P61628 (LYSC_PANTR) Pan troglodytes (Chimpanzee)
Lysozyme C UniProtKBInterProSTRINGInteractive Modelling
148 aa; Sequence (Fasta) ;
4 identical sequences: Homo sapiens: P61626, B2R4C5; Pan troglodytes: A0A2J8K4P0; Pan paniscus: P61627
Available Structures
213 Experimental Structures
| Description | PDB ID | Oligo-state | Range | Ligands | ||
|---|---|---|---|---|---|---|
| CAbHul6 FGLW mutant (humanized) in complex with human lysozyme |
Heteromer P61626; | 6×SO4; | ||||
| Assess | ||||||
| Complex of human lysozyme with camelid VHH HL6 antibody fragment |
Heteromer P61626; | |||||
| Assess | ||||||
| The structure of the camelid antibody cAbHuL5 in complex with human lysozyme |
Heteromer P61626; | 3×CL; 1×GOL; | ||||
| Assess | ||||||
| Crystal structure of Brucella abortus PliC in complex with human lysozyme |
Heteromer P61626; | |||||
| Assess | ||||||
| Ifqins, an amyloid forming segment from human lysozyme spanning residues 56-61 | homo-10-mer | |||||
| Assess | ||||||
| Crystal Structure of a Charge Engineered Human Lysozyme Variant | homo-2-mer | |||||
| Assess | ||||||
| T52V MUTANT HUMAN LYSOZYME | homo-2-mer | |||||
| Assess | ||||||
| Human Lysozyme co-crystallized with [H2Ind][trans-RuCl4(DMSO)(HInd)] | homo-2-mer | 3×SO4; 5×CL; 3×NA; 2×RU; 1×NO3; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME WITH FOUR EXTRA RESIDUES (EAEA) AT THE N-TERMINAL | monomer | 3×NA; | ||||
| Assess | ||||||
| Structure of chemically synthesized human lysozyme at 1 Angstrom resolution | monomer | |||||
| Assess | ||||||
| human lysozyme in complex with a tetrasaccharide fragment of the O-chain of LPS from Klebsiella pne… | monomer | 1×TVG; 3×CL; 1×NA; | ||||
| Assess | ||||||
| Structure of the W64R amyloidogenic variant of human lysozyme | monomer | 3×SO4; | ||||
| Assess | ||||||
| FULL-MATRIX LEAST-SQUARES REFINEMENT OF HUMAN LYSOZYME | monomer | 7×NO3; | ||||
| Assess | ||||||
| Crystal Structure of Human Lysozyme | monomer | 1×ACT; | ||||
| Assess | ||||||
| Crystal Structure Analysis of Human lysozyme at 152K. | monomer | 3×CL; | ||||
| Assess | ||||||
| Crystal Structure Analysis of Human lysozyme at 127K. | monomer | 3×CL; | ||||
| Assess | ||||||
| Crystal Structure Analysis of Human lysozyme at 113K. | monomer | 3×CL; | ||||
| Assess | ||||||
| Crystal Structure Analysis of Human lysozyme at 161K. | monomer | 3×CL; | ||||
| Assess | ||||||
| Crystal Structure Analysis of Human lysozyme at 147K. | monomer | 3×CL; | ||||
| Assess | ||||||
| Crystal structure of human lysozyme at 100 K | monomer | |||||
| Assess | ||||||
| Crystal Structure Analysis of Human lysozyme at 170K. | monomer | 3×CL; | ||||
| Assess | ||||||
| X-ray crystal structure of chemically synthesized human lysozyme | monomer | 6×CL; 2×NA; | ||||
| Assess | ||||||
| Crystal Structure Analysis of Human lysozyme at 178K. | monomer | 3×CL; | ||||
| Assess | ||||||
| X-ray crystal structure of wild type human lysozyme in D2O | monomer | |||||
| Assess | ||||||
| REFINEMENT OF HUMAN LYSOZYME AT 1.5 ANGSTROMS RESOLUTION. ANALYSIS OF NON-BONDED AND HYDROGEN-BOND … | monomer | |||||
| Assess | ||||||
| STRUCTURAL CHANGES OF THE ACTIVE SITE CLEFT AND DIFFERENT SACCHARIDE BINDING MODES IN HUMAN LYSOZYM… | monomer | 1×NAG; 2×CL; | ||||
| Assess | ||||||
| NATIVE HUMAN LYSOZYME | monomer | |||||
| Assess | ||||||
| Crystal Structure of Human Lysozyme Complexed with N-Acetyl-alpha-D-Glucosamine | monomer | 1×NDG; | ||||
| Assess | ||||||
| STRUCTURE OF A CONFORMATIONALLY CONSTRAINED ARG-GLY-ASP SEQUENCE INSERTED INTO HUMAN LYSOZYME | monomer | 1×NAG; 2×CL; | ||||
| Assess | ||||||
| STRUCTURAL CHANGES OF THE ACTIVE SITE CLEFT AND DIFFERENT SACCHARIDE BINDING MODES IN HUMAN LYSOZYM… | monomer | 1×NAG; 1×NAG; 1×NA; | ||||
| Assess | ||||||
| HUMAN LYSOZYME MUTANT WITH TRP 109 REPLACED BY PHE | monomer | 2×NO3; | ||||
| Assess | ||||||
