from Mouse at 1.84 Angstrom Resolution
  90. 3se1: Frog M-ferritin with Magnesium, R72D Mutant
  91. 3sh6: Frog M-ferritin, D122R Mutant, with Magnesium
  92. 3shx: Frog M-ferritin with Magnesium, L134P Mutant
  93. 3vnx: Crystal Structure of Ferritin from Multicellular Green Algae, Ulva Pertusa.
  94. 3rbc: Bullfrog M Ferritin with Iron(iii) Bound to The Ferroxidase Site
  95. 3re7: Copper (ii) Loaded Bullfrog Ferritin M Chain
  96. 3rgd: Iron Loaded Frog M Ferritin. Short Soaking Time
  97. 6nzu: Structure of The Human Frataxin-bound Iron-sulfur Cluster Assembly Complex
  98. 6nln: 1.60 a Resolution Structure of Wt Bfrb from Pseudomonas Aeruginosa in Complex with a Protein-protein Interaction Inhibitor (analog 16)
  99. 6nlm: 1.90 a Resolution Structure of Wt Bfrb from Pseudomonas Aeruginosa in Complex with a Protein-protein Interaction Inhibitor (analog 15)
  100. 6nll: 1.80 a Resolution Structure of Wt Bfrb from Pseudomonas Aeruginosa in Complex with a Protein-protein Interaction Inhibitor (analog 14)
  101. 6nlk: 1.85 a Resolution Structure of Wt Bfrb from Pseudomonas Aeruginosa in Complex with a Protein-protein Interaction Inhibitor (analog 13)
  102. 6nlj: 1.65 a Resolution Structure of Apo Bfrb from Pseudomonas Aeruginosa in Complex with a Protein-protein Interaction Inhibitor (analog 12)
  103. 6nli: 1.90 a Resolution Structure of Wt Bfrb from Pseudomonas Aeruginosa in Complex with a Protein-protein Interaction Inhibitor (analog 11)
  104. 6nlg: 1.50 a Resolution Structure of Bfrb (C89S/K96C) from Pseudomonas Aeruginosa in Complex with a Small Molecule Fragment (analog 1)
  105. 6nlf: 1.45 a Resolution Structure of Apo Bfrb from Pseudomonas Aeruginosa
  106. 6l58: Cu(ii) Loaded Tegillarca Granosa M-ferritin Soaked with Fe(ii)
  107. 6l56: Fe(ii) Loaded Tegillarca Granosa Ferritin
  108. 6l55: Recombinant Tegillarca Granosa Ferritin
  109. 6kzy: Cu(ii) Loaded Tegillarca Granosa Ferritin
  110. 6ke4: Abloop Reengineered Ferritin Nanocage
  111. 6ke2: Abloop Reengineered Ferritin Nanocage
  112. 6j7g: Human H-ferritin MUTANT-C90A/C102A/C130A/D144C
  113. 6j4m: Thermal Treated Soybean Seed H-2 Ferritin
  114. 6j4j: Soybean Seed H-2 Ferritin
  115. 6j4a: Human H Chain Ferritin with an Extension Peptide
  116. 6ipq: Non-native Ferritin 8-mer MUTANT-C90A/C102A/C130A
  117. 6ipp: Non-native Ferritin 8-mer MUTANT-C90A/C102A/C130A/D144C
  118. 6ipo: Ferritin Mutant C90A/C102A/C130A/D144C
  119. 6ipc: Non-native Human Ferritin 8-mer
  120. 6iaj: Sixty Minutes Iron Loaded Rana Catesbeiana H' Ferritin Variant H54N
  121. 6iaf: Fifteen Minutes Iron Loaded Rana Catesbeiana H' Ferritin Variant H54N
  122. 6i9t: Two Minutes Iron Loaded Rana Catesbeiana H' Ferritin Variant H54N
  123. 6i9p: Iron-free State of Rana Catesbeiana H' Ferritin Variant H54N
  124. 6i36: Sixty Minutes Iron Loaded Frog M Ferritin
  125. 3uof: Mycobacterium Tuberculosis Bacterioferritin, Bfra
  126. 3uoi: Mycobacterium Tuberculosis Bacterioferritin, Bfra
