Chemical elements
  Magnesium
    Isotopes
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    Physical Properties
    Chemical Properties
    PDB 101d-1atr
    PDB 1ats-1bup
    PDB 1bvw-1cp8
    PDB 1cqi-1d9d
    PDB 1d9z-1dxe
    PDB 1dxf-1ed9
    PDB 1edr-1f2u
    PDB 1f3f-1fmw
    PDB 1fnm-1g8n
    PDB 1g8t-1gtv
    PDB 1gua-1hnz
    PDB 1hpm-1i95
    PDB 1i96-1iv2
    PDB 1iv3-1jgy
    PDB 1jgz-1k01
    PDB 1k02-1kil
    PDB 1kiz-1l3p
    PDB 1l3r-1lvh
    PDB 1lvk-1mn9
    PDB 1mnd-1n33
    PDB 1n52-1ngg
    PDB 1ngj-1ntb
    PDB 1nu4-1o93
    PDB 1o9t-1ouo
    PDB 1ouq-1pg4
    PDB 1php-1q54
    PDB 1q5h-1qgx
    PDB 1qh1-1r4a
    PDB 1r4x-1rqy
    PDB 1rrf-1s9j
    PDB 1sa0-1svm
    PDB 1svs-1te6
    PDB 1tez-1u0c
    PDB 1u0h-1uhx
    PDB 1uik-1vc9
    PDB 1vcl-1vsd
    PDB 1vst-1wax
    PDB 1wb1-1wzn
    PDB 1x06-1xg4
    PDB 1xhf-1xqa
    PDB 1xr1-1y84
    PDB 1y8a-1yns
    PDB 1yq2-1z0a
    PDB 1z0d-1zc4
    PDB 1zca-1zvq
    PDB 1zvw-2a5l
    PDB 2a5y-2anr
    PDB 2anv-2b8q
    PDB 2b8r-2bku
    PDB 2bm0-2c18
    PDB 2c19-2cic
    PDB 2cie-2d0q
    PDB 2d1k-2dw6
    PDB 2dw7-2egh
    PDB 2eh3-2f6t
    PDB 2f6v-2fmh
    PDB 2fmk-2g3h
    PDB 2g3s-2gl5
    PDB 2gl6-2h7v
    PDB 2h7x-2hne
    PDB 2hny-2i34
    PDB 2i3d-2io7
    PDB 2io8-2j3e
    PDB 2j3q-2jg1
    PDB 2jg2-2nvu
    PDB 2nvx-2oem
    PDB 2ofw-2our
    PDB 2ous-2pcl
    PDB 2pda-2px3
    PDB 2pxi-2q5z
    PDB 2q66-2qlx
    PDB 2qm1-2qwy
    PDB 2qx0-2rdr
    PDB 2rds-2uxq
    PDB 2uxr-2vbn
    PDB 2vbu-2vk8
    PDB 2vkf-2w7x
    PDB 2w83-2wi3
    PDB 2wia-2wzd
    PDB 2wzg-2xcp
    PDB 2xdg-2y0s
    PDB 2y3p-2z4r
    PDB 2z4s-2zjy
    PDB 2zkj-301d
    PDB 302d-3a5k
    PDB 3a5l-3ak8
    PDB 3ak9-3bb3
    PDB 3bb4-3bsu
    PDB 3btx-3c95
    PDB 3c9h-3ckg
    PDB 3clc-3cxc
    PDB 3cxo-3der
    PDB 3des-3du3
    PDB 3du7-3e84
    PDB 3e8m-3eni
    PDB 3eno-3ezw
    PDB 3ezx-3fcs
    PDB 3fct-3fqr
    PDB 3fqt-3g3y
    PDB 3g45-3gj3
    PDB 3gj4-3gve
    PDB 3gvn-3hdz
    PDB 3hfw-3hrz
    PDB 3hs0-3hzt
    PDB 3hzv-3iaf
    PDB 3iak-3ilo
    PDB 3imd-3jvt
    PDB 3jvv-3ka6
    PDB 3ka8-3kkp
    PDB 3kkq-3kxi
    PDB 3kxo-3ldw
    PDB 3lee-3lwm
    PDB 3lwn-3mey
    PDB 3mf4-3n23
    PDB 3n2a-3nkv
    PDB 3nl3-3ocm
    PDB 3ocu-3oiu
    PDB 3oiv-3oye
    PDB 3oyf-3pu9
    PDB 3pwx-3rmj
    PDB 3ro8-3t3p
    PDB 3t5t-3ukd
    PDB 3umm-3v9w
      3umm
      3upl
      3upy
      3uq1
      3uq2
      3uqy
      3usc
      3use
      3ut5
      3uyd
      3uyf
      3uz3
      3uz4
      3uz6
      3uz7
      3uzd
      3uzg
      3uzi
      3uzl
      3uzm
      3uzs
      3uzt
      3v01
      3v04
      3v11
      3v1v
      3v1x
      3v22
      3v23
      3v24
      3v25
      3v26
      3v27
      3v28
      3v29
      3v2c
      3v2d
      3v2e
      3v2f
      3v34
      3v3y
      3v3z
      3v4f
      3v6h
      3v6j
      3v6k
      3v7e
      3v9s
      3v9u
      3v9w
    PDB 3v9x-412d
    PDB 421p-4aov
    PDB 4ap5-4dg1
    PDB 4dh1-4dug
    PDB 4dwd-4en4
    PDB 4en5-4fk1
    PDB 4fkx-8ici
    PDB 8ruc-9rub

Magnesium in PDB, part 123 (6101-6150), PDB files 3umm - 3v9w






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 6101-6150 (3umm - 3v9w):
  1. 3umm - Formylglycinamide Ribonucleotide Amidotransferase From Salmonella Typhimurium: Role of the Atp Complexation and Glutaminase Domain in Catalytic Coupling
  2. 3upl - Crystal Structure Of The Brucella Abortus Enzyme Catalyzing The First Committed Step of the Methylerythritol 4-Phosphate Pathway.
