|
50
|
130
|
1i20A |
Mutant human lysozyme (a92d) |
|
46
|
129
|
1ic5Y |
Crystal structure of hyhel-10 fv mutant(hd99a)-hen lysozyme complex |
|
49
|
129
|
1ic7Y |
Crystal structure of hyhel-10 fv mutant(hd32a99a)-hen lysozyme complex |
|
48
|
129
|
1hswA |
Lysozyme (mucopeptide n-acetylmuramyl hydrolase) |
|
50
|
129
|
1ieeA |
Structure of tetragonal hen egg white lysozyme at 0.94 a from crystals grown by the counter-diffusion method |
|
57
|
162
|
1l70A |
Multiple stabilizing alanine replacements within alpha-helix 126-134 of t4 lysozyme have independent, additive effects on both structure and stability |
|
50
|
130
|
1i1zA |
Mutant human lysozyme (q86d) |
|
61
|
164
|
1l50A |
Structural and thermodynamic analysis of the packing of two alpha-helices in bacteriophage t4 lysozyme |
|
48
|
129
|
1heqA |
Structural and thermodynamic analysis of compensating mutations within the core of chicken egg white lysozyme |
|
46
|
129
|
1hewA |
Refinement of an enzyme complex with inhibitor bound at partial occupancy. hen egg-white lysozyme and tri-n-acetylchitotriose at 1.75 angstroms resolution |
|
48
|
129
|
1h6mA |
Covalent glycosyl-enzyme intermediate of hen egg white lysozyme |
|
56
|
162
|
1l73A |
Multiple stabilizing alanine replacements within alpha-helix 126-134 of t4 lysozyme have independent, additive effects on both structure and stability |
|
58
|
162
|
1i6sA |
T4 lysozyme mutant c54t/c97a/n101a |
|
48
|
129
|
1hemA |
Structural and thermodynamic analysis of compensating mutations within the core of chicken egg white lysozyme |
|
26
|
130
|
1i56A |
Solution structure of ca2+-bound state of canine milk lysozyme |
|
49
|
129
|
1hhlA |
The three-dimensional structure of pheasant and guinea-fowl egg lysozymes |
|
50
|
129
|
1helA |
Structural and thermodynamic analysis of compensating mutations within the core of chicken egg white lysozyme |
|
49
|
129
|
1heoA |
Structural and thermodynamic analysis of compensating mutations within the core of chicken egg white lysozyme |
|
60
|
162
|
1l76A |
Tolerance of t4 lysozyme to proline substitutions within the long interdomain alpha-helix illustrates the adaptability of proteins to potentially destabilizing lesions |
|
57
|
162
|
1l57A |
Analysis of the interaction between charged side chains and the alpha-helix dipole using designed thermostable mutants of phage t4 lysozyme |
|
46
|
129
|
1herA |
Structural and thermodynamic analysis of compensating mutations within the core of chicken egg white lysozyme |
|
60
|
164
|
1l26A |
Replacements of pro86 in phage t4 lysozyme extend an alpha-helix but do not alter protein stability |
|
61
|
162
|
1l55A |
Analysis of the interaction between charged side chains and the alpha-helix dipole using designed thermostable mutants of phage t4 lysozyme |
|
51
|
129
|
1hepA |
Structural and thermodynamic analysis of compensating mutations within the core of chicken egg white lysozyme |
|
51
|
129
|
1henA |
Structural and thermodynamic analysis of compensating mutations within the core of chicken egg white lysozyme |
|
46
|
129
|
1hf4A |
Structural effects of monovalent anions on polymorphic lysozyme crystals |
|
48
|
127
|
1gpqC |
Structure of ivy complexed with its target, hewl |
|
47
|
129
|
1gwdA |
Tri-iodide derivative of hen egg-white lysozyme |
|
56
|
129
|
1gxxA |
Solution structure of lysozyme at low and high pressure |
|
46
|
129
|
1h87A |
Gadolinium derivative of tetragonal hen egg-white lysozyme at 1.7 a resolution |
|
50
|
130
|
1hnlA |
Crystal structure of a glutathionylated human lysozyme: a folding intermediate mimic in the formation of a disulfide bond |
|
55
|
129
|
1gxv2 |
Solution structure of lysozyme at low and high pressure |
|
92
|
338
|
1h09A |
Multimodular pneumococcal cell wall endolysin from phage cp-1 |
|
51
|
130
|
1gbyA |
Crystal structure of mutant human lysozyme substituted at the surface positions |
|
52
|
130
|
1gayA |
Crystal structure of mutant human lysozyme substituted at the surface positions |
|
51
|
130
|
1gfgA |
Crystal structure of mutant human lysozyme substituted at the surface positions |
|
54
|
130
|
1gf3A |
Buried polar mutant human lysozyme |
|
53
|
130
|
1ge4A |
Crystal structure of mutant human lysozyme substituted at left-handed helical positions |
|
55
|
130
|
1gf7A |
Buried polar mutant human lysozyme |
|
54
|
130
|
1gb5A |
Crystal structure of mutant human lysozyme substituted at the surface positions |
|
49
|
130
|
1gfaA |
Crystal structure of mutant human lysozyme substituted at the surface positions |
|
53
|
130
|
1gfkA |
Crystal structure of mutant human lysozyme substituted at the surface positions |
|
51
|
130
|
1gdxA |
Crystal structure of mutant human lysozyme substituted at left-handed helical positions |
|
76
|
185
|
1gbsA |
Crystal structure of black swan goose-type lysozyme at 1.8 angstroms resolution |
|
53
|
130
|
1gf4A |
Buried polar mutant human lysozyme |
|
52
|
130
|
1gf9A |
Crystal structure of mutant human lysozyme substituted at the surface positions |
|
52
|
130
|
1ge2A |
Crystal structure of mutant human lysozyme substituted at left-handed helical positions |
|
54
|
130
|
1gb7A |
Crystal structure of mutant human lysozyme substituted at the surface positions |
|
53
|
130
|
1gb0A |
Crystal structure of mutant human lysozyme substituted at the surface positions |
|
53
|
130
|
1ge0A |
Crystal structure of mutant human lysozyme substituted at left-handed helical positions |
