EC 3.4.21.64 - peptidase K

3D structures of EC 3.4.21.64 - peptidase K in Protein Data Bank

updated: 6 January 2022, 2:15

1. 1bjr: Complex Formed between Proteolytically Generated Lactoferrin Fragment and Proteinase K
2. 1cnm: Enhancement of Catalytic Efficiency of Proteinase K through Exposure to Anhydrous Organic Solvent at 70 Degrees Celsius
3. 1egq: Enhancement of Enzyme Activity through Three-phase Partitioning: Crystal Structure of a Modified Serine Proteinase at 1.5 a Resolution
4. 1ht3: Mercury Induced Modifications in The Stereochemistry of The Active Site through Cys-73 in a Serine Protease: Crystal Structure of The Complex of a Partially Modified Proteinase K with Mercury at 1.8 a Resolution
5. 1ic6: Structure of a Serine Protease Proteinase K from Tritirachium Album Limber at 0.98 a Resolution
6. 3prk: Inhibition of Proteinase K by Methoxysuccinyl-ala-ala-pro- Ala-chloromethyl Ketone. an X-ray Study at 2.2-angstroms Resolution
7. 3osz: Crystal Structure of The Complex of Proteinase K with an Antimicrobial Nonapeptide, at 2.26 a Resolution
8. 1oyo: Regulation of Protease Activity by Melanin: Crystal Structure of The Complex Formed between Proteinase K and Melanin Monomers at 2.0 Resolution
9. 1p7v: Structure of a Complex Formed between Proteinase K and a Designed Heptapeptide Inhibitor Pro-ala-pro-phe-ala-ala- Ala at Atomic Resolution
10. 1p7w: Crystal Structure of The Complex of Proteinase K with a Designed Heptapeptide Inhibitor Pro-ala-pro-phe-ala-ser- Ala at Atomic Resolution
11. 1pek: Structure of The Complex of Proteinase K with a Substrate- Analogue Hexa-peptide Inhibitor at 2.2 Angstroms Resolution
12. 1pfg: Strategy to Design Inhibitors: Structure of a Complex of Proteinase K with a Designed Octapeptide Inhibitor N-ac- Pro-ala-pro-phe-dala-ala-ala-ala-nh2 at 2.5a Resolution
13. 1pj8: Structure of a Ternary Complex of Proteinase K, Mercury and a Substrate-analogue Hexapeptide at 2.2 a Resolution
14. 1ptk: Studies on The Inhibitory Action of Mercury upon Proteinase K
15. 3i37: Proteinase K by Lb Nanotemplate Method before High X-ray Dose on Id14- 2 Beamline at Esrf
16. 3i34: Proteinase K by Lb Nanotemplate Method after High X-ray Dose on Id14-2 Beamline at Esrf
17. 3i30: Proteinase K by Classical Hanging Drop Method after High X-ray Dose on Id14-2 Beamline at Esrf
18. 3i2y: Proteinase K by Classical Hanging Drop Method before High X-ray Dose on Id14-2 Beamline at Esrf
19. 3gt4: Structure of Proteinase K with The Magic Triangle I3C
20. 3gt3: Structure of Proteinase K with The Mad Triangle B3C
21. 3dyb: Proteinase K- Digalacturonic Acid Complex
22. 3dwe: Proteinase K by Classical Hanging Drop Method after High X- Ray Dose on Esrf Id14-2 Beamline
23. 3dw3: Proteinase K by Classical Hanging Drop Method before High X Ray Dose on Esrf Id 14-2 Beamline
24. 3dw1: Proteinase K by Lb Nanotemplate Method after The Third Step High X-ray Dose on Esrf Id14-2 Beamline
25. 3dvs: Proteinase K by Lb Nanotmplate Method after The Second Step of High Dose on Esrf Id14-2 Beamline
26. 3dvr: Proteinase K by Lb Nanotemplate Method after The First Step of High X-ray Dose on Esrf Id14-2 Beamline
27. 3dvq: Proteinase K by Lb Nanotemplate Method before High X-ray Dose on Esrf Id14-2 Beamline
28. 3de7: Proteinase K by Classical Hanging Drop Method after The Fourth Step of High X-ray Dose on Esrf Id23-1 Beamline
29. 3de6: Proteinase K by Classical Hanging Drop Method after The Third Step of High X-ray Dose on Esrf Id23-1 Beamline
30. 3de5: Roteinase K by Classical Hanging Drop Method after The Second Step of High X-ray Dose on Esrf Id23-1 Beamline