| Crystal Structure of Human Lysozyme Complexed with N-Acetyl-alpha-D-Glucosamine | monomer | 1×NDG; | ||||
| Assess | ||||||
| HUMAN LYSOZYME MUTANT WITH GLU 35 REPLACED BY ALA | monomer | 2×NO3; | ||||
| Assess | ||||||
| HUMAN LYSOZYME MUTANT WITH GLU 35 REPLACED BY ASP | monomer | 2×NO3; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT LEFT-HANDED HELICAL POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| DISSECTION OF THE FUNCTIONAL ROLE OF STRUCTURAL ELEMENTS OF TYROSINE-63 IN THE CATALYTIC ACTION OF … | monomer | |||||
| Assess | ||||||
| DISSECTION OF THE FUNCTIONAL ROLE OF STRUCTURAL ELEMENTS OF TYROSINE-63 IN THE CATALYTIC ACTION OF … | monomer | |||||
| Assess | ||||||
| DISSECTION OF THE FUNCTIONAL ROLE OF STRUCTURAL ELEMENTS OF TYROSINE-63 IN THE CATALYTIC ACTION OF … | monomer | |||||
| Assess | ||||||
| HUMAN LYSOZYME-N,N'-DIACETYLCHITOBIOSE COMPLEX | monomer | 1×NAG; 1×GOL; | ||||
| Assess | ||||||
| HUMAN LYSOZYME-N-ACETYLLACTOSAMINE COMPLEX | monomer | 1×NAG; 1×GOL; | ||||
| Assess | ||||||
| DISSECTION OF THE FUNCTIONAL ROLE OF STRUCTURAL ELEMENTS OF TYROSINE-63 IN THE CATALYTIC ACTION OF … | monomer | |||||
| Assess | ||||||
| X-RAY STRUCTURE OF GLU 53 HUMAN LYSOZYME | monomer | |||||
| Assess | ||||||
| ROLE OF ARG 115 IN THE CATALYTIC ACTION OF HUMAN LYSOZYME. X-RAY STRUCTURE OF HIS 115 AND GLU 115 M… | monomer | |||||
| Assess | ||||||
| ROLE OF ARG 115 IN THE CATALYTIC ACTION OF HUMAN LYSOZYME. X-RAY STRUCTURE OF HIS 115 AND GLU 115 M… | monomer | |||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| G105A HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURES OF SALT BRIDGE MUTANTS OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| ROLE OF PROLINE RESIDUES IN HUMAN LYSOZYME STABILITY: A SCANNING CALORIMETRIC STUDY COMBINED WITH X… | monomer | |||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC RESIDUES TO THE STABILITY OF HUMAN LYSOZYME: X-RAY STRUCTURE OF THE I56… | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| ROLE OF PROLINE RESIDUES IN HUMAN LYSOZYME STABILITY: A SCANNING CALORIMETRIC STUDY COMBINED WITH X… | monomer | |||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| T40V MUTANT HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC RESIDUES TO THE STABILITY OF HUMAN LYSOZYME: CALORIMETRIC STUDIES AND X… | monomer | 1×NA; | ||||
| Assess | ||||||
| G127A HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| HUMAN LYSOZYME MUTANT A96L COMPLEXED WITH CHITOTRIOSE | monomer | 1×NAG; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURES OF SALT BRIDGE MUTANTS OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF WATER MOLECULES IN THE INTERIOR OF A PROTEIN TO THE CONFORMATIONAL STABILITY | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC RESIDUES TO THE STABILITY OF HUMAN LYSOZYME: X-RAY STRUCTURE OF THE V10… | monomer | 1×NA; | ||||
| Assess | ||||||
| AMYLOIDOGENIC VARIANT (I56T) VARIANT OF HUMAN LYSOZYME | monomer | |||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF WATER MOLECULES IN THE INTERIOR OF A PROTEIN TO THE CONFORMATIONAL STABILITY | monomer | 1×NA; | ||||
| Assess | ||||||
| T52A MUTANT HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| ROLE OF PROLINE RESIDUES IN HUMAN LYSOZYME STABILITY: A SCANNING CALORIMETRIC STUDY COMBINED WITH X… | monomer | |||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROGEN BONDS TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; 2×CL; | ||||
| Assess | ||||||
| T11V MUTANT HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROGEN BONDS TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; 2×CL; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT LEFT-HANDED HELICAL POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| BURIED POLAR MUTANT HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC RESIDUES TO THE STABILITY OF HUMAN LYSOZYME: X-RAY STRUCTURE OF THE V11… | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| BURIED POLAR MUTANT HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| ENTHALPIC DESTABILIZATION OF A MUTANT HUMAN LYSOZYME LACKING A DISULFIDE BRIDGE BETWEEN CYSTEINE-77… | monomer | |||||