  127. 4das: Crystal Structure of Bullfrog M Ferritin
  128. 4dyx: Crystal Structure of The Cu-adduct of Human H-ferritin Variant 4his- Delta C-star
  129. 4dyy: Crystal Structure of The Cu-adduct of Human H-ferritin Variant Mic1
  130. 4dyz: Crystal Structure of The Apo Form of Human H-ferritin Variant Mic1
  131. 4dz0: Crystal Structure of The Cu-adduct of Human H-ferritin Variant Mic1 Labeled with a Dansyl Fluorophore
  132. 4ec2: Crystal Structure of Trimeric Frataxin from The Yeast Saccharomyces Cerevisiae, Complexed with Ferrous
  133. 6h6u: Unitary Crystal Structure of The Positively Supercharged Variant Ftn(pos) from Human Heavy Chain Ferritin (peg 400 Condition)
  134. 6h6t: Binary Crystal Structure of Positively and Negatively Supercharged Variants Ftn(pos) and Ftn(neg) from Human Heavy Chain Ferritin (propandiol Condition, Coordination Number 8)
  135. 6kh4: Design and Crystal Structure of Protein Mofs with Ferritin Nanocages as Linkers and Nickel Clusters as Nodes
  136. 6kh5: Design and Crystal Structure of Protein Mofs with Ferritin Nanocages as Linkers and Nickel Clusters as Nodes
  137. 4ejx: Structure of Ceruloplasmin-myeloperoxidase Complex
  138. 4enz: Structure of Human Ceruloplasmin at 2.6 a Resolution
  139. 6ftv: X-ray Structure of Human Heavy Chain Ferritin in Complex with Nami a
  140. 6v21: Mouse Heavy Chain Apoferritin Determined Using Single-particle Cryo-em at 200 Kev
  141. 6kh1: Design and Crystal Structure of Protein Mofs with Ferritin Nanocages as Linkers and Nickel Clusters as Nodes
  142. 4cvp: Structure of Apobacterioferritin
  143. 4cvr: Structure of Apobacterioferritin Y25F Variant
  144. 4cvs: Structure of Apobacterioferritin Y45F Variant
  145. 4lpj: One Minute Iron Loaded Frog M Ferritin
  146. 4lpm: Frog M-ferritin with Magnesium, D127E Mutant
  147. 4lpn: Frog M-ferritin with Cobalt, D127E Mutant
  148. 4lqh: High Resolution Structure of Native Frog M Ferritin
  149. 4lqj: Two Minutes Iron Loaded Frog M Ferritin
  150. 4lqv: Thrirty Minutes Iron Loaded Frog M Ferritin
  151. 4lyu: Fifteen Minutes Iron Loaded Frog M Ferritin
  152. 4lyx: Five Minutes Iron Loaded Frog M Ferritin
  153. 4mjy: Sixty Minutes Iron Loaded Frog M Ferritin Mutant H54Q
  154. 4mku: Frog M Ferritin Mutant H54Q
  155. 4ml5: One Minute Iron Loaded Frog M Ferritin Mutant H54Q
  156. 4mn9: Fifteen Minutes Iron Loaded Frog M Ferritin Mutant H54Q
  157. 4my7: Frog M Ferritin Iron-loaded under Anaerobic Environment
  158. 4p18: Crystal Structure of Frog M Ferritin Mutant D80K
  159. 5yi5: Human Ferritin Mutant - E-helix Deletion
  160. 5xx9: Crystal Structure of Bacterioferritin
  161. 5xho: Crystal Structure of Frog M-ferritin E135K Mutant
  162. 5xhn: Crystal Structure of Frog M-ferritin K104E Mutant
  163. 5xhm: Crystal Structure of Frog M-ferritin D40A Mutant
  164. 5xhi: Crystal Structure of Frog M-ferritin D38A Mutant