31. 3de4: Proteinase K by Classical Hanging Drop Method after The First Step of High X-ray Dose on Esrf Id23-1 Beamline
32. 3de3: Proteinase K by Classical Hanging Drop Method before High X- Ray Dose on Esrf Id23-1 Beamline
33. 3de2: Proteinase K by Lb Nanotemplate Method after The Fourth Step of High X-ray Dose on Esrf Id23-1 Beamline
34. 3de1: Proteinase K by Lb Nanotemplate Method after The Third Step of High X-ray Dose on Esrf Id23-1 Beamline
35. 3de0: Proteinase K by Lb Nanotemplate Method after The Second Step of High X-ray Dose on Esrf Id23-1 Beamline
36. 3ddz: Proteinase K by Lb Nanotemplate Method after The First Step of High X-ray Dose on Esrf Id23-1 Beamline
37. 3d9q: Proteinase K by Lb Nanotemplate Method before High X-ray Dose on Esrf Id23-1 Beamline
38. 7jsy: Proteinase K Soaked with I3C Determined by Microed from a Single Milled Microcrystal
39. 7c0p: Structure of Proteinase K Obtained in Ssrf Using Serial Crystallography
40. 2v8b: Sad Structure Solution of Proteinase K Grown in Selenate Solution
41. 7a68: Proteinase K Crystallized from 0.5 M Nano3
42. 2pyz: Crystal Structure of The Complex of Proteinase K with Auramine at 1.8a Resolution
43. 2pwb: Crystal Structure of The Complex of Proteinase K with Coumarin at 1.9 a Resolution
44. 2pwa: Crystal Structure of The Complex of Proteinase K with Alanine Boronic Acid at 0.83a Resolution
45. 2pq2: Structure of Serine Proteinase K Complex with a Highly Flexible Hydrophobic Peptide at 1.8a Resolution
46. 2pkc: Crystal Structure of Calcium-free Proteinase K at 1.5 Angstroms Resolution
47. 2dp4: Crystal Structure of The Complex Formed between Proteinase K and a Human Lactoferrin Fragment at 2.9 a Resolution
48. 2dqk: Crystal Structure of The Complex of Proteinase K with a Specific Lactoferrin Peptide Val-leu-leu-his at 1.93 a Resolution
49. 2duj: Crystal Structure of The Complex Formed between Proteinase K and a Synthetic Peptide Leu-leu-phe-asn-asp at 1.67 a Resolution
50. 2g4v: Anomalous Substructure of Proteinase K
51. 5z6o: Crystal Structure of Penicillium Cyclopium Protease
52. 2hd4: Crystal Structure of Proteinase K Inhibited by a Lactoferrin Octapeptide Gly-asp-glu-gln-gly-glu-asn-lys at 2.15 a Resolution
53. 2hpz: Crystal Structure of Proteinase K Complex with a Synthetic Peptide Klkllvvirlk at 1.69 a Resolution
54. 2id8: Crystal Structure of Proteinase K
55. 6v8r: Proteinase K Determined by Microed Phased by Arcimboldo_shredder
56. 6pq4: Lcp-embedded Proteinase K Treated with Lipase
57. 6pq0: Lcp-embedded Proteinase K Treated with Mpd
58. 3l1k: Sad Structure Solution of Proteinase K Grown in Potassium Tellurate Solution
59. 3ptl: Crystal Structure of Proteinase K Inhibited by a Lactoferrin Nonapeptide, Lys-gly-glu-ala-asp-ala-leu-ser-leu-asp at 1.3 a Resolution.
60. 6k2x: Crystal Structure of Proteinase K from Engyodontium Album
61. 6k2w: Crystal Structure of Proteinase K from Engyodontium Album
62. 6k2v: Crystal Structure of Proteinase K from Engyodontium Album
63. 6k2t: Crystal Structure of Proteinase K from Engyodontium Album
64. 6k2s: Crystal Structure of Proteinase K from Engyodontium Album
65. 6k2r: Crystal Structure of Proteinase K from Engyodontium Album
66. 6k2p: Crystal Structure of Proteinase K from Engyodontium Album
67. 6txg: Proteinase K in Complex with a "half Sandwich"-type Ru(ii) Coordination Compound
68. 3aj8: X-ray Analysis of Crystal of Proteinase K Obtained from H2O Solution Using Peg 8000
69. 3aj9: X-ray Analysis of Crystal of Proteinase K Obtained from D2O Solution Using Peg 8000
70. 3q40: Sulphur Sad Structure Solution of Proteinase K Grown in So4-less Solution.
