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Chlorine in PDB, part 18 (files: 681-720), PDB 1l63-1l9m

Experimental structures of coordination spheres of Chlorine (Cl) in bioorganic molecules from X-Ray and NMR experiments. Coordination spheres were calculated with 5.0 Angstroms radius around Chlorine atoms. PDB files: 681-720 (PDB 1l63-1l9m).
  1. 1l63 (Cl: 2) - Analysis of the Interaction Between Charged Side Chains and the Alpha-Helix Dipole Using Designed Thermostable Mutants of Phage T4 Lysozyme
  2. 1l64 (Cl: 2) - Tolerance of T4 Lysozyme to Multiple Xaa (Right Arrow) Ala Substitutions: A Polyalanine Alpha-Helix Containing Ten Consecutive Alanines
  3. 1l65 (Cl: 2) - Tolerance of T4 Lysozyme to Multiple Xaa (Right Arrow) Ala Substitutions: A Polyalanine Alpha-Helix Containing Ten Consecutive Alanines
  4. 1l66 (Cl: 2) - Tolerance of T4 Lysozyme to Multiple Xaa (Right Arrow) Ala Substitutions: A Polyalanine Alpha-Helix Containing Ten Consecutive Alanines
  5. 1l67 (Cl: 2) - Tolerance of T4 Lysozyme to Multiple Xaa (Right Arrow) Ala Substitutions: A Polyalanine Alpha-Helix Containing Ten Consecutive Alanines
  6. 1l68 (Cl: 2) - Tolerance of T4 Lysozyme to Multiple Xaa (Right Arrow) Ala Substitutions: A Polyalanine Alpha-Helix Containing Ten Consecutive Alanines
  7. 1l69 (Cl: 2) - Multiple Stabilizing Alanine Replacements Within Alpha- Helix 126-134 of T4 Lysozyme Have Independent, Additive Effects on Both Structure and Stability
  8. 1l70 (Cl: 3) - Multiple Stabilizing Alanine Replacements Within Alpha- Helix 126-134 of T4 Lysozyme Have Independent, Additive Effects on Both Structure and Stability
  9. 1l71 (Cl: 2) - Multiple Stabilizing Alanine Replacements Within Alpha- Helix 126-134 of T4 Lysozyme Have Independent, Additive Effects on Both Structure and Stability
  10. 1l72 (Cl: 2) - Multiple Stabilizing Alanine Replacements Within Alpha- Helix 126-134 of T4 Lysozyme Have Independent, Additive Effects on Both Structure and Stability
  11. 1l73 (Cl: 3) - Multiple Stabilizing Alanine Replacements Within Alpha- Helix 126-134 of T4 Lysozyme Have Independent, Additive Effects on Both Structure and Stability
  12. 1l74 (Cl: 3) - Multiple Stabilizing Alanine Replacements Within Alpha- Helix 126-134 of T4 Lysozyme Have Independent, Additive Effects on Both Structure and Stability
  13. 1l75 (Cl: 3) - Multiple Stabilizing Alanine Replacements Within Alpha- Helix 126-134 of T4 Lysozyme Have Independent, Additive Effects on Both Structure and Stability
  14. 1l76 (Cl: 2) - Tolerance of T4 Lysozyme to Proline Substitutions Within the Long Interdomain Alpha-Helix Illustrates the Adaptability of Proteins to Potentially Destabilizing Lesions
  15. 1l77 (Cl: 2) - Design and Structural Analysis of Alternative Hydrophobic Core Packing Arrangements in Bacteriophage T4 Lysozyme
  16. 1l79 (Cl: 2) - Design and Structural Analysis of Alternative Hydrophobic Core Packing Arrangements in Bacteriophage T4 Lysozyme
  17. 1l7x (Cl: 2) - Human Liver Glycogen Phosphorylase B Complexed with Caffeine, N-Acetyl-Beta-D-Glucopyranosylamine, and Cp-403, 700
  18. 1l80 (Cl: 2) - Design and Structural Analysis of Alternative Hydrophobic Core Packing Arrangements in Bacteriophage T4 Lysozyme