  165. 5xgo: The Ferritin E-domain: toward Understanding Its Role in Protein Cage Assembly through The Crystal Structure of a Maxi-/mini-ferritin Chimera
  166. 5xb1: Human Ferritin Mutant - E-helix Deletion
  167. 5wpn: Zn-bound Structure of Chaetopterus Variopedatus Ferritin
  168. 5vtd: Crystal Structure of The Co-bound Human Heavy-chain Ferritin Variant 122h-delta C-star
  169. 4reu: Revelation of Endogenously Bound Fe2+ Ions in The Crystal Structure of Ferritin from Escherichia Coli
  170. 5up9: Crystal Structure of Zn-bound Human Heavy-chain Ferritin Variant 122h- Delta C-star with Para-xylenedihydroxamate
  171. 5up8: Crystal Structure of The Zn-bound Human Heavy-chain Variant 122h-delta C-star with Para-benzenedihydroxamate
  172. 5up7: Crystal Structure of The Ni-bound Human Heavy-chain Ferritin 122h- Delta C-star Variant
  173. 5tre: Zinc and The Iron Donor Frataxin Regulate Oligomerization of The Scaffold Protein to Form New Fe-s Cluster Assembly Centers
  174. 5t0v: Architecture of The Yeast Mitochondrial Iron-sulfur Cluster Assembly Machinery: The Sub-complex Formed by The Iron Donor, Yfh1, and The Scaffold, Isu1
  175. 5obb: Structure of a Modified Mouse H Chain Ferritin with a Lanthanide Binding Motif in Complex with Terbium
  176. 5oba: Structure of a Modified Mouse H-chain Ferritin with a Lanthanide Binding Motif
  177. 5n27: X-ray Structure of Human Heavy Chain Ferritin (apo Form)
  178. 5n26: X-ray Structure of Human Heavy Chain Ferritin in Complex with Cisplatin
  179. 5kz5: Architecture of The Human Mitochondrial Iron-sulfur Cluster Assembly Machinery: The Complex Formed by The Iron Donor, The Sulfur Donor, and The Scaffold
  180. 5jkm: Binary Crystal Structure of Positively and Negatively Supercharged Variants Ftn(pos) and Ftn(neg) from Human Heavy Chain Ferritin (mg Acetate Condition)
  181. 5jkl: Binary Crystal Structure of Positively and Negatively Supercharged Variants Ftn(pos) and Ftn(neg) from Human Heavy Chain Ferritin (mg Formate Condition)
  182. 5jkk: Crystal Structure of The Negatively Supercharged Variant Ftn(neg) of Human Heavy Chain Ferritin
  183. 5jac: Sixty Minutes Iron Loaded Rana Catesbeiana H' Ferritin Variant E57A/E136A/D140A
  184. 5j9v: Ten Minutes Iron Loaded Rana Catesbeiana H' Ferritin Variant E57A/E136A/D140A
  185. 5j93: Five Minutes Iron Loaded Rana Catesbeiana H' Ferritin Variant E57A/E136A/D140A
  186. 5j8w: One Minute Iron Loaded Rana Catesbeiana H' Ferritin Variant E57A/E136A/D140A
  187. 5j8s: Iron-free State of Rana Catesbeiana H' Ferritin Variant E57A/E136A/D140A
  188. 6kh0: Design and Crystal Structure of Protein Mofs with Ferritin Nanocages as Linkers and Nickel Clusters as Nodes
  189. 5gou: Structure of a 16-mer Protein Nanocage Fabricated from Its 24-mer Analogue by Subunit Interface Redesign
  190. 5gn8: Structure of a 48-mer Protein Nanocage Fabricated from Its 24-mer Analogue by Subunit Interface Redesign
  191. 5d8y: 2.05a Resolution Structure of Iron Bound Bfrb (L68A E81A) from Pseudomonas Aeruginosa