71. 3q5g: Sulphur Sad Structure Solution of Proteinase K Grown in So4 Solution
72. 6k8m: High Resolution Crystal Structure of Proteinase K with Thiourea
73. 6rzp: Multicrystal Structure of Proteinase K at Room Temperature Using a Multilayer Monochromator.
74. 6rvg: Co-substituted Beta-keggin Bound to Proteinase K Solved by Mr
75. 6rve: Co-substituted Beta-keggin Bound to Proteinase K Solved by Mr
76. 6ruw: Zn-substituted Alpha-keggin Bound to Proteinase K Solved by Mr
77. 6run: Co-substituted Alpha-keggin Bound to Proteinase K Solved by Ep
78. 6ruk: Cu-substituted Alpha-keggin Bound to Proteinase K Solved by Mr
79. 6ruh: Ni-substituted Alpha-keggin Bound to Proteinase K Solved by Mr
80. 6rug: Co-substituted Alpha-keggin Bound to Proteinase K Solved by Mr
81. 6qxv: Pink Beam Serial Crystallography: Proteinase K, 1 Us Exposure, 1585 Patterns Merged (2 Chips)
82. 6qf1: X-ray Structure of Proteinase K Crystallized on a Silicon Chip
83. 3qmp: Selenium Sad Structure Solution of Proteinase K Grown in So4-less Solution and Soaked in Selenate.
84. 6pu5: Microed Structure of Proteinase K Recorded on Cetad
85. 6pu4: Microed Structure of Proteinase K Recorded on Falcon III
86. 6pkt: Microed Structure of Proteinase K from Merging Low-dose, Platinum Pre- Coated Lamellae at 1.85a Resolution (ldpt)
87. 6pks: Microed Structure of Proteinase K from Low-dose Merged Lamellae That Were Not Pre-coated with Platinum 2.16a Resolution (ld)
88. 6pkr: Microed Structure of Proteinase K from a Platinum-coated, Polished, Single Lamella at 1.79a Resolution (
89. 6pkq: Microed Structure of Proteinase K from a Platinum-coated, Polished, Single Lamella at 1.85a Resolution (
90. 6pkp: Microed Structure of Proteinase K from a Platinum-coated, Polished, Single Lamella at 1.91a Resolution (
91. 6pko: Microed Structure of Proteinase K from a Platinum Coated, Unpolished, Single Lamella at 2.07a Resolution (
92. 6pkn: Microed Structure of Proteinase K from an Unpolished, Platinum-coated, Single Lamella at 2.08a Resolution (
93. 6pkm: Microed Structure of Proteinase K from an Uncoated, Single Lamella at 2.17a Resolution (
94. 6pkl: Microed Structure of Proteinase K from an Uncoated, Single Lamella at 2.59a Resolution (
95. 6pkk: Microed Structure of Proteinase K from an Uncoated, Single Lamella at 2.18a Resolution (
96. 6pkj: Microed Structure of Proteinase K from an Uncoated, Single Lamella at 2.17a Resolution (
97. 6n4u: Microed Structure of Proteinase K at 2.75a Resolution from a Single Milled Crystal.
98. 6mh6: High-viscosity Injector-based Pink Beam Serial Crystallography of Micro-crystals at a Synchrotron Radiation Source.