| Assess | ||||||
| ROLE OF AMINO ACID RESIDUES AT TURNS IN THE CONFORMATIONAL STABILITY AND FOLDING OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| BURIED POLAR MUTANT HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| ROLE OF PROLINE RESIDUES IN HUMAN LYSOZYME STABILITY: A SCANNING CALORIMETRIC STUDY COMBINED WITH X… | monomer | |||||
| Assess | ||||||
| Crystal Structure of Human Lysozyme from Urine | monomer | 1×NA; | ||||
| Assess | ||||||
| ROLE OF PROLINE RESIDUES IN HUMAN LYSOZYME STABILITY: A SCANNING CALORIMETRIC STUDY COMBINED WITH X… | monomer | |||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | |||||
| Assess | ||||||
| CONTRIBUTION OF HYDROGEN BONDS TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; 2×CL; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC RESIDUES TO THE STABILITY OF HUMAN LYSOZYME: X-RAY STRUCTURE OF THE V12… | monomer | 1×NA; | ||||
| Assess | ||||||
| MUTANT HUMAN LYSOZYME (A83K/Q86D/A92D) | monomer | 1×CA; | ||||
| Assess | ||||||
| CONTRIBUTION OF WATER MOLECULES IN THE INTERIOR OF A PROTEIN TO THE CONFORMATIONAL STABILITY | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| MUTANT HUMAN LYSOZYME (Q86D) | monomer | |||||
| Assess | ||||||
| AMYLOIDOGENIC VARIANT (ASP67HIS) OF HUMAN LYSOZYME | monomer | |||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT LEFT-HANDED HELICAL POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| BURIED POLAR MUTANT HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | |||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF A GLUTATHIONYLATED HUMAN LYSOZYME: A FOLDING INTERMEDIATE MIMIC IN THE FORMATI… | monomer | 1×GSH; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROGEN BONDS TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; 2×CL; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURES OF THE APO-AND HOLOMUTANT HUMAN LYSOZYMES WITH AN INTRODUCED CA2+ BINDING SITE | monomer | 1×CA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURES OF THE APO-AND HOLOMUTANT HUMAN LYSOZYMES WITH AN INTRODUCED CA2+ BINDING SITE | monomer | |||||
| Assess | ||||||
| THE CRYSTAL STRUCTURE OF A MUTANT LYSOZYME C77(SLASH)95A WITH INCREASED SECRETION EFFICIENCY IN YEA… | monomer | |||||
| Assess | ||||||
| MUTANT HUMAN LYSOZYME WITH FOREIGN N-TERMINAL RESIDUES | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROGEN BONDS TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; 2×CL; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROGEN BONDS TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME: CALORIMETRY AND X… | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CHANGES IN CONFORMATIONAL STABILITY OF A SERIES OF MUTANT HUMAN LYSOZYMES AT CONSTANT POSITIONS. | monomer | 1×NA; | ||||
| Assess | ||||||
| Crystal Structure of Mutant Human Lysozyme Substituted at the Surface Positions | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC RESIDUES TO THE STABILITY OF HUMAN LYSOZYME: X-RAY STRUCTURE OF THE V12… | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| T43V MUTANT HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| HUMAN LYSOZYME MUTANT WITH TRP 109 REPLACED BY ALA | monomer | 2×NO3; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| BURIED POLAR MUTANT HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | |||||
| Assess | ||||||
| CONTRIBUTION OF HYDROGEN BONDS TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; 2×CL; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT LEFT-HANDED HELICAL POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| G48A HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| BURIED POLAR MUTANT HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF WATER MOLECULES IN THE INTERIOR OF A PROTEIN TO THE CONFORMATIONAL STABILITY | monomer | 1×NA; | ||||
