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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 3.4.1
      EC 3.4.2
      EC 3.4.3
      EC 3.4.4
      EC 3.4.11
      EC 3.4.12
      EC 3.4.13
      EC 3.4.14
      EC 3.4.15
      EC 3.4.16
      EC 3.4.17
      EC 3.4.18
      EC 3.4.19
      EC 3.4.21
        EC 3.4.21.1
        EC 3.4.21.2
        EC 3.4.21.3
        EC 3.4.21.4
        EC 3.4.21.5
        EC 3.4.21.6
        EC 3.4.21.7
        EC 3.4.21.8
        EC 3.4.21.9
        EC 3.4.21.10
        EC 3.4.21.11
        EC 3.4.21.12
        EC 3.4.21.13
        EC 3.4.21.14
        EC 3.4.21.15
        EC 3.4.21.16
        EC 3.4.21.17
        EC 3.4.21.18
        EC 3.4.21.19
        EC 3.4.21.20
        EC 3.4.21.21
        EC 3.4.21.22
        EC 3.4.21.23
        EC 3.4.21.24
        EC 3.4.21.25
        EC 3.4.21.26
        EC 3.4.21.27
        EC 3.4.21.28
        EC 3.4.21.29
        EC 3.4.21.30
        EC 3.4.21.31
        EC 3.4.21.32
        EC 3.4.21.33
        EC 3.4.21.34
        EC 3.4.21.35
        EC 3.4.21.36
        EC 3.4.21.37
        EC 3.4.21.38
        EC 3.4.21.39
        EC 3.4.21.40
        EC 3.4.21.41
        EC 3.4.21.42
        EC 3.4.21.43
        EC 3.4.21.44
        EC 3.4.21.45
        EC 3.4.21.46
        EC 3.4.21.47
        EC 3.4.21.48
        EC 3.4.21.49
        EC 3.4.21.50
        EC 3.4.21.51
        EC 3.4.21.52
        EC 3.4.21.53
        EC 3.4.21.54
        EC 3.4.21.55
        EC 3.4.21.56
        EC 3.4.21.57
        EC 3.4.21.58
        EC 3.4.21.59
        EC 3.4.21.60
        EC 3.4.21.61
        EC 3.4.21.62
        EC 3.4.21.63
        EC 3.4.21.64
        EC 3.4.21.65
        EC 3.4.21.66
        EC 3.4.21.67
        EC 3.4.21.68
        EC 3.4.21.69
        EC 3.4.21.70
        EC 3.4.21.71
        EC 3.4.21.72
        EC 3.4.21.73
        EC 3.4.21.74
        EC 3.4.21.75
        EC 3.4.21.76
        EC 3.4.21.77
        EC 3.4.21.78
        EC 3.4.21.79
        EC 3.4.21.80
        EC 3.4.21.81
        EC 3.4.21.82
        EC 3.4.21.83
        EC 3.4.21.84
        EC 3.4.21.85
        EC 3.4.21.86
        EC 3.4.21.87
        EC 3.4.21.88
        EC 3.4.21.89
        EC 3.4.21.90
        EC 3.4.21.91
        EC 3.4.21.92
        EC 3.4.21.93
        EC 3.4.21.94
        EC 3.4.21.95
        EC 3.4.21.96
        EC 3.4.21.97
        EC 3.4.21.98
        EC 3.4.21.99
        EC 3.4.21.100
        EC 3.4.21.101
        EC 3.4.21.102
        EC 3.4.21.103
        EC 3.4.21.104
        EC 3.4.21.105
        EC 3.4.21.106
        EC 3.4.21.107
        EC 3.4.21.108
        EC 3.4.21.109
        EC 3.4.21.110
        EC 3.4.21.111
        EC 3.4.21.112
        EC 3.4.21.113
        EC 3.4.21.114
        EC 3.4.21.115
        EC 3.4.21.116
        EC 3.4.21.117
        EC 3.4.21.118
        EC 3.4.21.119
        EC 3.4.21.120
      EC 3.4.22
      EC 3.4.23
      EC 3.4.24
      EC 3.4.25
      EC 3.4.99
    EC 3.5
    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 3.4.21.62 - subtilisin



3D structures of EC 3.4.21.62 - subtilisin in Protein Data Bank

updated: 6 January 2022, 2:15

In total: 132 PDB structures of EC 3.4.21.62 - subtilisin:
  1. 1a2q: Subtilisin Bpn' Mutant 7186
  2. 1af4: Crystal Structure of Subtilisin Carlsberg in Anhydrous Dioxane
  3. 1ak9: Subtilisin Mutant 8321
  4. 1aqn: Subtilisin Mutant 8324
  5. 1au9: Subtilisin Bpn' Mutant 8324 in Citrate
  6. 1av7: Subtilisin Carlsberg L-naphthyl-1-acetamido Boronic Acid Inhibitor Complex
  7. 1avt: Subtilisin Carlsberg D-para-chlorophenyl-1-acetamido Boronic Acid Inhibitor Complex
  8. 1be6: Trans-cinnamoyl-subtilisin in Anhydrous Acetonitrile
