Atomistry » Magnesium » PDB 5ac1-5avy
Atomistry »
  Magnesium »
    PDB 5ac1-5avy »
      5ac1 »
      5acp »
      5adu »
      5ady »
      5ael »
      5aes »
      5afx »
      5aga »
      5ahj »
      5ahk »
      5ahn »
      5ahu »
      5ais »
      5aiv »
      5aix »
      5aj3 »
      5aka »
      5akm »
      5ana »
      5ao0 »
      5ao1 »
      5aor »
      5aox »
      5ap1 »
      5aqu »
      5aqw »
      5aqy »
      5aun »
      5ar3 »
      5auo »
      5aup »
      5avq »
      5avr »
      5avs »
      5avt »
      5avu »
      5avv »
      5avw »
      5avx »

Magnesium in PDB, part 255 (files: 10161-10200), PDB 5ac1-5avy

Experimental structures of coordination spheres of Magnesium (Mg) in bioorganic molecules from X-Ray and NMR experiments. Coordination spheres were calculated with 5.0 Angstroms radius around Magnesium atoms. PDB files: 10161-10200 (PDB 5ac1-5avy).
  1. 5ac1 (Mg: 4) - Sheep Aldehyde Dehydrogenase 1A1 with Duocarmycin Analog Inhibitor
  2. 5acp (Mg: 1) - W228R-Investigation of the Impact From Residues W228 and Y233 in the Metallo-Beta-Lactamase Gim-1
    Other atoms: Zn (3);
  3. 5adu (Mg: 2) - The Mechanism of Hydrogen Activation By Nife-Hydrogenases
    Other atoms: Ni (2); Fe (26); Cl (4);
  4. 5ady (Mg: 1) - Cryo-Em Structures of the 50S Ribosome Subunit Bound with Hflx
  5. 5ael (Mg: 6) - T. Brucei Farnesyl Diphosphate Synthase Complexed with Bisphosphonate Bph-597
  6. 5aes (Mg: 2) - Crystal Structure of Murine Chronophin (Pyridoxal Phosphate Phosphatase) in Complex with A Pnp-Derived Inhibitor
  7. 5afx (Mg: 6) - T. Brucei Farnesyl Diphosphate Synthase Complexed with Bisphosphonate Bph-1238
  8. 5aga (Mg: 1) - Crystal Structure of the Helicase Domain of Human Dna Polymerase Theta in Complex with Amppnp
    Other atoms: K (1);
  9. 5ahj (Mg: 7) - Yeast 20S Proteasome in Complex with Macyranone A
    Other atoms: Cl (4);
  10. 5ahk (Mg: 2) - Crystal Structure of Acetohydroxy Acid Synthase PF5 From Pseudomonas Protegens
  11. 5ahn (Mg: 2) - Imp-Bound Form of the D199N Mutant of Impdh From Pseudomonas Aeruginosa
  12. 5ahu (Mg: 6) - T. Brucei Farnesyl Diphosphate Synthase Complexed with Bisphosphonate Bph-1326
  13. 5ais (Mg: 2) - Complex of Human Hematopoietic Prostagandin D2 Synthase (Hh- Pgds) in Complex with An Active Site Inhibitor.
  14. 5aiv (Mg: 2) - Complex of Human Hematopoietic Prostagandin D2 Synthase (Hh- Pgds) in Complex with An Active Site Inhibitor.
  15. 5aix (Mg: 2) - Complex of Human Hematopoietic Prostagandin D2 Synthase (Hh- Pgds) in Complex with An Active Site Inhibitor.
    Other atoms: F (6);
  16. 5aj3 (Mg: 144) - Structure of the Small Subunit of the Mammalian Mitoribosome
    Other atoms: Zn (3);
  17. 5aka (Mg: 110) - Em Structure of Ribosome-Srp-Ftsy Complex in Closed State
  18. 5akm (Mg: 4) - The Crystal Structure of I-Dmoi G20S in Complex with Its Target Dna in the Presence of 2MM Mg
  19. 5ana (Mg: 1) - The Crystal Structure of D(Gtacgtac) at 2.25 Angstroms Resolution. Are the A-Dna'S Always Unwound Approximately 10 Degrees at the C-G Steps
