|
61
|
162
|
233lA |
T4 lysozyme mutant m120l |
|
57
|
162
|
225lA |
Generating ligand binding sites in t4 lysozyme using deficiency-creating substitutions |
|
61
|
162
|
222lA |
Generating ligand binding sites in t4 lysozyme using deficiency-creating substitutions |
|
60
|
163
|
213lA |
Protein structure plasticity exemplified by insertion and deletion mutants in t4 lysozyme |
|
59
|
164
|
219lA |
Protein structure plasticity exemplified by insertion and deletion mutants in t4 lysozyme |
|
60
|
164
|
1zytA |
Crystal structure of spin labeled t4 lysozyme (a82r1) |
|
55
|
162
|
223lA |
Generating ligand binding sites in t4 lysozyme using deficiency-creating substitutions |
|
47
|
129
|
1zvhL |
Crystal structure of the vhh domain d2-l24 in complex with hen egg white lysozyme |
|
60
|
163
|
214lA |
Protein structure plasticity exemplified by insertion and deletion mutants in t4 lysozyme |
|
59
|
162
|
248lA |
The response of t4 lysozyme to large-to-small substitutions within the core and its relation to the hydrophobic effect |
|
57
|
164
|
254lA |
Lysozyme |
|
45
|
130
|
207lA |
Mutant human lysozyme c77a |
|
57
|
163
|
218lA |
Protein structure plasticity exemplified by insertion and deletion mutants in t4 lysozyme |
|
59
|
162
|
221lA |
The energetic cost and the structural consequences of burying a hydroxyl group within the core of a protein determined from ala to ser and val to thr substitutions in t4 lysozyme |
|
50
|
129
|
2a7dA |
On the routine use of soft x-rays in macromolecular crystallography, part iii- the optimal data collection wavelength |
|
44
|
129
|
1zmyL |
Cabbcii-10 vhh framework with cdr loops of cablys3 grafted on it and in complex with hen egg white lysozyme |
|
59
|
164
|
242lA |
The response of t4 lysozyme to large-to-small substitutions within the core and its relation to the hydrophobic effect |
|
41
|
130
|
208lA |
Mutant human lysozyme c77a |
|
61
|
164
|
249lA |
The response of t4 lysozyme to large-to-small substitutions within the core and its relation to the hydrophobic effect |
|
52
|
162
|
216lA |
Structural basis of alpha-helix propensity at two sites in t4 lysozyme |
|
59
|
162
|
200lA |
Thermodynamic and structural compensation in "size-switch" core-repacking variants of t4 lysozyme |
|
59
|
162
|
257lA |
An adaptable metal-binding site engineered into t4 lysozyme |
|
44
|
129
|
1zv5L |
Crystal structure of the variable domain of the camelid heavy-chain antibody d2-l29 in complex with hen egg white lysozyme |
|
63
|
173
|
262lA |
Structural characterisation of an engineered tandem repeat contrasts the importance of context and sequence in protein folding |
|
59
|
162
|
206lA |
Phage t4 lysozyme |
|
48
|
129
|
1z55A |
Effect of alcohols on protein hydration |
|
51
|
130
|
1yaqA |
Contribution of hydrophobic residues to the stability of human lysozyme: calorimetric studies and x-ray structural analysis of the five isoleucine to valine mutants |
|
45
|
129
|
1yl0X |
Effect of alcohols on protein hydration |
|
47
|
129
|
1yilA |
Structure of hen egg white lysozyme soaked with cu2-xylylbicyclam |
|
49
|
129
|
1yqvY |
The crystal structure of the antibody fab hyhel5 complex with lysozyme at 1.7a resolution |
|
51
|
130
|
1yamA |
Contribution of hydrophobic residues to the stability of human lysozyme: calorimetric studies and x-ray structural analysis of the five isoleucine to valine mutants |
|
49
|
129
|
1ykzX |
Effect of alcohols on protein hydration |
|
47
|
129
|
1yikA |
Structure of hen egg white lysozyme soaked with cu-cyclam |
|
48
|
130
|
1yapA |
Contribution of hydrophobic residues to the stability of human lysozyme: calorimetric studies and x-ray structural analysis of the five isoleucine to valine mutants |
|
49
|
129
|
1ykyX |
Effect of alcohols on protein hydration |
|
49
|
130
|
1yanA |
Contribution of hydrophobic residues to the stability of human lysozyme: calorimetric studies and x-ray structural analysis of the five isoleucine to valine mutants |
|
47
|
129
|
1ykxX |
Effect of alcohols on protein hydration |
|
49
|
130
|
1yaoA |
Contribution of hydrophobic residues to the stability of human lysozyme: calorimetric studies and x-ray structural analysis of the five isoleucine to valine mutants |
|
48
|
129
|
1yl1X |
Effect of alcohols on protein hydration |
|
49
|
129
|
1xgtC |
Structure for antibody hyhel-63 y33l mutant complexed with hen egg lysozyme |
|
51
|
129
|
1xfpL |
Crystal structure of the cdr2 germline reversion mutant of cab-lys3 in complex with hen egg white lysozyme |
|
48
|
129
|
1xguC |
Structure for antibody hyhel-63 y33f mutant complexed with hen egg lysozyme |
|
50
|
158
|
1xjuA |
Crystal structure of secreted inactive form of p1 phage endolysin lyz |
|
47
|
129
|
1xgpC |
Structure for antibody hyhel-63 y33a mutant complexed with hen egg lysozyme |
|
46
|
129
|
1xgqC |
Structure for antibody hyhel-63 y33v mutant complexed with hen egg lysozyme |
|
49
|
178
|
1xjtA |
Crystal structure of active form of p1 phage endolysin lyz |
|
47
|
129
|
1xgrC |
Structure for antibody hyhel-63 y33i mutant complexed with hen egg lysozyme |
|
58
|
162
|
1xepA |
Catechol in complex with t4 lysozyme l99a/m102q |
|
34
|
129
|
1xekA |
The crystal structures of lysozyme at very low levels of hydration |
|
51
|
130
|
1wqmA |
Contribution of hydrogen bonds to the conformational stability of human lysozyme |