  192. 5d8x: 1.50a Resolution Structure of Bfrb (L68A E81A) from Pseudomonas Aeruginosa
  193. 5d8s: 2.55a Resolution Structure of Bfrb (E85A) from Pseudomonas Aeruginosa
  194. 5d8r: 2.50a Resolution Structure of Bfrb (E81A) from Pseudomonas Aeruginosa
  195. 5d8q: 2.20a Resolution Structure of Bfrb (L68A) from Pseudomonas Aeruginosa
  196. 5d8p: 2.35a Resolution Structure of Iron Bound Bfrb (wild-type, C2221 Form) from Pseudomonas Aeruginosa
  197. 5d8o: 1.90a Resolution Structure of Bfrb (wild-type, C2221 Form) from Pseudomonas Aeruginosa
  198. 5cmr: Crystal Structure of Linker-mediated Zn-bound Human H-ferritin Variant 122h-delta C-star
  199. 5cmq: Crystal Structure of Zn-bound Human H-ferritin Variant 122h-delta C- Star
  200. 4u3g: Crystal Structure of Escherichia Coli Bacterioferritin Mutant D132F
  201. 3wnw: Structure of Mouse H-chain Modified Ferritin
  202. 4to9: 2.0a Resolution Structure of Bfrb (N148L) from Pseudomonas Aeruginosa
  203. 4toa: 1.95a Resolution Structure of Iron Bound Bfrb (N148L) from Pseudomonas Aeruginosa
  204. 4tob: 1.95a Resolution Structure of Bfrb (Q151L) from Pseudomonas Aeruginosa
  205. 4toc: 2.25a Resolution Structure of Iron Bound Bfrb (Q151L) from Pseudomonas Aeruginosa
  206. 4tod: 2.05a Resolution Structure of Bfrb (D34F) from Pseudomonas Aeruginosa
  207. 4toe: 2.20a Resolution Structure of Iron Bound Bfrb (D34F) from Pseudomonas Aeruginosa
  208. 4tof: 1.65a Resolution Structure of Bfrb (C89S, K96C) Crystal Form 1 from Pseudomonas Aeruginosa
  209. 4tog: 1.80a Resolution Structure of Bfrb (C89S, K96C) Crystal Form 2 from Pseudomonas Aeruginosa
  210. 4toh: 1.80a Resolution Structure of Iron Bound Bfrb (C89S, K96C) from Pseudomonas Aeruginosa
  211. 4zmc: Crystal Structure of The Pmftn Variant E130A Soaked in Iron (5 Min)
  212. 4zlw: Crystal Structure of The Pmftn Variant E130A Soaked in Iron (overnight)
  213. 4zl6: Crystal Structure of The Pmftn Variant E44H Soaked in Iron (3 H)
  214. 4zl5: Crystal Structure of The Pmftn Variant E44H Soaked in Iron (45 Min)
  215. 4zkx: Crystal Structure of The Pmftn Variant E44Q Soaked in Iron (5 Min)
  216. 4zkw: Crystal Structure of The Pmftn Variant E44Q Soaked in Iron (45 Min)
  217. 4zkh: Crystal Structure of The Pmftn Variant E44Q Soaked in Iron (overnight)
  218. 4zjk: Five Minutes Iron Loaded Human H Ferritin
  219. 4ykh: Thirty Minutes Iron Loaded Human H Ferritin
  220. 4oyn: Fifteen Minutes Iron Loaded Human H Ferritin
  221. 4xks: E. Coli Bfr Variant Y45F
  222. 4xkt: E Coli Bfr Variant Y149F
  223. 4xku: E Coli Bfr Variant Y114F
  224. 4y08: One Minute Iron Loaded Human H Ferritin
  225. 6k3o: Cryo-em Structure of Apo-bacterioferritin from Streptomyces Coelicolor
  226. 6k43: Cryo-em Structure of Holo-bacterioferritin-form-i from Streptomyces Coelicolor
  227. 6k4m: Cryo-em Structure of Holo-bacterioferritin Form-ii from Streptomyces Coelicolor
