|
49
|
129
|
2x0aA |
Mpd-lysozyme structure at 55.5 kev using a trixxel csi-asi based digital imager and the new esrf u22 undulator source at id15 |
|
52
|
129
|
2warA |
Hen egg white lysozyme e35q chitopentaose complex |
|
47
|
129
|
2w1xA |
The interdependence of wavelength, redundancy and dose in sulfur sad experiments: 1.284 a wavelength 360 images data |
|
46
|
129
|
2w1yA |
The interdependence of wavelength, redundancy and dose in sulfur sad experiments: 1.540 a wavelength 180 images data |
|
45
|
129
|
2w1mA |
The interdependence of wavelength, redundancy and dose in sulfur sad experiments: 2.070 a wavelength with 2theta 30 degrees data |
|
46
|
129
|
2w1lA |
The interdependence of wavelength, redundancy and dose in sulfur sad experiments: 0.979 a wavelength 991 images data |
|
49
|
129
|
2vb1A |
Hewl at 0.65 angstrom resolution |
|
42
|
120
|
2rscA |
Solution structure of the bombyx mori lysozyme |
|
46
|
129
|
2q0mX |
Tricarbonylmanganese(i)-lysozyme complex : a structurally characterized organometallic protein |
|
49
|
129
|
2pc2A |
Lysozyme cocrystallized with tris-dipicolinate eu complex |
|
50
|
130
|
2lhmA |
Crystal structures of the apo-and holomutant human lysozymes with an introduced ca2+ binding site |
|
51
|
130
|
2medA |
Contribution of hydrophobic effect to the conformational stability of human lysozyme |
|
45
|
129
|
2lymA |
Crystal structure of hen egg-white lysozyme at a hydrostatic pressure of 1000 atmospheres |
|
48
|
130
|
2nwdX |
Structure of chemically synthesized human lysozyme at 1 angstrom resolution |
|
53
|
130
|
2mefA |
Contribution of hydrophobic effect to the conformational stability of human lysozyme |
|
52
|
130
|
2mehA |
Contribution of hydrophobic effect to the conformational stability of human lysozyme |
|
49
|
129
|
2lztA |
Refinement of triclinic lysozyme. ii. the method of stereochemically restrained least-squares |
|
46
|
130
|
2meaA |
Changes in conformational stability of a series of mutant human lysozymes at constant positions |
|
43
|
129
|
2lyzA |
Real-space refinement of the structure of hen egg-white lysozyme |
|
51
|
130
|
2meeA |
Contribution of hydrophobic effect to the conformational stability of human lysozyme |
|
52
|
130
|
2megA |
Changes in conformational stability of a series of mutant human lysozymes at constant positions. |
|
38
|
129
|
2lz2A |
The three dimensional structure of turkey egg white lysozyme at 2.2 angstroms resolution |
|
45
|
130
|
2mecA |
Changes in conformational stability of a series of mutant human lysozymes at constant positions |
|
50
|
129
|
2lyoA |
Cross-linked chicken lysozyme crystal in 90% acetonitrile-water |
|
50
|
130
|
2mebA |
Changes in conformational stability of a series of mutant human lysozymes at constant positions |
|
47
|
129
|
2iffY |
Structure of an antibody-lysozyme complex: effect of a conservative mutation |
|
49
|
129
|
2hu1A |
Crystal structure analysis of hen egg white lyszoyme |
|
46
|
129
|
2ihlA |
Lysozyme (e.c.3.2.1.17) (japanese quail) |
|
52
|
129
|
2hubA |
Structure of hen egg-white lysozyme determined from crystals grown in ph 7.5 |
|
33
|
129
|
2hsoA |
Multipattern rietveld refinement with protein powder data: an approach to higher resolution |
|
34
|
129
|
2hs9A |
Multipattern rietveld refinement with protein powder data: an approach to higher resolution |
|
49
|
129
|
2i25L |
Crystal structure analysis of the nurse shark new antigen receptor pbla8 variable domain in complex with lysozyme |
|
45
|
129
|
2i6zA |
X-ray diffraction studies of adducts between anticancer platinum drugs and hen egg white lysozyme |
|
49
|
129
|
2hu3A |
Parent structure of hen egg white lysozyme grown in acidic ph 4.8. refinement for comparison with crosslinked molecules of lysozyme |
|
53
|
130
|
2heeA |
Contribution of water molecules in the interior of a protein to the conformational stability |
|
49
|
129
|
2i26L |
Crystal structure analysis of the nurse shark new antigen receptor ancestral variable domain in complex with lysozyme |
|
50
|
129
|
2htxA |
Crystal structure analysis of hen egg white lysozyme crosslinked by polymerized glutaraldehyde in acidic environment |
|
35
|
129
|
2hs7A |
Multipattern rietveld refinement with protein powder data: an approach to higher resolution |
|
52
|
130
|
2heaA |
Contribution of water molecules in the interior of a protein to the conformational stability |
|
52
|
130
|
2hedA |
Contribution of water molecules in the interior of a protein to the conformational stability |
|
49
|
130
|
2hebA |
Contribution of water molecules in the interior of a protein to the conformational stability |
|
48
|
122
|
2h5zA |
Crystallographic structure of digestive lysozyme 1 from musca domestica bound to chitotetraose at 1.92 a resolution |
|
51
|
130
|
2hecA |
Contribution of water molecules in the interior of a protein to the conformational stability |
|
50
|
129
|
2h9jA |
Structure of hen egg white lysozyme soaked with ni2-xylylbicyclam |
|
51
|
130
|
2hefA |
Contribution of water molecules in the interior of a protein to the conformational stability |
|
51
|
129
|
2h9kA |
Structure of hen egg white lysozyme soaked with ni-cyclam |
|
49
|
131
|
2gv0A |
The structure of the orthorhombic form of soft-shelled turtle lysozyme at 1.9 angstroms resolution |
|
49
|
129
|
2g4qA |
Anomalous substructure of lysozyme at ph 8.0 |
|
47
|
129
|
2g4pA |
Anomalous substructure of lysozyme at ph 4.5 |
|
41
|
122
|
2g4nA |
Anomalous substructure of alpha-lactalbumin |
