EC 3.1.1.3 - triacylglycerol acylhydrolase (triacylglycerol lipase)

3D structures of EC 3.1.1.3 - triacylglycerol lipase in Protein Data Bank

updated: 17 May 2012, 1:59

1. 1akn: Structure of Bile-salt Activated Lipase
2. 1bu8: Rat Pancreatic Lipase Related Protein 2
3. 1crl: Insights into Interfacial Activation from an 'open' Structure of Candida Rugosa Lipase
4. 1cua: Cutinase, N172K Mutant
5. 1cub: Cutinase, N172K, R196D Mutant, Monoclinic Crystal Form
6. 1cuc: Cutinase, N172K, R196D Mutant, Orthorhombic Crystal Form
7. 1cud: Cutinase, N172K, R196D Mutant, Monoclinic Crystal Form with Three Molecules per Asymmetric Unit
8. 1cue: Cutinase, Q121L Mutant
9. 1cuf: Cutinase, R156L Mutant
10. 1cug: Cutinase, R17E, N172K Mutant
11. 1cuh: Cutinase, R196E Mutant
12. 1cui: Cutinase, S120A Mutant
13. 1cuj: Cutinase, S120C Mutant
14. 1cuu: Cutinase, A199C Mutant
15. 1cuv: Cutinase, A85F Mutant
16. 1cuw: Cutinase, G82A, A85F, V184I, A185L, L189F Mutant
17. 1cux: Cutinase, L114Y Mutant
18. 1cuy: Cutinase, L189F Mutant
19. 1cuz: Cutinase, L81G, L182G Mutant
20. 1cvl: Crystal Structure of Bacterial Lipase from Chromobacterium Viscosum Atcc 6918
21. 1dt3: The Structural Origins of Interfacial Activation in Thermomyces (humicola) Lanuginosa Lipase
22. 1dt5: The Structural Origins of Interfacial Activation in Thermomyces (humicola) Lanuginosa Lipase
23. 1dte: The Structural Origins of Interfacial Activation in Thermomyces (humicola) Lanuginosa Lipase
24. 1du4: The Structural Origins of Interfacial Activation in Thermomyces (humicola) Lanuginosa Lipase Other Structure Details
25. 1ein: The Structural Origins of Interfacial Activation in Thermomyces (humicola) Lanuginosa Lipase
26. 1eth: Triacylglycerol Lipase/colipase Complex
27. 1ex9: Crystal Structure of The Pseudomonas Aeruginosa Lipase Complexed with Rc-(rp,sp)-1,2-dioctylcarbamoyl-glycero-3-o- Octylphosphonate
28. 1f6w: Structure of The Catalytic Domain of Human Bile Salt Activated Lipase
29. 1ffa: Contribution of Cutinase Serine 42 Side Chain to The Stabilization of The Oxyanion Transition State
30. 1ffb: Contribution of Cutinase Serine 42 Side Chain to The Stabilization of The Oxyanion Transition State
31. 1ffc: Contribution of Cutinase Serine 42 Side Chain to The Stabilization of The Oxyanion Transition State
32. 1ffd: Contribution of Cutinase Serine 42 Side Chain to The Stabilization of The Oxyanion Transition State
33. 1ffe: Contribution of Cutinase Serine 42 Side Chain to The Stabilization of The Oxyanion Transition State
34. 1gpl: Rp2 Lipase
35. 1gt6: S146A Mutant of Thermomyces (humicola) Lanuginosa Lipase Complex with Oleic Acid
36. 1gz7: Crystal Structure of The Closed State of Lipase 2 from Candida Rugosa
37. 1hlg: Crystal Structure of Human Gastric Lipase
38. 1hpl: Horse Pancreatic Lipase. The Crystal Structure at 2.3 Angstroms Resolution
39. 1hqd: Pseudomonas Cepacia Lipase Complexed with Transition State Analogue of 1-phenoxy-2-acetoxy Butane
40. 1i6w: The Crystal Structure of Bacillus Subtilis Lipase: a Minimal Alpha/beta Hydrolase Enzyme
41. 1isp: Crystal Structure of Bacillus Subtilis Lipase at 1.3a Resolution
42. 1ji3: Crystal Structure of The First Thermostable Bacterial Lipase from Bacillus Stearothermophilus
43. 1jmy: Truncated Recombinant Human Bile Salt Stimulated Lipase
44. 1k8q: Crystal Structure of Dog Gastric Lipase in Complex with a Phosphonate Inhibitor
45. 5tgl: A Model for Interfacial Activation in Lipases from The Structure of a Fungal Lipase-inhibitor Complex
46. 5lip: Pseudomonas Lipase Complexed with Rc-(rp, Sp)-1,2- Dioctylcarbamoylglycero-3-o-octylphosphonate