| Assess | ||||||
| T11A MUTANT HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC RESIDUES TO THE STABILITY OF HUMAN LYSOZYME: X-RAY STRUCTURE OF THE V99… | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | |||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC RESIDUES TO THE STABILITY OF HUMAN LYSOZYME: CALORIMETRIC STUDIES AND X… | monomer | 1×NA; | ||||
| Assess | ||||||
| VERIFICATION OF SPMP USING MUTANT HUMAN LYSOZYMES | monomer | 1×NA; | ||||
| Assess | ||||||
| MUTANT HUMAN LYSOZYME WITH FOREIGN N-TERMINAL RESIDUES | monomer | 1×NA; | ||||
| Assess | ||||||
| VERIFICATION OF SPMP USING MUTANT HUMAN LYSOZYMES | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC RESIDUES TO THE STABILITY OF HUMAN LYSOZYME: CALORIMETRIC STUDIES AND X… | monomer | 1×NA; | ||||
| Assess | ||||||
| G37A HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC RESIDUES TO THE STABILITY OF HUMAN LYSOZYME: X-RAY STRUCTURE OF THE V2A… | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT LEFT-HANDED HELICAL POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF WATER MOLECULES IN THE INTERIOR OF A PROTEIN TO THE CONFORMATIONAL STABILITY | monomer | 1×NA; | ||||
| Assess | ||||||
| G68A HUMAN LYSOZYME | monomer | 1×NA; 3×SO4; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC RESIDUES TO THE STABILITY OF HUMAN LYSOZYME: X-RAY STRUCTURE OF THE V74… | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC RESIDUES TO THE STABILITY OF HUMAN LYSOZYME: X-RAY STRUCTURE OF THE V93… | monomer | 1×NA; | ||||
| Assess | ||||||
| BURIED POLAR MUTANT HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| STRUCTURAL AND FUNCTIONAL ANALYSES OF THE ARG-GLY-ASP SEQUENCE INTRODUCED INTO HUMAN LYSOZYME | monomer | 2×CL; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC RESIDUES TO THE STABILITY OF HUMAN LYSOZYME: CALORIMETRIC STUDIES AND X… | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| VERIFICATION OF SPMP USING MUTANT HUMAN LYSOZYMES | monomer | 1×NA; | ||||
| Assess | ||||||
| T43A MUTANT HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| I59A-3SS human lysozyme | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURES OF SALT BRIDGE MUTANTS OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| G72A HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT LEFT-HANDED HELICAL POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| HUMAN LYSOZYME MUTANT A96L | monomer | |||||
| Assess | ||||||
| CHANGES IN CONFORMATIONAL STABILITY OF A SERIES OF MUTANT HUMAN LYSOZYMES AT CONSTANT POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| T40A MUTANT HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| STRUCTURAL AND FUNCTIONAL ANALYSES OF THE ARG-GLY-ASP SEQUENCE INTRODUCED INTO HUMAN LYSOZYME | monomer | 2×CL; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC RESIDUES TO THE STABILITY OF HUMAN LYSOZYME: CALORIMETRIC STUDIES AND X… | monomer | 1×NA; | ||||
| Assess | ||||||
| VERIFICATION OF SPMP USING MUTANT HUMAN LYSOZYMES | monomer | 1×NA; | ||||
| Assess | ||||||
| MUTANT HUMAN LYSOZYME C77A | monomer | 1×SC2; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| Crystal Structure of Human Lysozyme from Pichia pastoris | monomer | 1×NA; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE ANALYSIS OF A HUMAN LYSOZYME MUTANT W64C C65A | monomer | |||||
| Assess | ||||||
| G129A HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| Crystal Structure of Human Lysozyme Expressed in E. coli. | monomer | 1×NA; | ||||
| Assess | ||||||
| MUTANT HUMAN LYSOZYME (A92D) | monomer | |||||
| Assess | ||||||
| HUMAN LYSOZYME E102 MUTANT LABELLED WITH 2',3'-EPOXYPROPYL GLYCOSIDE OF N-ACETYLLACTOSAMINE | monomer | 1×NAG; 1×GOL; | ||||
