1bjr | COMPLEX FORMED BETWEEN PROTEOLYTICALLY GENERATEDLACTOFERRIN FRAGMENT AND PROTEINASE K |
1cnm | ENHANCEMENT OF CATALYTIC EFFICIENCY OF PROTEINASE K THROUGHEXPOSURE TO ANHYDROUS ORGANIC SOLVENT AT 70 DEGREES CELSIUS |
1egq | ENHANCEMENT OF ENZYME ACTIVITY THROUGH THREE- PHASEPARTITIONING: CRYSTAL STRUCTURE OF A MODIFIED SERINEPROTEINASE AT 1.5 A RESOLUTION |
1ht3 | MERCURY INDUCED MODIFICATIONS IN THE STEREOCHEMISTRY OF THEACTIVE SITE THROUGH CYS-73 IN A SERINE PROTEASE: CRYSTALSTRUCTURE OF THE COMPLEX OF A PARTIALLY MODIFIEDPROTEINASE K WITH MERCURY AT 1.8 A RESOLUTION |
1ic6 | STRUCTURE OF A SERINE PROTEASE PROTEINASE K FROMTRITIRACHIUM ALBUM LIMBER AT 0.98 A RESOLUTION |
1oyo | REGULATION OF PROTEASE ACTIVITY BY MELANIN: CRYSTALSTRUCTURE OF THE COMPLEX FORMED BETWEEN PROTEINASE K ANDMELANIN MONOMERS AT 2.0 RESOLUTION |
1p7v | STRUCTURE OF A COMPLEX FORMED BETWEEN PROTEINASE K AND ADESIGNED HEPTAPEPTIDE INHIBITOR PRO-ALA-PRO-PHE-ALA- ALA-ALA AT ATOMIC RESOLUTION |
1p7w | CRYSTAL STRUCTURE OF THE COMPLEX OF PROTEINASE K WITH ADESIGNED HEPTAPEPTIDE INHIBITOR PRO-ALA-PRO-PHE-ALA- SER-ALA AT ATOMIC RESOLUTION |
1pek | |
1pfg | STRATEGY TO DESIGN INHIBITORS: STRUCTURE OF A COMPLEX OFPROTEINASE K WITH A DESIGNED OCTAPEPTIDE INHIBITOR N- AC-PRO-ALA-PRO-PHE-DALA-ALA-ALA-ALA-NH2 AT 2. 5A RESOLUTION |
1pj8 | STRUCTURE OF A TERNARY COMPLEX OF PROTEINASE K, MERCURY ANDA SUBSTRATE-ANALOGUE HEXAPEPTIDE AT 2.2 A RESOLUTION |
1ptk | |
2dp4 | CRYSTAL STRUCTURE OF THE COMPLEX FORMED BETWEEN PROTEINASEK AND A HUMAN LACTOFERRIN FRAGMENT AT 2.9 A RESOLUTION |
2dqk | CRYSTAL STRUCTURE OF THE COMPLEX OF PROTEINASE K WITH ASPECIFIC LACTOFERRIN PEPTIDE VAL-LEU-LEU-HIS AT 1. 93 ARESOLUTION |
2hd4 | CRYSTAL STRUCTURE OF PROTEINASE K INHIBITED BY ALACTOFERRIN OCTAPEPTIDE GLY-ASP-GLU-GLN-GLY-GLU-ASN- LYS AT2.15 A RESOLUTION |
2pkc | |
2prk | |
2v8b | SAD STRUCTURE SOLUTION OF PROTEINASE K GROWN IN SELENATE SOLUTION |
3prk | |