Krypton in PDB, part 1 (files: 1-40),
PDB 1c61-7r2s
Experimental structures of coordination spheres of Krypton (Kr) in bioorganic
molecules from X-Ray and NMR experiments. Coordination spheres were calculated with 5.0 Angstroms radius
around Krypton atoms. PDB files: 1-40 (PDB 1c61-7r2s).
-
1c61 (Kr: 3) - T4 Lysozyme Mutant C54T/C97A/F153A in the Presence of 8 Atm Krypton
Other atoms:
Cl (2);
-
1c64 (Kr: 1) - T4 Lysozyme Mutant C54T/C97A/L121A in the Presence of 8 Atm Krypton
Other atoms:
Cl (2);
-
1c67 (Kr: 3) - T4 Lysozyme Mutant C54T/C97A/L121A/L133A in the Presence of 8 Atm Krypton
Other atoms:
Cl (2);
-
1c6a (Kr: 2) - T4 Lysozyme Mutant C54T/C97A/L133A in the Presence of 8 Atm Krypton
Other atoms:
Cl (2);
-
1c6d (Kr: 3) - T4 Lysozyme Mutant C54T/C97A/L99A in the Presence of 16 Atm Krypton
Other atoms:
Cl (2);
-
1c6g (Kr: 2) - T4 Lysozyme Mutant C54T/C97A/L99A in the Presence of 4 Atm Krypton
Other atoms:
Cl (2);
-
1c6j (Kr: 3) - T4 Lysozyme Mutant C54T/C97A/L99A in the Presence of 8 Atm Krypton
Other atoms:
Cl (2);
-
1c6m (Kr: 4) - T4 Lysozyme Mutant C54T/C97A/L99A/F153A in the Presence of 8 Atm Krypton
Other atoms:
Cl (2);
-
1c6q (Kr: 1) - T4 Lysozyme Mutant C54T/C97A in the Presence of 8 Atm Krypton
Other atoms:
Cl (2);
-
1o1h (Kr: 4) - Structure of Glucose Isomerase Derivatized with Kr.
Other atoms:
Mg (2);
Cl (4);
Ca (2);
-
1qtk (Kr: 1) - Crystal Structure of Hew Lysozyme Under Pressure of Krypton (55 Bar)
Other atoms:
Cl (4);
Na (1);
-
3gkt (Kr: 2) - Crystal Structure of Murine Neuroglobin Under Kr Pressure
Other atoms:
Fe (2);
-
5d51 (Kr: 23) - Krypton Derivatization of An O2-Tolerant Membrane-Bound [Nife] Hydrogenase Reveals A Hydrophobic Gas Tunnel Network
Other atoms:
Ni (1);
Mg (1);
Fe (13);
Cl (2);
-
5fsp (Kr: 8) - Structure of Thermolysin Prepared By the 'Soak-and-Freeze' Method Under 100 Bar of Krypton Pressure
Other atoms:
Ca (4);
Zn (1);
-
5fss (Kr: 2) - Structure of Thermolysin Prepared By the 'Soak-and-Freeze' Method Under 40 Bar of Krypton Pressure
Other atoms:
Ca (4);
Zn (2);
-
5fst (Kr: 5) - Structure of Lysozyme Prepared By the 'Soak-and-Freeze' Method Under 100 Bar of Krypton Pressure
Other atoms:
Cl (8);
Na (1);
-
5m5f (Kr: 2) - Thermolysin in Complex with Inhibitor and Krypton
Other atoms:
Zn (1);
Ca (4);
-
5nw6 (Kr: 3) - Crystal Structure of Murine Neuroglobin Under 50 Bar Krypton Pressure
Other atoms:
Fe (1);
-
5o17 (Kr: 4) - Crystal Structure of Murine Neuroglobin Under 100 Bar Krypton
Other atoms:
Fe (1);
-
6eye (Kr: 17) - Crystal Structure of Murine Neuroglobin Under 150 Bar Krypton
Other atoms:
Fe (1);
-
6ic1 (Kr: 2) - Urate Oxidase Under 90 Bar of Krypton
Other atoms:
Na (1);
-
6rgm (Kr: 3) - Urate Oxidase Under 130 Bar of Krypton
Other atoms:
Na (1);
-
6sp8 (Kr: 21) - Structure of Hyperstable Haloalkane Dehalogenase Variant DHAA115 Prepared By the 'Soak-and-Freeze' Method Under 150 Bar of Krypton Pressure
-
6z7r (Kr: 42) - Structure of [Nifese] Hydrogenase From Desulfovibrio Vulgaris Hildenborough Pressurized with Krypton Gas - Structure WTKR1
Other atoms:
Ni (2);
Fe (36);
Cl (2);
-
6z8o (Kr: 20) - Structure of [Nifese] Hydrogenase G491A Variant From Desulfovibrio Vulgaris Hildenborough Pressurized with Krypton Gas - Structure G491A-Kr
Other atoms:
Ni (2);
Fe (36);
Cl (2);
-
6zlf (Kr: 48) - Aerobic Crystal Structure of F420H2-Oxidase From Methanothermococcus Thermolithotrophicus at 1.8A Resolution Under 125 Bars of Krypton
Other atoms:
Fe (16);
Cl (8);
-
6zma (Kr: 6) - Structure of the Trna-Monooxygenase Enzyme Miae Frozen Under 140 Bar of Krypton Using the Soak and Freeze Methodology
Other atoms:
Fe (4);
Ca (2);
Cl (1);
-
7q35 (Kr: 35) - Crystal Structure of the Mutant Bacteriorhodopsin Pressurized with Krypton
-
7q36 (Kr: 11) - Crystal Structure of KR2 Sodium Pump Rhodopsin Pressurized with Krypton
Other atoms:
Na (1);
-
7q37 (Kr: 19) - Crystal Structure of Proton Pump Mar Rhodopsin Pressurized with Krypton
-
7r2s (Kr: 6) - Crystal Structure of A Flavodiiron Protein D52K Mutant From Escherichia Coli Pressurized with Krypton Gas
Other atoms:
Fe (4);
Page generated: Sun Nov 3 13:25:21 2024
|