  20. 5ao0 (Mg: 2) - Crystal Structure of Human SAMHD1 (Amino Acid Residues 41-583) Bound to Ddgtp
    Other atoms: Fe (2);
  21. 5ao1 (Mg: 4) - Crystal Structure of Human SAMHD1 (Amino Acid Residues 115-583) Bound to Ddgtp
    Other atoms: Fe (4);
  22. 5aor (Mg: 3) - Structure of Mle Rna Adp ALF4 Complex
    Other atoms: F (8); Al (2);
  23. 5aox (Mg: 4) - Human Alu Rna Retrotransposition Complex in the Ribosome-Stalling Conformation
  24. 5ap1 (Mg: 3) - Naturally Occurring Mutations in the MPS1 Gene Predispose Cells to Kinase Inhibitor Drug Resistance.
  25. 5aqu (Mg: 1) - Fragment-Based Screening of HSP70 Sheds Light on the Functional Role of Atp-Binding Site Residues
  26. 5aqw (Mg: 1) - Fragment-Based Screening of HSP70 Sheds Light on the Functional Role of Atp-Binding Site Residues
  27. 5aqy (Mg: 1) - Fragment-Based Screening of HSP70 Sheds Light on the Functional Role of Atp-Binding Site Residues
  28. 5ar3 (Mg: 2) - RIP2 Kinase Catalytic Domain (1 - 310) Complex with Amp-Pcp
  29. 5aun (Mg: 2) - Crystal Structure of the Hypab-Ni Complex
    Other atoms: Ni (1); Zn (1); Cl (1);
  30. 5auo (Mg: 2) - Crystal Structure of the Hypab-Ni Complex (Amppcp)
    Other atoms: Ni (1); Zn (1); Cl (1);
  31. 5aup (Mg: 2) - Crystal Structure of the Hypab Complex
    Other atoms: Zn (2);
  32. 5avq (Mg: 2) - Kinetics By X-Ray Crystallography: Tl+-Substitution of Bound K+ in the E2.MGF42-.2K+ Crystal After 0.75 Min.
    Other atoms: F (4); K (3); Tl (3);
  33. 5avr (Mg: 2) - Kinetics By X-Ray Crystallography: Tl+-Substitution of Bound K+ in the E2.MGF42-.2K+ Crystal After 1.5 Min
    Other atoms: F (4); K (3); Tl (3);
  34. 5avs (Mg: 2) - Kinetics By X-Ray Crystallography: Tl+-Substitution of Bound K+ in the E2.MGF42-.2K+ Crystal After 3.5 Min
    Other atoms: F (4); K (2); Tl (3);
  35. 5avt (Mg: 2) - Kinetics By X-Ray Crystallography: Tl+-Substitution of Bound K+ in the E2.MGF42-.2K+ Crystal After 5 Min
    Other atoms: F (4); K (2); Tl (3);
  36. 5avu (Mg: 2) - Kinetics By X-Ray Crystallography: Tl+-Substitution of Bound K+ in the E2.MGF42-.2K+ Crystal After 7.0 Min
    Other atoms: F (4); K (2); Tl (3);
  37. 5avv (Mg: 2) - Kinetics By X-Ray Crystallography: Tl+-Substitution of Bound K+ in the E2.MGF42-.2K+ Crystal After 8.5 Min
    Other atoms: F (4); K (1); Tl (3);
  38. 5avw (Mg: 2) - Kinetics By X-Ray Crystallography: Tl+-Substitution of Bound K+ in the E2.MGF42-.2K+ Crystal After 16.5 Min
    Other atoms: F (4); K (1); Tl (3);
  39. 5avx (Mg: 2) - Kinetics By X-Ray Crystallography: Tl+-Substitution of Bound K+ in the E2.MGF42-.2K+ Crystal After 20 Min
    Other atoms: F (4); K (1); Tl (3);
  40. 5avy (Mg: 2) - Kinetics By X-Ray Crystallography: Tl+-Substitution of Bound K+ in the E2.MGF42-.2K+ Crystal After 20 Min
    Other atoms: F (4); K (1); Tl (3);
Page generated: Tue Feb 25 10:32:23 2025

Last articles

Fe in 2YXO
Fe in 2YRS
Fe in 2YXC
Fe in 2YNM
Fe in 2YVJ
Fe in 2YP1
Fe in 2YU2
Fe in 2YU1
Fe in 2YQB
Fe in 2YOO
© Copyright 2008-2020 by atomistry.com
Home   |    Site Map   |    Copyright   |    Contact us   |    Privacy