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enzyme (lysozyme)

 
Enzymes
  Enzyme classes:
  EC 1: Oxidoreductases
  EC 2: Transferases
  EC 3: Hydrolases
    EC 3.1
    EC 3.2
    EC 3.3
    EC 3.4
    EC 3.5
      EC 3.5.1
      EC 3.5.2
      EC 3.5.3
        EC 3.5.3.1
        EC 3.5.3.2
        EC 3.5.3.3
        EC 3.5.3.4
        EC 3.5.3.5
        EC 3.5.3.6
        EC 3.5.3.7
        EC 3.5.3.8
        EC 3.5.3.9
        EC 3.5.3.10
        EC 3.5.3.11
        EC 3.5.3.12
        EC 3.5.3.13
        EC 3.5.3.14
        EC 3.5.3.15
        EC 3.5.3.16
        EC 3.5.3.17
        EC 3.5.3.18
        EC 3.5.3.19
        EC 3.5.3.20
        EC 3.5.3.21
        EC 3.5.3.22
        EC 3.5.3.23
      EC 3.5.4
      EC 3.5.5
      EC 3.5.99
    EC 3.6
    EC 3.7
    EC 3.8
    EC 3.9
    EC 3.10
    EC 3.11
    EC 3.12
    EC 3.13
  EC 4: Lyases
  EC 5: Isomerases
  EC 6: Ligases
  General information:
  Catalytic mechanism
  Enzyme kinetics
  Inhibitors
  Enzymes in industry

EC 3.5.3.1 - L- arginine amidinohydrolase (arginase)