  3. 3upy - Crystal Structure Of The Brucella Abortus Enzyme Catalyzing The First Committed Step of the Methylerythritol 4-Phosphate Pathway.
  4. 3uq1 - Crystal Structure Of The Pre-Catalytic Ternary Complex of Polymerase Lambda With A Datp Analog Opposite A Templating T and A Rcmp At the Primer Terminus.
  5. 3uq2 - Crystal Structure Of The Post-Catalytic Product Complex of Polymerase Lambda With An Ramp Inserted Opposite A Templating G and Damp Inserted Opposite A Templating T At the Primer Terminus.
  6. 3uqy - H2-Reduced Structure of E. Coli Hydrogenase-1
  7. 3usc - Crystal Structure of E. Coli Hydrogenase-1 in A Ferricyanide-Oxidized Form
  8. 3use - Crystal Structure of E. Coli Hydrogenase-1 in Its As-Isolated Form
  9. 3ut5 - Tubulin-Colchicine-Ustiloxin: Stathmin-Like Domain Complex
  10. 3uyd - Crystal Structure Analysis Of Ribosomal Decoding. This Entry Contains The 30S Ribosomal Subunit of The First 70S Molecule in The Asymmetric Unit For the Near-Cognate Trna-Leu Complex
  11. 3uyf - Crystal Structure Analysis Of Ribosomal Decoding. This Entry Contains The 30S Ribosomal Subunit of The First 70S Molecule in The Asymmetric Unit For the Near-Cognate Trna-Leu Complex
  12. 3uz3 - Crystal Structure Analysis Of Ribosomal Decoding. This Entry Contains The 30S Ribosomal Subunit of The First 70S Molecule in The Asymmetric Unit For the Near-Cognate Trna-Leu Complex With Paromomycin.
  13. 3uz4 - Crystal Structure Analysis Of Ribosomal Decoding. This Entry Contains The 30S Ribosomal Subunit of The Second 70S Molecule in The Asymmetric Unit For the Near-Cognate Trna-Leu Complex With Paromomycin.
  14. 3uz6 - Structure Analysis Of Ribosomal Decoding. This Entry Contains The 30S Ribosomal Subunit of The First 70S Molecule in The Asymmetric Unit For the Cognate Trna-Tyr Complex
  15. 3uz7 - Crystal Structure Analysis Of Ribosomal Decoding. This Entry Contains The 30S Ribosomal Subunit of The Second 70S Molecule in The Asymmetric Unit For the Cognate Trna-Tyr Complex.
  16. 3uzd - Crystal Structure of 14-3-3 Gamma
  17. 3uzg - Crystal Structure Analysis Of Ribosomal Decoding. This Entry Contains The 30S Ribosomal Subunit of The First 70S Molecule in The Asymmetric Unit For the Near-Cognate Trna-Tyr Complex
  18. 3uzi - Crystal Structure Analysis Of Ribosomal Decoding. This Entry Contains The 30S Ribosomal Subunit of The Second 70S Molecule in The Asymmetric Unit For the Near-Cognate Trna-Tyr Complex
  19. 3uzl - Crystal Structure Analysis Of Ribosomal Decoding. This Entry Contains The 30S Ribosomal Subunit of The First 70S Molecule in The Asymmetric Unit For the Near-Cognate Trna-Tyr Complex With Paromomycin
  20. 3uzm - Crystal Structure Analysis Of Ribosomal Decoding. This Entry Contains The 30S Ribosomal Subunit of The First 70S Molecule in The Asymmetric Unit For the Near-Cognate Trna-Tyr Complex With Paromomycin
  21. 3uzs - Structure of The C13.28 Rna Aptamer Bound to the G Protein-Coupled Receptor Kinase 2-Heterotrimeric G Protein Beta 1 and Gamma 2 Subunit Complex
  22. 3uzt - Structure of the C13.18 Rna Aptamer in Complex With G Protein-Coupled Receptor Kinase 2
  23. 3v01 - Discovery of Novel Allosteric Mek Inhibitors Possessing Classical and Non-Classical Bidentate SER212 Interactions.