  9. 1be8: Trans-cinnamoyl-subtilisin in Water
  10. 1bfk: Crystal Structure of Subtilisin Carlsberg in 40% Acetonitrile
  11. 1bfu: Subtilisin Carlsberg in 20% Dioxane
  12. 1bh6: Subtilisin Dy in Complex with The Synthetic Inhibitor N- Benzyloxycarbonyl-ala-pro-phe-chloromethyl Ketone
  13. 1c3l: Subtilisin-carlsberg Complexed with Xenon (8 Bar)
  14. 1c9j: Bacillus Lentus Subtilisin K27R/N87S/V104Y/N123S/T274A Variant
  15. 1c9m: Bacillus Lentus Subtilsin (ser 87) N76D/S103A/V104I
  16. 1c9n: Bacillus Lentus Substilisin Variant (ser 87) K27R/V104Y/N123S/T274A
  17. 1cse: The High-resolution X-ray Crystal Structure of The Complex Formed between Subtilisin Carlsberg and Eglin C, an Elastase Inhibitor from The Leech Hirudo Medicinalis. Structural Analysis, Subtilisin Structure and Interface Geometry
  18. 1dui: Subtilisin Bpn' from Bacillus Amyloliquefaciens, Crystal Growth Mutant
  19. 1gci: The 0.78 Angstroms Structure of a Serine Protease-bacillus Lentus Subtilisin
  20. 1gns: Subtilisin Bpn'
  21. 1gnv: Calcium Independent Subtilisin Bpn' Mutant
  22. 1iav: Structure on Native (asn 87) Subtilisin from Bacillus Lentus
  23. 1jea: Altered Topology and Flexibility in Engineered Subtilisin
  24. 5sic: Molecular Recognition at The Active Site of Subtilisin Bpn': Crystallographic Studies Using Genetically Engineered Proteinaceous Inhibitor Ssi (streptomyces Subtilisin Inhibitor)
  25. 3vsb: Subtilisin Carlsberg D-naphthyl-1-acetamido Boronic Acid Inhibitor Complex
  26. 3sic: Molecular Recognition at The Active Site of Subtilisin Bpn': Crystallographic Studies Using Genetically Engineered Proteinaceous Inhibitor Ssi (streptomyces Subtilisin Inhibitor)
  27. 1lw6: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2 at 1.5 Angstrom Resolution
  28. 1mpt: Crystal Structure of a New Alkaline Serine Protease (m- Protease) from Bacillus Sp. Ksm-k16
  29. 1ndq: Bacillus Lentus Subtilisin
  30. 1ndu: Bacillus Lentus Subtilisin Variant S101G/V104N
  31. 1oyv: Crystal Structure of Tomato Inhibitor-ii in a Ternary Complex with Subtilisin Carlsberg
  32. 1q5p: S156E/S166D Variant of Bacillus Lentus Subtilisin
  33. 1r0r: 1.1 Angstrom Resolution Structure of The Complex between The Protein Inhibitor, Omtky3, and The Serine Protease, Subtilisin Carlsberg
  34. 1s01: Large Increases in General Stability for Subtilisin Bpn(prime) through Incremental Changes in The Free Energy of Unfolding
  35. 1sbc: The Refined Crystal Structure of Subtilisin Carlsberg at 2.5 Angstroms Resolution
  36. 1sbh: Subtilisin Bpn' 8397+1 (e.c. 3.4.21.14) Mutant (M50F, N76D, G169A, Q206C, N218S, K256Y)
  37. 1sbi: Subtilisin Bpn' 8397 (e.c. 3.4.21.14) Mutant (M50F, N76D, G169A, Q206C, N218S)
  38. 1sbn: Refined Crystal Structures of Subtilisin Novo in Complex with Wild-type and Two Mutant Eglins. Comparison with Other Serine Proteinase Inhibitor Complexes
  39. 1sca: Enzyme Crystal Structure in a Neat Organic Solvent
  40. 1scb: Enzyme Crystal Structure in a Neat Organic Solvent
  41. 1scd: X-ray Crystal Structure of Cross-linked Subtilism Carlsberg in Water Vs. Acetonitrile
  42. 1scj: Crystal Structure of Subtilisin-propeptide Complex
  43. 1scn: Inactivation of Subtilisin Carlsberg by N-(tert- Butoxycarbonyl-alanyl-prolyl-phenylalanyl)-o-benzoyl Hydroxylamine: Formation of Covalent Enzyme-inhibitor Linkage in The Form of a Carbamate Derivative
  44. 1sib: Refined Crystal Structures of Subtilisin Novo in Complex with Wild-type and Two Mutant Eglins. Comparison with Other Serine Proteinase Inhibitor Complexes
  45. 1spb: Subtilisin Bpn' Prosegment (77 Residues) Complexed with a Mutant Subtilisin Bpn' (266 Residues). Crystal Ph 4.6. Crystallization Temperature 20 C Diffraction Temperature- 160 C