  19. 1l81 (Cl: 2) - Design and Structural Analysis of Alternative Hydrophobic Core Packing Arrangements in Bacteriophage T4 Lysozyme
  20. 1l82 (Cl: 2) - Design and Structural Analysis of Alternative Hydrophobic Core Packing Arrangements in Bacteriophage T4 Lysozyme
  21. 1l83 (Cl: 2) - A Cavity-Containing Mutant of T4 Lysozyme Is Stabilized By Buried Benzene
  22. 1l84 (Cl: 2) - A Cavity-Containing Mutant of T4 Lysozyme Is Stabilized By Buried Benzene
  23. 1l85 (Cl: 2) - Similar Hydrophobic Replacements of Leu 99 and Phe 153 Within the Core of T4 Lysozyme Have Different Structural and Thermodynamic Consequences
  24. 1l86 (Cl: 2) - Similar Hydrophobic Replacements of Leu 99 and Phe 153 Within the Core of T4 Lysozyme Have Different Structural and Thermodynamic Consequences
  25. 1l87 (Cl: 2) - Similar Hydrophobic Replacements of Leu 99 and Phe 153 Within the Core of T4 Lysozyme Have Different Structural and Thermodynamic Consequences
  26. 1l88 (Cl: 2) - Similar Hydrophobic Replacements of Leu 99 and Phe 153 Within the Core of T4 Lysozyme Have Different Structural and Thermodynamic Consequences
  27. 1l89 (Cl: 2) - Similar Hydrophobic Replacements of Leu 99 and Phe 153 Within the Core of T4 Lysozyme Have Different Structural and Thermodynamic Consequences
  28. 1l90 (Cl: 2) - Similar Hydrophobic Replacements of Leu 99 and Phe 153 Within the Core of T4 Lysozyme Have Different Structural and Thermodynamic Consequences
  29. 1l91 (Cl: 2) - Similar Hydrophobic Replacements of Leu 99 and Phe 153 Within the Core of T4 Lysozyme Have Different Structural and Thermodynamic Consequences
  30. 1l92 (Cl: 2) - Similar Hydrophobic Replacements of Leu 99 and Phe 153 Within the Core of T4 Lysozyme Have Different Structural and Thermodynamic Consequences
  31. 1l93 (Cl: 2) - Similar Hydrophobic Replacements of Leu 99 and Phe 153 Within the Core of T4 Lysozyme Have Different Structural and Thermodynamic Consequences
  32. 1l94 (Cl: 2) - Similar Hydrophobic Replacements of Leu 99 and Phe 153 Within the Core of T4 Lysozyme Have Different Structural and Thermodynamic Consequences
  33. 1l95 (Cl: 2) - Similar Hydrophobic Replacements of Leu 99 and Phe 153 Within the Core of T4 Lysozyme Have Different Structural and Thermodynamic Consequences
  34. 1l96 (Cl: 2) - Structure of A Hinge-Bending Bacteriophage T4 Lysozyme Mutant, ILE3-> Pro
  35. 1l9b (Cl: 1) - X-Ray Structure of the Cytochrome-C(2)-Photosynthetic Reaction Center Electron Transfer Complex From Rhodobacter Sphaeroides in Type II Co-Crystals
    Other atoms: Mg (4); Fe (2); Na (1);
  36. 1l9c (Cl: 2) - Role of Histidine 269 in Catalysis By Monomeric Sarcosine Oxidase
  37. 1l9d (Cl: 2) - Role of Histidine 269 in Catalysis By Monomeric Sarcosine Oxidase
  38. 1l9e (Cl: 2) - Role of Histidine 269 in Catalysis By Monomeric Sarcosine Oxidase
  39. 1l9j (Cl: 2) - X-Ray Structure of the Cytochrome-C(2)-Photosynthetic Reaction Center Electron Transfer Complex From Rhodobacter Sphaeroides in Type I Co-Crystals
    Other atoms: Mg (8); Fe (4);
  40. 1l9m (Cl: 2) - Three-Dimensional Structure of the Human Transglutaminase 3 Enzyme: Binding of Calcium Ions Change Structure For Activation
    Other atoms: Br (2); Ca (2);
Page generated: Sat Feb 15 16:28:15 2025

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