47. 4tgl: Catalysis at The Interface: The Anatomy of a Conformational Change in a Triglyceride Lipase
48. 4lip: Pseudomonas Lipase Complexed with Rc-(rp, Sp)- Dibutylcarbamoylglycero-3-o-butylphosphonate
49. 3tgl: Structure and Molecular Model Refinement of Rhizomucor Miehei Triacylglyceride Lipase: a Case Study of The Use of Simulated Annealing in Partial Model Refinement
50. 1ku0: Structure of The Bacillus Stearothermophilus L1 Lipase
51. 1lbs: Lipase (e.c.3.1.1.3) (triacylglycerol Hydrolase)
52. 1lbt: Lipase (e.c.3.1.1.3) (triacylglycerol Hydrolase)
53. 1lgy: Lipase II from Rhizopus Niveus
54. 1llf: Cholesterol Esterase (candida Cylindracea) Crystal Structure at 1.4a Resolution
55. 3o0d: Crystal Structure of Lip2 Lipase from Yarrowia Lipolytica at 1.7 a Resolution
56. 1lpa: Interfacial Activation of The Lipase-procolipase Complex by Mixed Micelles Revealed by X-ray Crystallography
57. 1lpb: The 2.46 Angstroms Resolution Structure of The Pancreatic Lipase Colipase Complex Inhibited by a C11 Alkyl Phosphonate
58. 1lpm: A Structural Basis for The Chiral Preferences of Lipases
59. 1lpn: Analogs of Reaction Intermediates Identify a Unique Substrate Binding Site in Candida Rugosa Lipase
60. 1lpo: Analogs of Reaction Intermediates Identify a Unique Substrate Binding Site in Candida Rugosa Lipase
61. 1lpp: Analogs of Reaction Intermediates Identify a Unique Substrate Binding Site in Candida Rugosa Lipase
62. 1lps: A Structural Basis for The Chiral Preferences of Lipases
63. 1n8s: Structure of The Pancreatic Lipase-colipase Complex
64. 3lip: Open Conformation of Pseudomonas Cepacia Lipase
65. 1oil: Structure of Lipase
66. 3icw: Structure of a Circular Permutation on Lipase B from Candida Antartica with Bound Suicide Inhibitor
67. 3icv: Structural Consequences of a Circular Permutation on Lipase B from Candida Antartica
68. 1qge: New Crystal Form of Pseudomonas Glumae (formerly Chromobacterium Viscosum Atcc 6918) Lipase
69. 1r4z: Bacillus Subtilis Lipase a with Covalently Bound Rc-ipg- Phosphonate-inhibitor
70. 1r50: Bacillus Subtilis Lipase a with Covalently Bound Sc-ipg- Phosphonate-inhibitor
71. 3guu: X-ray Structure of Candida Antarctica Lipase a
72. 1rp1: Dog Pancreatic Lipase Related Protein 1
73. 3g7n: Crystal Structure of a Triacylglycerol Lipase from Penicillium Expansum at 1.3
74. 1t2n: Structure of a Thermostable Triple Mutant of Bacillus Subtilis Lipase Obtained through Directed Evolution
75. 1t4m: Structure of a Thermostable Double Mutant of Bacillus Subtilis Lipase Obtained through Directed Evolution
76. 1tah: The Crystal Structure of Triacylglycerol Lipase from Pseudomonas Glumae Reveals a Partially Redundant Catalytic Aspartate
77. 1tca: The Sequence, Crystal Structure Determination and Refinement of Two Crystal Forms of Lipase B from Candida Antarctica
78. 1tcb: The Sequence, Crystal Structure Determination and Refinement of Two Crystal Forms of Lipase B from Candida Antarctica
79. 1tcc: The Sequence, Crystal Structure Determination and Refinement of Two Crystal Forms of Lipase B from Candida Antarctica
80. 1tgl: A Serine Protease Triad Forms The Catalytic Centre of a Triacylglycerol Lipase
81. 1thg: 1.8 Angstroms Refined Structure of The Lipase from Geotrichum Candidum
82. 1tia: An Unusual Buried Polar Cluster in a Family of Fungal Lipases
83. 1tib: Conformational Lability of Lipases Observed in The Absence of an Oil-water Interface: Crystallographic Studies of Enzymes from The Fungi Humicola Lanuginosa and Rhizopus Delemar