| Assess | ||||||
| T70V MUTANT HUMAN LYSOZYME | monomer | |||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT LEFT-HANDED HELICAL POSITIONS | monomer | 1×NA; | ||||
| Assess | ||||||
| ROLE OF AMINO ACID RESIDUES AT TURNS IN THE CONFORMATIONAL STABILITY AND FOLDING OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| Contribution of hydrogen bonds to the conformational stability of human lysozyme: calorimetry and x… | monomer | 1×NA; | ||||
| Assess | ||||||
| VERIFICATION OF SPMP USING MUTANT HUMAN LYSOZYMES | monomer | 1×NA; | ||||
| Assess | ||||||
| Crystal structure of Glu102-mutant human lysozyme doubly labeled with 2',3'-epoxypropyl beta-glycos… | monomer | 2×NAG; 2×GOL; | ||||
| Assess | ||||||
| VERIFICATION OF SPMP USING MUTANT HUMAN LYSOZYMES | monomer | 1×NA; | ||||
| Assess | ||||||
| VERIFICATION OF SPMP USING MUTANT HUMAN LYSOZYMES | monomer | 1×NA; | ||||
| Assess | ||||||
| BURIED POLAR MUTANT HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| HUMAN LYSOZYME WITH MAN-B1,4-GLCNAC COVALENTLY ATTACHED TO ASP53 | monomer | 1×NAG; 1×NO3; 1×PGR; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROGEN BONDS TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME: CALORIMETRY AND X… | monomer | 2×CL; 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROGEN BONDS TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME: CALORIMETRY AND X… | monomer | 1×NA; 2×CL; | ||||
| Assess | ||||||
| MUTANT HUMAN LYSOZYME C77A | monomer | 1×CYS; | ||||
| Assess | ||||||
| CHANGES IN CONFORMATIONAL STABILITY OF A SERIES OF MUTANT HUMAN LYSOZYMES AT CONSTANT POSITIONS | monomer | |||||
| Assess | ||||||
| CHANGES IN CONFORMATIONAL STABILITY OF A SERIES OF MUTANT HUMAN LYSOZYMES AT CONSTANT POSITIONS | monomer | |||||
| Assess | ||||||
| CONTRIBUTION OF HYDROGEN BONDS TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME: CALORIMETRY AND X… | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROGEN BONDS TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME: CALORIMETRY AND X… | monomer | |||||
| Assess | ||||||
| ROLE OF AMINO ACID RESIDUES AT TURNS IN THE CONFORMATIONAL STABILITY AND FOLDING OF HUMAN LYSOZYME | monomer | 1×NA; | ||||
| Assess | ||||||
| VERIFICATION OF SPMP USING MUTANT HUMAN LYSOZYMES | monomer | 1×NA; | ||||
| Assess | ||||||
| MUTANT HUMAN LYSOZYME WITH FOREIGN N-TERMINAL RESIDUES | monomer | |||||
| Assess | ||||||
| CONTRIBUTION OF WATER MOLECULES IN THE INTERIOR OF A PROTEIN TO THE CONFORMATIONAL STABILITY | monomer | 1×NA; | ||||
| Assess | ||||||
| HUMAN LYSOZYME DOUBLE MUTANT A96L, W109H | monomer | |||||
| Assess | ||||||
| HUMAN LYSOZYME L63 MUTANT LABELLED WITH 2',3'-EPOXYPROPYL N,N'-DIACETYLCHITOBIOSE | monomer | 1×NAG; 1×GOL; | ||||
| Assess | ||||||
| HUMAN LYSOZYME LABELLED WITH TWO 2',3'-EPOXYPROPYL BETA-GLYCOSIDE OF N-ACETYLLACTOSAMINE | monomer | 2×NAG; 2×GOL; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME, EAEA-I56T | monomer | 3×NA; | ||||
| Assess | ||||||
| STRUCTURE OF T70N HUMAN LYSOZYME | monomer | 1×CL; | ||||
| Assess | ||||||
| Solution structure of the human lysozyme at 35 degree C | monomer | |||||
| Assess | ||||||
| Solution Structure of the Human lysozyme at 4 degree C | monomer | |||||
| Assess | ||||||
| Neutron crystal structure of wild type human lysozyme in D2O | monomer | |||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC RESIDUES TO THE STABILITY OF HUMAN LYSOZYME: X-RAY STRUCTURE OF THE V13… | monomer | 1×NA; | ||||
| Assess | ||||||
| CONTRIBUTION OF HYDROPHOBIC EFFECT TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME | monomer | |||||
| Assess | ||||||
1 SWISS-MODEL model
| Template | Oligo-state | QMEANDisCo | Range | Ligands | Trg-Tpl Seq id (%) | |
|---|---|---|---|---|---|---|
| 1c7p.1.A | monomer | 0.90 | 97.74 | |||
| Assess | ||||||