Atomistry » Magnesium » PDB 1xfx-1xom
Atomistry »
  Magnesium »
    PDB 1xfx-1xom »
      1xfx »
      1xfy »
      1xfz »
      1xg0 »
      1xg3 »
      1xg4 »
      1xhf »
      1xhx »
      1xi1 »
      1xin »
      1xj0 »
      1xje »
      1xjf »
      1xjg »
      1xjj »
      1xjk »
      1xjm »
      1xjr »
      1xl4 »
      1xl6 »
      1xlb »
      1xlc »
      1xlg »
      1xlx »
      1xlz »
      1xm4 »
      1xm6 »
      1xmi »
      1xmj »
      1xmo »
      1xmq »
      1xmu »
      1xmv »
      1xmx »
      1xmy »
      1xn0 »
      1xng »
      1xnq »
      1xnr »
      1xom »

Magnesium in PDB, part 49 (files: 1921-1960), PDB 1xfx-1xom

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: 1921-1960 (PDB 1xfx-1xom).
  1. 1xfx (Mg: 6) - Crystal Structure of Anthrax Edema Factor (Ef) in Complex with Calmodulin in the Presence of 10 Millimolar Exogenously Added Calcium Chloride
    Other atoms: Ca (24);
  2. 1xfy (Mg: 6) - Crystal Structure of Anthrax Edema Factor (Ef) in Complex with Calmodulin
    Other atoms: Ca (12);
  3. 1xfz (Mg: 6) - Crystal Structure of Anthrax Edema Factor (Ef) in Complex with Calmodulin in the Presence of 1 Millimolar Exogenously Added Calcium Chloride
    Other atoms: Ca (18);
  4. 1xg0 (Mg: 2) - High Resolution Crystal Structure of Phycoerythrin 545 From the Marine Cryptophyte Rhodomonas CS24
    Other atoms: Cl (1);
  5. 1xg3 (Mg: 4) - Crystal Structure of the C123S 2-Methylisocitrate Lyase Mutant From Escherichia Coli in Complex with the Reaction Product, Mg(II)-Pyruvate and Succinate
  6. 1xg4 (Mg: 3) - Crystal Structure of the C123S 2-Methylisocitrate Lyase Mutant From Escherichia Coli in Complex with the Inhibitor Isocitrate
  7. 1xhf (Mg: 2) - Crystal Structure of the BEF3-Activated Receiver Domain of Redox Response Regulator Arca
    Other atoms: F (15);
  8. 1xhx (Mg: 2) - PHI29 Dna Polymerase, Orthorhombic Crystal Form
  9. 1xi1 (Mg: 2) - PHI29 Dna Polymerase Ssdna Complex, Monoclinic Crystal Form
  10. 1xin (Mg: 4) - Protein Engineering of Xylose (Glucose) Isomerase From Actinoplanes Missouriensis. 1. Crystallography and Site- Directed Mutagenesis of Metal Binding Sites
  11. 1xj0 (Mg: 2) - Crystal Structure of the Gdp-Bound Form of the RASG60A Mutant
  12. 1xje (Mg: 2) - Structural Mechanism of Allosteric Substrate Specificity in A Ribonucleotide Reductase: Dttp-Gdp Complex
  13. 1xjf (Mg: 2) - Structural Mechanism of Allosteric Substrate Specificity in A Ribonucleotide Reductase: Datp Complex
  14. 1xjg (Mg: 2) - Structural Mechanism of Allosteric Substrate Specificity in A Ribonucleotide Reductase: Datp-Udp Complex
  15. 1xjj (Mg: 2) - Structural Mechanism of Allosteric Substrate Specificity in A Ribonucleotide Reductase: Dgtp Complex
  16. 1xjk (Mg: 2) - Structural Mechanism of Allosteric Substrate Specificity in A Ribonucleotide Reductase: Dgtp-Adp Complex
  17. 1xjm (Mg: 2) - Structural Mechanism of Allosteric Substrate Specificity in A Ribonucleotide Reductase: Dttp Complex