99. 4dj5: Proteinase K by Langmuir-blodgett Hanging Drop Method at 1.8a Resolution for Unique Water Distribution
100. 6law: Microed Structure of Proteinase K at 1.50a Determained Using Crystal Lamellas Prepared by Focused Ion Beam Milling
101. 6kkf: Crystal Structure of Proteinase K Complexed with a Triglycine
102. 4b5l: The 1.6 a High Energy Room Temperature Structure of Proteinase K at 38.4 Kev and 0.04 Mgy
103. 4fon: High Energy Remote Sad Structure Solution of Proteinase K from The 37.8 Kev Tellurium K Edge
104. 6j43: Proteinase K Determined by Pal-xfel
105. 6fjs: Proteinase~k Siras Phased Structure of Room-temperature, Serially Collected Synchrotron Data
106. 6clb: 3.20 a Microed Structure of Proteinase K at 7.8 E- / A^2
107. 6cla: 2.80 a Microed Structure of Proteinase K at 6.0 E- / A^2
108. 6cl9: 2.20 a Microed Structure of Proteinase K at 4.3 E- / A^2
109. 6cl8: 2.00 a Microed Structure of Proteinase K at 2.6 E- / A^2
110. 6cl7: 1.71 a Microed Structure of Proteinase K at 0.86 E- / A^2
111. 5wrc: Crystal Structure of Proteinase K from Engyodontium Album
112. 5wjh: Using Sound Pulses to Solve The Crystal Harvesting Bottleneck
113. 5wjg: Using Sound Pulses to Solve The Crystal Harvesting Bottleneck
114. 5whw: Using Sound Pulses to Solve The Crystal Harvesting Bottleneck
115. 5uvl: Serial Millisecond Crystallography of Membrane and Soluble Protein Micro-crystals Using Synchrotron Radiation
116. 5mjl: Single-shot Pink Beam Serial Crystallography: Proteinase K
117. 5kxv: Structure Proteinase K at 0.98 Angstroms
118. 5kxu: Structure Proteinase K Determined by Sacla
119. 5k7s: Microed Structure of Proteinase K at 1.6 a Resolution
120. 5i9s: Microed Structure of Proteinase K at 1.75 a Resolution
121. 5cw1: Proteinase K Complexed with 4-iodopyrazole
122. 5b1e: Crystal Structure of Proteinase K from Engyodontium Album
123. 5b1d: Crystal Structure of Proteinase K from Engyodontium Album
124. 5avk: Crystal Structure of Proteinase K from Engyodontium Album
125. 5avj: Crystal Structure of Proteinase K from Engyodontium Album
126. 5amx: Crystal Structure of Proteinase K Processed with The Crystaldirect Automated Mounting and Cryo-cooling Technology
127. 4wob: Proteinase-k Pre-surface Acoustic Wave
128. 4woc: Proteinase-k Post-surface Acoustic Waves
129. 4zar: Crystal Structure of Proteinase K from Engyodontium Albuminhibited by Methoxysuccinyl-ala-ala-pro-phe-chloromethyl Ketone at 1.15 a Resolution
130. 5roc: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo65
131. 5rod: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo71
132. 5roe: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo6
133. 5rof: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen C11A
134. 5rog: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo51
135. 5roh: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo61
136. 5roi: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo30
137. 5roj: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo59
138. 5rok: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo37
139. 5rol: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen B5A
140. 5rom: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo45
141. 5ron: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen E4A
142. 5roo: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo73
143. 5rop: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen A12A at Room Temperature
144. 5roq: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen A12A
145. 5ror: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen F1A
146. 5ros: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo34
147. 5rot: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo1
148. 5rou: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo72
149. 5rov: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo62
150. 5row: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen F6A
151. 5rox: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo24
152. 5roy: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo22
153. 5roz: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo41
154. 5rp0: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo57
155. 5rp1: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo36
156. 5rp2: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo20
157. 5rp3: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo14
158. 5rp4: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo70
159. 5rp5: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo48
160. 5rp6: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen C2A
161. 5rp7: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen D12A
162. 5rp8: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo46
163. 5rp9: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen B7A
164. 5rpa: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen E3A
165. 5rpb: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo68
166. 5rpc: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen H3A
167. 5rpd: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen F12A
168. 5rpe: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo40
169. 5rpf: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo27
170. 5rpg: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen H2A
171. 5rph: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen A11A
172. 5rpi: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo26
173. 5rpj: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen B12A
174. 5rpk: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen B9A
175. 5rpl: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen C8A
176. 5rpm: Pandda Analysis Group Deposition -- Proteinase K Changed State Model for Fragment Frag Xtal Screen H5A
177. 5rpn: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo64
178. 5rpo: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo7
179. 5rpp: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo44
180. 5rpq: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo32
181. 5rpr: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo15
182. 5rps: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo60
183. 5rpt: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo9
184. 5rpu: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo67
185. 5rpv: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo35
186. 5rpw: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo63
187. 5rpx: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo43
188. 5rpy: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo10
189. 5rpz: Pandda Analysis Group Deposition -- Proteinase K Crystal Structure Apo58
190. 7njj: Proteinase K Grown inside Hare Serial Crystallography Chip
191. 7a9f: Co-substituted Keggin Silicotungstate with Covalent Bond to Proteinase K
192. 7a9k: Co-substituted Keggin Silicotungstate with Covalent Bond to Proteinase K
193. 7a9m: Ni-substituted Keggin Silicotungstate with Covalent Bond to Proteinase K
194. 7s4z: Serial Macromolecular Crystallography at Alba Synchrotron Light Source - Proteinase K