  46. 1st3: The Crystal Structure of The Bacillus Lentus Alkaline Protease, Subtilisin Bl, at 1.4 Angstroms Resolution
  47. 1sua: Subtilisin Bpn'
  48. 1sub: Calcium-independent Subtilisin by Design
  49. 1suc: Calcium-independent Subtilisin by Design
  50. 1sud: Calcium-independent Subtilisin by Design
  51. 1sue: Subtilisin Bpn' from Bacillus Amyloliquefaciens, Mutant
  52. 1sup: Subtilisin Bpn' at 1.6 Angstroms Resolution: Analysis of Discrete Disorder and Comparison of Crystal Forms
  53. 1svn: Savinase
  54. 3f49: Anion-triggered Engineered Subtilisin Subt_bacam
  55. 1tk2: Crystal Structure of The Complex Formed between Alkaline Proteinase Savinase and Gramicidin S at 1.5a Resolution
  56. 1tm1: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2
  57. 1tm3: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2 M59K Mutant
  58. 1tm4: Crystal Structure of The Complex of Subtilsin Bpn'with Chymotrypsin Inhibitor 2 M59G Mutant
  59. 1tm5: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2 M59A Mutant
  60. 1tm7: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2 M59Y Mutant
  61. 1tmg: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2 M59F Mutant
  62. 1to1: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2 Y61A Mutant
  63. 1to2: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2 M59K, in Ph 9 Cryosoak
  64. 1ubn: Selenosubtilisin Bpn
  65. 3co0: Substrate Complex of Fluoride-sensitive Engineered Subtilisin Subt_bacam
  66. 3cnq: Prosubtilisin Substrate Complex of Subtilisin Subt_bacam
  67. 1v5i: Crystal Structure of Serine Protease Inhibitor Poia1 in Complex with Subtilisin Bpn'
  68. 3bx1: Complex between The Barley Alpha-amylase/subtilisin Inhibitor and The Subtilisin Savinase
  69. 1vsb: Subtilisin Carlsberg L-para-chlorophenyl-1-acetamido Boronic Acid Inhibitor Complex
  70. 3bgo: Azide Complex of Engineered Subtilisin Subt_bacam
  71. 3afg: Crystal Structure of Pron-tk-sp from Thermococcus Kodakaraensis
  72. 2zwp: Crystal Structure of Ca3 Site Mutant of PRO-S324A
  73. 2zwo: Crystal Structure of Ca2 Site Mutant of PRO-S324A
  74. 2zrq: Crystal Structure of S324A-SUBTILISIN
  75. 2z58: Crystal Structure of G56W-PROPEPTIDE:S324A-SUBTILISIN Complex
  76. 2z57: Crystal Structure of G56E-PROPEPTIDE:S324A-SUBTILISIN Complex
  77. 2z56: Crystal Structure of G56S-PROPEPTIDE:S324A-SUBTILISIN Complex
  78. 2z30: Crystal Structure of Complex Form between Mat-tk-subtilisin and Tk-propeptide
  79. 2z2z: Crystal Structure of Unautoprocessed Form of Tk-subtilisin Soaked by 10mm Cacl2
  80. 2z2y: Crystal Structure of Autoprocessed Form of Tk-subtilisin
  81. 2z2x: Crystal Structure of Mature Form of Tk-subtilisin
  82. 2x8j: Intracellular Subtilisin Precursor from B. Clausii
  83. 1y1k: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2 T58A Mutant
  84. 1y33: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2 T58P Mutant
  85. 1y34: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2 E60A Mutant
  86. 1y3b: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2 E60S Mutant
  87. 1y3c: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2 R62A Mutant
  88. 1y3d: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2 R67A Mutant
  89. 1y3f: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2 F69A Mutant
  90. 1y48: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2 R65A Mutant
  91. 1y4a: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2 M59R/E60S Mutant
  92. 1y4d: Crystal Structure of The Complex of Subtilisin Bpn' with Chymotrypsin Inhibitor 2 M59R/E60S Mutant