84. 1tic: Conformational Lability of Lipases Observed in The Absence of an Oil-water Interface: Crystallographic Studies of Enzymes from The Fungi Humicola Lanuginosa and Rhizopus Delemar
85. 1trh: Two Conformational States of Candida Rugosa Lipase
86. 3d2c: Structure of 4d3, a Thermostable Mutant of Bacillus Subtilis Lipase Obtained through Directed Evolution
87. 3d2b: Structure of 2d9, a Thermostable Mutant of Bacillus Subtilis Lipase Obtained through Directed Evolution
88. 3d2a: Structure of 1-17a4, a Thermostable Mutant of Bacillus Subtilis Lipase Obtained through Directed Evolution
89. 3a70: Crystal Structure of Pseudomonas Sp. Mis38 Lipase in Complex with Diethyl Phosphate
90. 3a6z: Crystal Structure of Pseudomonas Sp. Mis38 Lipase (pml) in The Open Conformation following Dialysis against Ca-free Buffer
91. 2zys: A. Fulgidus Lipase with Fatty Acid Fragment and Chloride
92. 2zyr: A. Fulgidus Lipase with Fatty Acid Fragment and Magnesium
93. 2zyi: A. Fulgidus Lipase with Fatty Acid Fragment and Calcium
94. 2zyh: Mutant A. Fulgidus Lipase S136A Complexed with Fatty Acid Fragment
95. 2zvd: Crystal Structure of Pseudomonas Sp. Mis38 Lipase in an Open Conformation
96. 2zj7: Crystal Structure of D157A Mutant of Pseudomonas Sp. Mis38 Lipase
97. 2zj6: Crystal Structure of D337A Mutant of Pseudomonas Sp. Mis38 Lipase
98. 2z8z: Crystal Structure of a Platinum-bound S445C Mutant of Pseudomonas Sp. Mis38 Lipase
99. 2z8x: Crystal Structure of Extracellular Lipase from Pseudomonas Sp. Mis38
100. 2z5g: Crystal Structure of T1 Lipase F16L Mutant
101. 1ys1: Burkholderia Cepacia Lipase Complexed with Hexylphosphonic Acid (r)-2-methyl-3-phenylpropyl Ester
102. 1ys2: Burkholderia Cepacia Lipase Complexed with Hexylphosphonic Acid (s) 2-methyl-3-phenylpropyl Ester
103. 2w22: Activation Mechanism of Bacterial Thermoalkalophilic Lipases
104. 2veo: X-ray Structure of Candida Antarctica Lipase a in Its Closed State.
105. 2qxu: Crystal Structure Analysis of The Bacillus Subtilis Lipase Crystallized at Ph 5.0
106. 2qxt: Crystal Structure Analysis of The Bacillus Subtilis Lipase Crystallized at Ph 4.5
107. 2qub: Crystal Structure of Extracellular Lipase Lipa from Serratia Marcescens
108. 2qua: Crystal Structure of Lipa from Serratia Marcescens
109. 2pvs: Structure of Human Pancreatic Lipase Related Protein 2 Mutant N336Q
110. 2ppl: Human Pancreatic Lipase-related Protein 1
111. 2oxe: Structure of The Human Pancreatic Lipase-related Protein 2
112. 2ory: Crystal Structure of M37 Lipase
113. 2dsn: Crystal Structure of T1 Lipase
114. 2nw6: Burkholderia Cepacia Lipase Complexed with S-inhibitor
115. 2lip: Pseudomonas Lipase Open Conformation
116. 2es4: Crystal Structure of The Burkholderia Glumae Lipase- Specific Foldase in Complex with Its Cognate Lipase
117. 2fx5: Pseudomonas Mendocina Lipase
118. 2hih: Crystal Structure of Staphylococcus Hyicus Lipase
119. 3rar: X-ray Structure of a Bound Phosphonate Transition State Analog and Enantioselectivity of Candida Rugosa Lipase toward Chiral Carboxylic Acids
120. 3ngm: Crystal Structure of Lipase from Gibberella Zeae
121. 3qmm: Structure of 6b, a Thermostable Mutant of Bacillus Subtilis Lipase Obtained through Directed Evolution
122. 3auk: Crystal Structure of a Lipase from Geobacillus Sp. Sbs-4s
123. 3qzu: Crystal Structure of Bacillus Subtilis Lipase a 7-fold Mutant; The Outcome of Directed Evolution towards Thermostability
124. 3umj: Crystal Structure of D311E Lipase
125. 4dyh: Crystal Structure of Glycosylated Lipase from Humicola Lanuginosa at 2 Angstrom Resolution
126. 4ea6: Crystal Structure of Fungal Lipase from Thermomyces(humicola) Lanuginosa at 2.30 Angstrom Resolution.