  18. 1xjr (Mg: 2) - The Structure of A Rigorously Conserved Rna Element Within the Sars Virus Genome
  19. 1xl4 (Mg: 1) - Intermediate Gating Structure 1 of the Inwardly Rectifying K+ Channel KIRBAC3.1
    Other atoms: K (5);
  20. 1xl6 (Mg: 1) - Intermediate Gating Structure 2 of the Inwardly Rectifying K+ Channel KIRBAC3.1
    Other atoms: K (7);
  21. 1xlb (Mg: 2) - Mechanism For Aldose-Ketose Interconversion By D-Xylose Isomerase Involving Ring Opening Followed By A 1,2-Hydride Shift
  22. 1xlc (Mg: 2) - Mechanism For Aldose-Ketose Interconversion By D-Xylose Isomerase Involving Ring Opening Followed By A 1,2-Hydride Shift
  23. 1xlg (Mg: 2) - Mechanism For Aldose-Ketose Interconversion By D-Xylose Isomerase Involving Ring Opening Followed By A 1,2-Hydride Shift
    Other atoms: Al (2);
  24. 1xlx (Mg: 2) - Catalytic Domain of Human Phosphodiesterase 4B in Complex with Cilomilast
    Other atoms: Zn (2);
  25. 1xlz (Mg: 2) - Catalytic Domain of Human Phosphodiesterase 4B in Complex with Filaminast
    Other atoms: Zn (2);
  26. 1xm4 (Mg: 2) - Catalytic Domain of Human Phosphodiesterase 4B in Complex with Piclamilast
    Other atoms: Cl (4); Zn (2);
  27. 1xm6 (Mg: 2) - Catalytic Domain of Human Phosphodiesterase 4B in Complex with (R)-Mesopram
    Other atoms: Zn (2);
  28. 1xmi (Mg: 5) - Crystal Structure of Human F508A NBD1 Domain with Atp
  29. 1xmj (Mg: 1) - Crystal Structure of Human DELTAF508 Human NBD1 Domain with Atp
  30. 1xmo (Mg: 107) - Crystal Structure of MNM5U34T6A37-Trnalysuuu Complexed with Aag-Mrna in the Decoding Center
    Other atoms: Zn (2);
  31. 1xmq (Mg: 107) - Crystal Structure of T6A37-Asllysuuu Aaa-Mrna Bound to the Decoding Center
    Other atoms: Zn (2);
  32. 1xmu (Mg: 2) - Catalytic Domain of Human Phosphodiesterase 4B in Complex with Roflumilast
    Other atoms: F (4); Cl (4); Zn (2);
  33. 1xmv (Mg: 4) - "E. Coli Reca in Complex with Mgadp"
  34. 1xmx (Mg: 1) - Crystal Structure of Protein VC1899 From Vibrio Cholerae
  35. 1xmy (Mg: 2) - Catalytic Domain of Human Phosphodiesterase 4B in Complex with (R)-Rolipram
    Other atoms: Zn (2);
  36. 1xn0 (Mg: 2) - Catalytic Domain of Human Phosphodiesterase 4B in Complex with (R,S)-Rolipram
    Other atoms: Zn (2);
  37. 1xng (Mg: 2) - Crystal Structure of NH3-Dependent Nad+ Synthetase From Helicobacter Pylori
  38. 1xnq (Mg: 107) - Structure of An Inosine-Adenine Wobble Base Pair Complex in the Context of the Decoding Center
    Other atoms: Zn (2);
  39. 1xnr (Mg: 108) - Crystal Structure of An Inosine-Cytosine Wobble Base Pair in the Context of the Decoding Center
    Other atoms: Zn (2);
  40. 1xom (Mg: 2) - Catalytic Domain of Human Phosphodiesterase 4D in Complex with Cilomilast
    Other atoms: Zn (2);
Page generated: Sat Apr 17 16:19:28 2021

Last articles

Zn in 7M6U
Zn in 7NNG
Zn in 7NEE
Zn in 7NEU
Zn in 7M3K
Zn in 7KWD
Zn in 7KYH
Zn in 7KNG
Zn in 7KY2
Zn in 7KYF
© Copyright 2008-2020 by atomistry.com
Home   |    Site Map   |    Copyright   |    Contact us   |    Privacy