  93. 2wwt: Intracellular Subtilisin Precursor from B. Clausii
  94. 2wv7: Intracellular Subtilisin Precursor from B. Clausii
  95. 1yu6: Crystal Structure of The Subtilisin Carlsberg:omtky3 Complex
  96. 2sec: Structural Comparison of Two Serine Proteinase-protein Inhibitor Complexes. Eglin-c-subtilisin Carlsberg and Ci-2- Subtilisin Novo
  97. 2e1p: Crystal Structure of Pro-tk-subtilisin
  98. 2gko: S41 Psychrophilic Protease
  99. 2wuv: Crystallographic Analysis of Counter-ion Effects on Subtilisin Enzymatic Action in Acetonitrile
  100. 2wuw: Crystallographic Analysis of Counter-ion Effects on Subtilisin Enzymatic Action in Acetonitrile (native Data)
  101. 6y5t: Crystal Structure of Savinase at Room Temperature
  102. 6y5s: Crystal Structure of Savinase at Cryogenic Conditions
  103. 2xrm: Processed Intracellular Subtilisin from B. Clausii
  104. 3qtl: Structural Basis for Dual-inhibition Mechanism of a Non-classical Kazal-type Serine Protease Inhibitor from Horseshoe Crab in Complex with Subtilisin
  105. 6pak: Insight into Subtilisin E-s7 Cleavage Pattern Based on Crystal Structure and Hydrolysates Peptide Analysis
  106. 4dww: Crystal Structure of Nattokinase from Bacillus Subtilis Natto
  107. 6o44: Insight into Subtilisin E-s7 Cleavage Pattern Based on Crystal Structure and Hydrolysates Peptide Analysis
  108. 3unx: Bond Length Analysis of Asp, Glu and His Residues in Subtilisin Carlsberg at 1.26a Resolution
  109. 3vhq: Crystal Structure of The Ca6 Site Mutant of Pro-sa-subtilisin
  110. 4hx2: Crystal Structure of Streptomyces Caespitosus Sermetstatin in Complex with Bacillus Licheniformis Subtilisin
  111. 4j94: Crystal Structure of Mycp1 from The Esx-1 Type VII Secretion System
  112. 4kpg: Crystal Structure of Mycp1 from The Esx-1 Type VII Secretion System
  113. 3vyv: Crystal Structure of Subtilisin Nat at 1.36
  114. 3whi: Crystal Structure of Unautoprocessed Form of Is1-inserted Pro- Subtilisin E
  115. 4c3u: Extensive Counter-ion Interactions with Subtilisin in Aqueous Medium, Cs Derivative
  116. 4c3v: Extensive Counter-ion Interactions with Subtilisin in Aqueous Medium, No Cs Soak
  117. 4cfy: Savinase Crystal Structures for Combined Single Crystal Diffraction and Powder Diffraction Analysis
  118. 4cfz: Savinase Crystal Structures for Combined Single Crystal Diffraction and Powder Diffraction Analysis
  119. 4cg0: Savinase Crystal Structures for Combined Single Crystal Diffraction and Powder Diffraction Analysis
  120. 4m1z: Crystal Structure of Mycp1 with The N-terminal Propeptide Removed
  121. 5ox2: Crystal Structure of Thymoligase, a Substrate-tailored Peptiligase Variant
  122. 5gl8: The Crystal Structure of Nattokinase Fragments
  123. 5ard: Cooperative Bio-metallic Selectivity in a Tailored Protease Enables Creation of a C-c Cross-coupling Heckase
  124. 5arc: Cooperative Bio-metallic Selectivity in a Tailored Protease Enables Creation of a C-c Cross-coupling Heckase
  125. 5arb: Cooperative Bio-metallic Selectivity in a Tailored Protease Enables Creation of a C-c Cross-coupling Heckase
  126. 5aqe: Cooperative Bio-metallic Selectivity in a Tailored Protease Enables Creation of a C-c Cross-coupling Heckase
  127. 7am3: Crystal Structure of Peptiligase Mutant - M222P
  128. 7am4: Crystal Structure of Peptiligase Mutant - L217H/M222P
  129. 7am5: Crystal Structure of Peptiligase Mutant - L217H/M222P/A225N
  130. 7am6: Crystal Structure of Peptiligase Mutant - L217H/M222P/A225N/F189W
  131. 7am7: Crystal Structure of Peptiligase Mutant - M222P/L217H/A225N/F189W/N218D
  132. 7am8: Crystal Structure of Omniligase Mutant W189F
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