  24. 3v04 - Discovery of Novel Allosteric Mek Inhibitors Possessing Classical and Non-Classical Bidentate SER212 Interactions.
  25. 3v11 - Structure of the Ternary Initiation Complex AIF2:Gdpnp:Methionylated Initiator Trna
  26. 3v1v - Crystal Structure of 2-Methylisoborneol Synthase From Streptomyces Coelicolor A3(2) in Complex With MG2+ and Geranyl-S-Thiolodiphosphate
  27. 3v1x - Crystal Structure of 2-Methylisoborneol Synthase From Streptomyces Coelicolor A3(2) in Complex With MG2+ and 2-Fluorogeranyl Diphosphate
  28. 3v22 - Crystal Structure Of Rmf Bound to The 70S Ribosome. This Pdb Entry Contains Coordinates For The 30S Subunit With Bound Rmf of The 1ST Ribosome in the Asu
  29. 3v23 - Crystal Structure Of Rmf Bound to The 70S Ribosome. This Pdb Entry Contains Coordinates For The 50S Subunit of The 1ST Ribosome in the Asu
  30. 3v24 - Crystal Structure Of Rmf Bound to The 70S Ribosome. This Pdb Entry Contains Coordinates For The 30S Subunit With Bound Rmf of The 2ND Ribosome in the Asu
  31. 3v25 - Crystal Structure Of Rmf Bound to The 70S Ribosome. This Pdb Entry Contains Coordinates For The 50S Subunit of The 2ND Ribosome in the Asu
  32. 3v26 - Crystal Structure Of Hpf Bound to The 70S Ribosome. This Pdb Entry Contains Coordinates For The 30S Subunit With Bound Hpf of The 1ST Ribosome in the Asu
  33. 3v27 - Crystal Structure Of Hpf Bound to The 70S Ribosome. This Pdb Entry Contains Coordinates For The 50S Subunit of The 1ST Ribosome in the Asu
  34. 3v28 - Crystal Structure Of Hpf Bound to The 70S Ribosome. This Pdb Entry Contains Coordinates For The 30S Subunit With Bound Hpf of The 2ND Ribosome in the Asu
  35. 3v29 - Crystal Structure Of Hpf Bound to The 70S Ribosome. This Entry Contains The 50S Subunit of The 2ND Molecule in the Asu.
  36. 3v2c - Crystal Structure Of Yfia Bound to The 70S Ribosome. This Pdb Entry Contains Coordinates For The 30S Subunit With Bound Yfia of The 1ST Ribosome in the Asu
  37. 3v2d - Crystal Structure Of Yfia Bound to The 70S Ribosome. This Pdb Entry Contains Coordinates For The 50S Subunit of The 1ST Ribosome in the Asu
  38. 3v2e - Crystal Structure Of Yfia Bound to The 70S Ribosome. This Pdb Entry Contains Coordinates For The 30S Subunit With Bound Yfia of The 2ND Ribosome in the Asu
  39. 3v2f - Crystal Structure Of Yfia Bound to The 70S Ribosome. This Pdb Entry Contains Coordinates For The 50S Subunit of The 2ND Ribosome in the Asu
  40. 3v34 - Crystal Structure of MCPIP1 Conserved Domain With Magnesium Ion in the Catalytic Center
  41. 3v3y - Photosynthetic Reaction Center From Rhodobacter Sphaeroides Strain Rv
  42. 3v3z - I(L177)H Mutant Structure of Photosynthetic Reaction Center From Rhodobacter Sphaeroides
  43. 3v4f - H-Ras Set 1 Peg 400/CACL2
  44. 3v6h - Replication of N2,3-Ethenoguanine By Dna Polymerases
  45. 3v6j - Replication of N2,3-Ethenoguanine By Dna Polymerases
  46. 3v6k - Replication of N2,3-Ethenoguanine By Dna Polymerases
  47. 3v7e - Crystal Structure of Ybxf Bound to the Sam-I Riboswitch Aptamer
  48. 3v9s - Crystal Structure of Rnase T In Complex With A Product Ssdna (Aac) With One Mg in the Active Site
  49. 3v9u - Crystal Structure of Rnase T In Complex With A Preferred Ssdna (Aat) With Two Mg in the Active Site
  50. 3v9w - Crystal Structure of Rnase T In Complex With A Preferred Ssdna (Tta) With Two Mg in the Active Site


Acknowledgement

We would like to acknowledge that these pictures of PDB structures of Magnesium coordination spheres were produced with valuable advice from our colleagues from http://3dpdb.com.
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