| 1AP5 | A:1-83; B:1-83 | TYR34->PHE MUTANT OF HUMAN MITOCHONDRIAL MANGANESE SUPEROXIDE DISMUTASE |
| 1AP6 | A:1-83; B:1-83 | TYR34->PHE MUTANT OF HUMAN MITOCHONDRIAL MANGANESE SUPEROXIDE DISMUTASE |
| 1EM1 | A:1-83; B:1-83 | X-RAY CRYSTAL STRUCTURE FOR HUMAN MANGANESE SUPEROXIDE DISMUTASE, Q143A |
| 1JA8 | A:1-83; B:1-83 | KINETIC ANALYSIS OF PRODUCT INHIBITION IN HUMAN MANGANESE SUPEROXIDE DISMUTASE |
| 1LUV | A:1-83; B:1-83 | CATALYTIC AND STRUCTURAL EFFECTS OF AMINO-ACID SUBSTITUTION AT HIS 30 IN HUMAN MANGANESE SUPEROXIDE DISMUTASE: INSERTION OF VAL CGAMMA INTO THE SUBSTRATE ACCESS CHANNEL |
| 1LUW | A:1-83; B:1-83 | CATALYTIC AND STRUCTURAL EFFECTS OF AMINO-ACID SUBSTITUTION AT HIS 30 IN HUMAN MANGANESE SUPEROXIDE DISMUTASE: INSERTION OF VAL CGAMMA INTO THE SUBSTRATE ACCESS CHANNEL |
| 1MSD | A:1-83; B:1-83 | COMPARISON OF THE CRYSTAL STRUCTURES OF GENETICALLY ENGINEERED HUMAN MANGANESE SUPEROXIDE DISMUTASE AND MANGANESE SUPEROXIDE DISMUTASE FROM THERMUS THERMOPHILUS. DIFFERENCES IN DIMER-DIMER INTERACTIONS. |
| 1N0J | A:1-83; B:1-83 | THE STRUCTURE OF HUMAN MITOCHONDRIAL MN3+ SUPEROXIDE DISMUTASE REVEALS A NOVEL TETRAMERIC INTERFACE OF TWO 4-HELIX BUNDLES |
| 1N0N | A:1-83; B:1-83 | CATALYTIC AND STRUCTURAL EFFECTS OF AMINO-ACID SUBSTITUTION AT HIS30 IN HUMAN MANGANESE SUPEROXIDE DISMUTASE |
| 1PL4 | A:1-83; B:1-83; C:1-83; D:1-83 | CRYSTAL STRUCTURE OF HUMAN MNSOD Y166F MUTANT |
| 1PM9 | A:1-83; B:1-83 | CRYSTAL STRUCTURE OF HUMAN MNSOD H30N, Y166F MUTANT |
| 1QNM | A:1-83; B:1-83 | HUMAN MANGANESE SUPEROXIDE DISMUTASE MUTANT Q143N |
| 1SZX | A:1-83; B:1-83 | ROLE OF HYDROGEN BONDING IN THE ACTIVE SITE OF HUMAN MANGANESE SUPEROXIDE DISMUTASE |
| 1VAR | A:1-83; B:1-83 | MITOCHONDRIAL MANGANESE SUPEROXIDE DISMUTASE VARIANT WITH ILE 58 REPLACED BY THR |
| 1XDC | A:1-83; B:1-83 | HYDROGEN BONDING IN HUMAN MANGANESE SUPEROXIDE DISMUTASE CONTAINING 3-FLUOROTYROSINE |
| 1XIL | A:1-83; B:1-83 | HYDROGEN BONDING IN HUMAN MANGANESE SUPEROXIDE DISMUTASE CONTAINING 3-FLUOROTYROSINE |
| 1ZSP | A:1-83; B:1-83 | CONTRIBUTION TO STRUCTURE AND CATALYSIS OF TYROSINE 34 IN HUMAN MANGANESE SUPEROXIDE DISMUTASE |
| 1ZTE | A:1-83; B:1-83; C:1-83; D:1-83 | CONTRIBUTION TO STRUCTURE AND CATALYSIS OF TYROSINE 34 IN HUMAN MANGANESE SUERPOXIDE DISMUTASE |
| 1ZUQ | A:1-83; B:1-83 | CONTRIBUTION TO STRUCTURE AND CATALYSIS OF TYROSINE 34 IN HUMAN MANGANESE SUPEROXIDE DISMUTASE |
| 2ADP | A:1-83 | NITRATED HUMAN MANGANESE SUPEROXIDE DISMUTASE |
| 2ADQ | B:1-83 | HUMAN MANGANESE SUPEROXIDE DISMUTASE |
| 2GDS | A:1-83; B:1-83; C:1-83; D:1-83 | INTERRUPTING THE HYDROGEN BONDING NETWORK AT THE ACTIVE SITE OF HUMAN MANGANESE SUPEROXIDE DISMUTASE |
| 2P4K | A:1-83; B:1-83; C:1-83; D:1-83 | CONTRIBUTION TO STRUCTURE AND CATALYSIS OF TYROSINE 34 IN HUMAN MANGANESE SUPEROXIDE DISMUTASE |
| 2QKC | A:1-83; C:1-83 | STRUCTURAL AND KINETIC STUDY OF THE DIFFERENCES BETWEEN HUMAN AND E.COLI MANGANESE SUPEROXIDE DISMUTASES |
| 3C3S | A:1-83; B:1-83 | ROLE OF A GLUTAMATE BRIDGE SPANNING THE DIMERIC INTERFACE OF HUMAN MANGANESE SUPEROXIDE DISMUTASE |
| 3C3T | A:1-83; B:1-83 | ROLE OF A GLUTAMATE BRIDGE SPANNING THE DIMERIC INTERFACE OF HUMAN MANGANESE SUPEROXIDE DISMUTASE |
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