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Chlorine in PDB, part 2 (files: 41-80), PDB 162l-1ag9

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: 41-80 (PDB 162l-1ag9).
  1. 162l (Cl: 2) - Control of Enzyme Activity By An Engineered Disulfide Bond
  2. 163l (Cl: 2) - Control of Enzyme Activity By An Engineered Disulfide Bond
  3. 164l (Cl: 2) - Control of Enzyme Activity By An Engineered Disulfide Bond
  4. 165l (Cl: 2) - Control of Enzyme Activity By An Engineered Disulfide Bond
  5. 166l (Cl: 2) - Control of Enzyme Activity By An Engineered Disulfide Bond
  6. 176l (Cl: 1) - Protein Flexibility and Adaptability Seen in 25 Crystal Forms of T4 Lysozyme
  7. 178l (Cl: 2) - Protein Flexibility and Adaptability Seen in 25 Crystal Forms of T4 Lysozyme
  8. 181l (Cl: 2) - Specificity of Ligand Binding in A Buried Non-Polar Cavity of T4 Lysozyme: Linkage of Dynamics and Structural Plasticity
  9. 182l (Cl: 2) - Specificity of Ligand Binding in A Buried Non-Polar Cavity of T4 Lysozyme: Linkage of Dynamics and Structural Plasticity
  10. 183l (Cl: 2) - Specificity of Ligand Binding in A Buried Non-Polar Cavity of T4 Lysozyme: Linkage of Dynamics and Structural Plasticity
  11. 184l (Cl: 2) - Specificity of Ligand Binding in A Buried Non-Polar Cavity of T4 Lysozyme: Linkage of Dynamics and Structural Plasticity
  12. 185l (Cl: 2) - Specificity of Ligand Binding in A Buried Non-Polar Cavity of T4 Lysozyme: Linkage of Dynamics and Structural Plasticity
  13. 186l (Cl: 2) - Specificity of Ligand Binding in A Buried Non-Polar Cavity of T4 Lysozyme: Linkage of Dynamics and Structural Plasticity
  14. 187l (Cl: 2) - Specificity of Ligand Binding in A Buried Non-Polar Cavity of T4 Lysozyme: Linkage of Dynamics and Structural Plasticity
  15. 188l (Cl: 2) - Specificity of Ligand Binding in A Buried Non-Polar Cavity of T4 Lysozyme: Linkage of Dynamics and Structural Plasticity
  16. 190l (Cl: 2) - A Helix Initiation Signal in T4 Lysozyme Identified By Polyalanine Mutagenesis
  17. 191l (Cl: 3) - A Helix Initiation Signal in T4 Lysozyme Identified By Polyalanine Mutagenesis
  18. 192l (Cl: 2) - A Helix Initiation Signal in T4 Lysozyme Identified By Polyalanine Mutagenesis
  19. 193l (Cl: 1) - The 1.33 A Structure of Tetragonal Hen Egg White Lysozyme
    Other atoms: Na (1);
  20. 194l (Cl: 1) - The 1.40 A Structure of Spacehab-01 Hen Egg White Lysozyme
    Other atoms: Na (1);
  21. 195l (Cl: 2) - Thermodynamic and Structural Compensation in "Size-Switch" Core-Repacking Variants of T4 Lysozyme
  22. 196l (Cl: 2) - Thermodynamic and Structural Compensation in "Size-Switch" Core-Repacking Variants of T4 Lysozyme
  23. 197l (Cl: 2) - Thermodynamic and Structural Compensation in "Size-Switch" Core-Repacking Variants of T4 Lysozyme
  24. 198l (Cl: 2) - Thermodynamic and Structural Compensation in "Size-Switch" Core-Repacking Variants of T4 Lysozyme
  25. 199l (Cl: 2) - Thermodynamic and Structural Compensation in "Size-Switch" Core-Repacking Variants of T4 Lysozyme
  26. 1a2a (Cl: 4) - Agkistrotoxin, A Phospholipase A2-Type Presynaptic Neurotoxin From Agkistrodon Halys Pallas
  27. 1a2d (Cl: 2) - Pyridoxamine Modified Murine Adipocyte Lipid Binding Protein
  28. 1a2w (Cl: 2) - Crystal Structure of A 3D Domain-Swapped Dimer of Bovine Pancreatic Ribonuclease A
  29. 1a7d (Cl: 3) - Chloromet Myohemerythrin From Themiste Zostericola
    Other atoms: Fe (2);
  30. 1a7e (Cl: 2) - Hydroxomet Myohemerythrin From Themiste Zostericola
    Other atoms: Fe (2);
  31. 1a7s (Cl: 1) - Atomic Resolution Structure of Hbp
  32. 1a7w (Cl: 1) - Crystal Structure of the Histone Hmfb From Methanothermus Fervidus
    Other atoms: Zn (1);
  33. 1a7z (Cl: 3) - Crystal Structure of Actinomycin Z3
  34. 1a9x (Cl: 28) - Carbamoyl Phosphate Synthetase: Caught in the Act of Glutamine Hydrolysis
    Other atoms: K (32); Mn (12);
  35. 1aa0 (Cl: 1) - Fibritin Deletion Mutant E (Bacteriophage T4)
    Other atoms: Zn (1);
  36. 1aa5 (Cl: 8) - Vancomycin
  37. 1afa (Cl: 2) - Structural Basis of Galactose Recognition in C-Type Animal Lectins
    Other atoms: Ca (9);
  38. 1afb (Cl: 2) - Structural Basis of Galactose Recognition in C-Type Animal Lectins
    Other atoms: Ca (9);
  39. 1afd (Cl: 2) - Structural Basis of Galactose Recognition in C-Type Animal Lectins
    Other atoms: Ca (8);
  40. 1ag9 (Cl: 2) - Flavodoxins That Are Required For Enzyme Activation: the Structure of Oxidized Flavodoxin From Escherichia Coli at 1.8 Angstroms Resolution.
    Other atoms: Ca (4); Na (4);
Page generated: Thu Dec 28 01:56:46 2023

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