3D structures of EC 3.5.3.1 - arginase in Protein Data Bank

updated: 9 February 2012, 15:47

In total: 71 PDB structures of EC 3.5.3.1 - arginase:
  1. 1cev: Arginase from Bacillus Caldovelox, Native Structure at Ph 5.6
  2. 1d3v: Crystal Structure of The Binuclear Manganese Metalloenzyme Arginase Complexed with 2(s)-amino-6-boronohexanoic Acid, an L-arginine Analog
  3. 1hq5: Crystal Structure of The Binuclear Manganese Metalloenzyme Arginase Complexed with S-(2-boronoethyl)-l-cysteine, an L- Arginine Analogue
  4. 1hqf: Crystal Structure of The Binuclear Manganese Metalloenzyme Arginase Complexed with N-hydroxy-l-arginine
  5. 1hqg: Crystal Structure of The H141C Arginase Variant Complexed with Products Ornithine and Urea
  6. 1hqh: Crystal Structure of The Binuclear Manganese Metalloenzyme Arginase Complexed with Nor-n-hydroxy-l-arginine
  7. 1hqx: R308K Arginase Variant
  8. 5rla: Altering The Binuclear Manganese Cluster of Arginase Diminishes Thermostability and Catalytic Function
  9. 5cev: Arginase from Bacillus Caldevelox, L-lysine Complex
  10. 4rla: Altering The Binuclear Manganese Cluster of Arginase Diminishes Thermostability and Catalytic Function
  11. 4cev: Arginase from Bacillus Caldevelox, L-ornithine Complex
  12. 3rla: Altering The Binuclear Manganese Cluster of Arginase Diminishes Thermostability and Catalytic Function
  13. 3mmr: Structure of Plasmodium Falciparum Arginase in Complex with Abh
  14. 3mjl: Crystal Structure of Human Arginase I in Complex with 2- Aminoimidazole. Resolution 1.90 A.
  15. 3mfw: Crystal Structure of Human Arginase I in Complex with L-2- Aminohistidine and Sulphate
  16. 3mfv: Crystal Structure of Human Arginase I in Complex with 2- Aminohomohistidine
  17. 3lp7: Crystal Structure of Human Arginase I in Complex with Inhibitor N(omega)-hydroxy-l-arginine (noha), 2.04a Resolution
  18. 3lp4: Crystal Structure of Human Arginase I in Complex with L-lysine, 1.90a Resolution.
  19. 3kv2: High Resolution Structure of Human Arginase I in Complex with The Strong Inhibitor N(omega)-hydroxy-nor-l-arginine (nor-noha)
  20. 1p8m: Structural and Functional Importance of First-shell Metal Ligands in The Binuclear Manganese Cluster of Arginase I.
  21. 1p8n: Structural and Functional Importance of First-shell Metal Ligands in The Binuclear Manganese Cluster of Arginase I.
  22. 1p8o: Structural and Functional Importance of First-shell Metal Ligands in The Binuclear Manganese Cluster of Arginase I.
  23. 1p8p: Structural and Functional Importance of First-shell Metal Ligands in The Binuclear Manganese Cluster of Arginase I.
  24. 1p8q: Structural and Functional Importance of First-shell Metal Ligands in The Binuclear Cluster of Arginase I.
  25. 1p8r: Structural and Functional Importance of First-shell Metal Ligands in The Binuclear Manganese Cluster of Arginase I.
  26. 1p8s: Structural and Functional Importance of First-shell Metal Ligands in The Binuclear Manganese Cluster of Arginase I.
  27. 1pq3: Human Arginase Ii: Crystal Structure and Physiological Role in Male and Female Sexual Arousal
  28. 1r1o: Amino Acid Sulfonamides as Transition-state Analogue Inhibitors of Arginase
  29. 3gn0: Crystal Structure of Human Arginase I in Complex with Difluoromethylornithine (dfmo)
  30. 3gmz: Crystal of Human Arginase in Complex with L-ornithine. Resolution 1.43 A.
  31. 1rla: Three-dimensional Structure of Rat Liver Arginase, The Binuclear Manganese Metalloenzyme of The Urea Cycle
  32. 3f80: (s)-2-amino-6-nitrohexanoic Acid Binds to Human Arginase I through Multiple Nitro-metal Coordination Interactions in The Binuclear Manganese Cluster. Resolution 1.60 A.
  33. 1t4p: Arginase-dehydro-abh Complex
  34. 1t4r: Arginase-descarboxy-nor-noha Complex
  35. 1t4s: Arginase-l-valine Complex
  36. 1t4t: Arginase-dinor-noha Complex
  37. 1t5f: Arginase I-aoh Complex
  38. 1t5g: Arginase-f2-l-arginine Complex
  39. 1ta1: H141C Mutant of Rat Liver Arginase I
  40. 1tbh: H141D Mutant of Rat Liver Arginase I
  41. 1tbj: H141A Mutant of Rat Liver Arginase I
  42. 1tbl: H141N Mutant of Rat Liver Arginase I
  43. 3e9b: X-ray Structure of Rat Arginase I-T135A Mutant: The Complex with Bec
  44. 3e8z: X-ray Structure of Rat Arginase I-N130A Mutant: The Unliganded Complex
  45. 3e8q: X-ray Structure of Rat Arginase I-T135A: The Unliganded Complex
  46. 3e6v: X-ray Structure of Human Arginase I-D183N Mutant: The Complex with Abh
  47. 3e6k: X-ray Structure of Human Arginase I: The Mutant D183A in Complex with Abh
  48. 3dj8: Synthesis of (2s)-2-amino-7,8-epoxyoctanoic Acid and Structure of Its Metal-bridging Complex with Human Arginase I
  49. 3cev: Arginase from Bacillus Caldevelox, Complexed with L-arginine
  50. 1wva: Crystal Structure of Human Arginase I from Twinned Crystal
  51. 1wvb: Crystal Structure of Human Arginase I: The Mutant E256Q
  52. 2zav: Arginase I (homo Sapiens): Native and Unliganded Structure at 1.70 a Resolution
  53. 1zpe: Arginase I Covalently Modified with Butylamine at Q19C
  54. 1zpg: Arginase I Covalently Modified with Propylamine at Q19C
  55. 2aeb: Crystal Structure of Human Arginase I at 1.29 a Resolution and Exploration of Inhibition in Immune Response.
  56. 2rla: Altering The Binuclear Manganese Cluster of Arginase Diminishes Thermostability and Catalytic Function
  57. 2cev: Arginase from Bacillus Caldevelox, Native Structure at Ph 8.5
  58. 2pll: Crystal Structure of Perdeuterated Human Arginase I
  59. 2pho: Crystal Structure of Human Arginase I Complexed with Thiosemicarbazide at 1.95 Resolution
  60. 2pha: Crystal Structure of Native, Unliganded Human Arginase at 1.90 Resolution
  61. 2ef4: Crystal Structure of The Arginase from Thermus Thermophilus
  62. 2ef5: Crystal Structure of The Arginase from Thermus Thermophilus
  63. 3sjt: Crystal Structure of Human Arginase I in Complex with The Inhibitor Me-abh, Resolution 1.60 A, Twinned Structure
  64. 3skk: Crystal Structure of Human Arginase I in Complex with The Inhibitor Fabh, Resolution 1.70 A, Twinned Structure
  65. 3sl0: Crystal Structure of P. Falciparum Arginase Complexed with 2-amino-6- Borono-2-(difluoromethyl)hexanoic Acid
  66. 3sl1: Crystal Structure of P. Falciparum Arginase Complexed with 2-amino-6- Borono-2-methylhexanoic Acid
  67. 3tf3: Crystal Structure of Metal-free Human Arginase I
  68. 3th7: Crystal Structure of Unliganded Co2+2-hai (ph 7.0)
  69. 3the: Crystal Structure of Co2+2-hai (ph 8.5)
  70. 3thh: Crystal Structure of The Co2+2-hai-abh Complex
  71. 3thj: Crystal Structure of The Co2+2-hai-l-orn Complex
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