  228. 6lpe: Phascolosoma Esculenta Ferritin
  229. 7o6e: 2.12 a Cryo-em Structure of Mycobacterium Tuberculosis Ferritin
  230. 7ck8: Crystal Structure of Human Ferritin Heavy Chain Mutant C90S/C102S/C130S
  231. 7ck9: Crystal Structure of Doxorubicin Loaded Human Ferritin Heavy Chain
  232. 7cpc: His-mediated Reversible Self-assembly of Ferritin Nanocage with Ni Binding
  233. 7cpi: His-mediated Reversible Self-assembly of Ferritin Nanocage with Zn Binding
  234. 7rrp: Apoferritin Structure at 1.27 Angstrom Resolution Determined from a 300 Kv Titan Krios G3I Electron Microscope with Falcon4 Detector
  235. 7ke3: Heavy Chain Ferritin with C-terminal Ebna1 Epitope
  236. 7ke5: Heavy Chain Ferritin with N-terminal Ebna1 Epitope
  237. 7o63: High Resolution Crystal Structure of Human Mitochondrial Ferritin (hmtf)
  238. 7o64: Crystal Structure of Human Mitochondrial Ferritin (hmtf) Fe(ii)-loaded for 1 Minute.
  239. 7o65: Crystal Structure of Human Mitochondrial Ferritin (hmtf) Fe(ii)-loaded for 90 Minutes Showing Either a Dioxygen or a Superoxide Anion Coordinated to Iron Ions in The Ferroxidase Site
  240. 7o66: Crystal Structure of Human Mitochondrial Ferritin (hmtf) Fe(ii)-loaded for 60 Minutes Showing Either a Dioxygen or a Superoxide Anion Coordinated to Iron Ions in The Ferroxidase Site
  241. 7o67: Crystal Structure of Human Mitochondrial Ferritin (hmtf) Fe(ii)-loaded for 15 Minutes Showing Either a Dioxygen or a Superoxide Anion Coordinated to Iron Ions in The Ferroxidase Site
  242. 7o68: Crystal Structure of Human Mitochondrial Ferritin (hmtf) Fe(ii)-loaded for 120 Minutes Showing Either a Dioxygen or a Superoxide Anion Coordinated to Iron Ions in The Ferroxidase Site
  243. 7o69: Crystal Structure of Human Mitochondrial Ferritin (hmtf) Fe(ii)-loaded for 5 Minutes Showing a Peroxide Anion as Bridging Species of Iron Ions in The Ferroxidase Site
  244. 7o6a: Crystal Structure of Human Mitochondrial Ferritin (hmtf) Fe(ii)-loaded for 5 Minutes under Anaerobic Environment
  245. 7o6c: Crystal Structure of Human Mitochondrial Ferritin (hmtf) Fe(ii)-loaded for 15 Minutes under Anaerobic Environment
  246. 7o6d: Crystal Structure of Human Mitochondrial Ferritin (hmtf) Fe(ii)-loaded for 3 Minutes under Anaerobic Environment
  247. 7owy: Crystal Structure of Human Mitochondrial Ferritin (hmtf) Fe(ii)-loaded for 3 Minutes Showing a Peroxide Anion as Bridging Species of Iron Ions in The Ferroxidase Site
  248. 7dlb: Crassostrea Gigas Ferritin MUTANT-D119K
  249. 7dqo: Marsupenaeus Japonicus Ferritin MUTANT-D132R
  250. 7dqp: Thermal Treated Marsupenaeus Japonicus Ferritin
  251. 7ek4: Prawn Ferritin to Coordinate with Heavy Metal Ions
  252. 7ek5: Prawn Ferritin to Coordinate with Heavy Metal Ions
  253. 7ek7: Prawn Ferritin to Coordinate with Heavy Metal Ions
  254. 7vd8: 1.96 a Structure of Human Apoferritin Obtained from Talos Arctica Microscope
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