P06873 (PRTK_PARAQ) Parengyodontium album (Tritirachium album)

Proteinase K UniProtKBInterProInteractive Modelling

384 aa; Sequence (Fasta)

Available Structures

250 Experimental Structures

DescriptionPDB IDOligo-stateRangeSeq id (%)Ligands
Crystal structure of proteinase K inhibited by a lactoferrin octapeptide Gly-Asp-Glu-Gln-Gly-Glu-As… Heteromer
P02788;
106-384
99.64CA;ACY;
Crystal structure of the complex formed between proteinase K and a human lactoferrin fragment at 2.… Heteromer
P02788;
106-384
100
Crystal Structure of the complex of Proteinase K with Alanine Boronic acid at 0.83A resolutionmonomer106-384
99.64CA;NO3;SO4;B2A;
X-ray radiation damage series on Proteinase K at 100K, crystal structure, dataset 1monomer106-384
99.64CA;NO3;
X-ray radiation damage series on Proteinase K at 100K, crystal structure, dataset 2monomer106-384
99.64CA;NO3;
SAD Structure solution of Proteinase K grown in selenate solutionmonomer106-384
99.64CA;SE4;
X-ray radiation damage series on Proteinase K at 100K, crystal structure, dataset 3monomer106-384
99.64CA;NO3;
Structure Proteinase K at 0.98 Angstromsmonomer106-384
99.64NO3;GOL;CA;
STRUCTURE OF A SERINE PROTEASE PROTEINASE K FROM TRITIRACHIUM ALBUM LIMBER AT 0.98 A RESOLUTIONmonomer106-384
99.64CA;NO3;
Proteinase K by Classical hanging drop method before high X Ray dose on ESRF ID 14-2 beamlinemonomer106-384
100CA;
Proteinase K by Classical hanging drop method after high X-Ray dose on ESRF ID14-2 beamlinemonomer106-384
100CA;
Proteinase K by Classical hanging drop Method after high X-Ray dose on ID14-2 Beamline at ESRFmonomer106-384
100CA;
Proteinase K by Classical hanging drop Method before high X-Ray dose on ID14-2 Beamline at ESRFmonomer106-384
100CA;
Proteinase K by LB Nanotemplate Method before high X-Ray dose on ID14-2 Beamline at ESRFmonomer106-384
100CA;
Proteinase K by LB Nanotemplate Method after high X-Ray dose on ID14-2 Beamline at ESRFmonomer106-384
100HG;CA;
X-ray radiation damage series on Proteinase K at 100K, crystal structure, dataset 4monomer106-384
99.64CA;NO3;
Crystal Structure of Proteinase K processed with the CrystalDirect automated mounting and cryo-cool…monomer106-384
100SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo59monomer106-384
99.64SO4;
X-ray radiation damage series on Proteinase K at 277K, multi-conformer model, dataset 1monomer106-384
99.64SO4;CA;
Proteinase K by LB nanotemplate method after the first step of high X-Ray dose on ESRF ID14-2 beaml…monomer106-384
100CA;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;47E;
Proteinase K by LB nanotmplate method after the second step of high dose on ESRF ID14-2 beamlinemonomer106-384
100CA;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo63monomer106-384
99.64
PanDDA analysis group deposition -- Proteinase K crystal structure Apo64monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo40monomer106-384
99.64
Proteinase K by LB nanotemplate method before high X-Ray dose on ESRF ID14-2 beamlinemonomer106-384
100CA;
X-ray radiation damage series on Proteinase K at 277K, multi-conformer model, dataset 2 (merged)monomer106-384
99.64SO4;CA;
X-ray radiation damage series on Proteinase K at 277K, crystal structure, dataset 1monomer106-384
99.64SO4;CA;
X-ray radiation damage series on Proteinase K at 277K, multi-conformer model, dataset 4 (merged)monomer106-384
99.64SO4;CA;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;GGB;
X-ray radiation damage series on Proteinase K at 277K, multi-conformer model, dataset 3 (merged)monomer106-384
99.64SO4;CA;
Crystal structure of the complex of Proteinase K with a designed heptapeptide inhibitor Pro-Ala-Pro…monomer106-384
99.64CA;NO3;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo57monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo26monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo46monomer106-384
99.64SO4;
Proteinase K by LB nanotemplate method after the third step high X-Ray dose on ESRF ID14-2 beamlinemonomer106-384
100CA;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo62monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo61monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo60monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo37monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo71monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo1monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo30monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo22monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo70monomer106-384
99.64SO4;
High Energy Remote SAD structure solution of Proteinase K from the 37.8 keV Tellurium K edgemonomer106-384
99.64CA;TE;O;EDO;SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo43monomer106-384
99.64SO4;
Proteinase K Anomalous Dataset at 273 K and 12 keVmonomer106-384
99.64CA;SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo72monomer106-384
99.64SO4;
X-ray radiation damage series on Proteinase K at 100K, crystal structure, dataset 5monomer106-384
99.64CA;NO3;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo32monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo45monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo44monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;4AQ;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo51monomer106-384
99.64SO4;
Structure of a complex formed between Proteinase K and a designed heptapeptide inhibitor Pro-Ala-Pr…monomer106-384
99.64CA;NO3;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo14monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo10monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;8G2;
Proteinase K structure at atomic resolution from crystals grown in agarose gelmonomer106-384
99.64NO3;NA;GOL;SO4;MG;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo48monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo35monomer106-384
99.64SO4;
X-ray radiation damage series on Proteinase K at 277K, multi-conformer model, dataset 2monomer106-384
99.64SO4;CA;
Co-substituted beta-Keggin bound to Proteinase K solved by MRmonomer106-384
99.64XCO;KCO;SO4;
Ni-substituted alpha-Keggin bound to Proteinase K solved by MRmonomer106-384
99.64WNI;SO4;
Selenium SAD structure solution of proteinase K grown in SO4-less solution and soaked in selenate.monomer106-384
99.64CA;GOL;SE4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo20monomer106-384
99.64SO4;
X-ray analysis of Crystal of Proteinase K Obtained from H2O Solution Using PEG 8000monomer106-384
99.64CA;GOL;
X-ray analysis of Crystal of Proteinase K Obtained from D2O Solution Using PEG 8000monomer106-384
99.64CA;GOL;
X-ray radiation damage series on Proteinase K at 100K, crystal structure, dataset 6monomer106-384
99.64CA;NO3;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo36monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo24monomer106-384
99.64SO4;
Proteinase K Multiconformer Model at 313Kmonomer106-384
99.64SO4;CA;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo41monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;F91;
Crystal Structure of Proteinase K from Engyodontium albuminhibited by METHOXYSUCCINYL-ALA-ALA-PRO-P…monomer106-384
99.64CA;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo15monomer106-384
99.64SO4;
X-ray radiation damage series on Proteinase K at 100K, crystal structure, dataset 7monomer106-384
99.64CA;NO3;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;46P;
Structure Proteinase K determined by SACLAmonomer106-384
99.64CA;NO3;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;CLW;
Proteinase K Multiconformer Model at 343Kmonomer106-384
99.64SO4;CA;
Proteinase K Multiconformer Model at 333Kmonomer106-384
99.64SO4;CA;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;NCA;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;HBD;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;483;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo58monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;47S;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;47Y;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;479;
Crystal structure of Proteinase Kmonomer106-384
99.64CA;NO3;CL;2DB;
Proteinase K Multiconformer Model at 353Kmonomer106-384
99.64SO4;CA;
X-ray radiation damage series on Proteinase K at 277K, multi-conformer model, dataset 3monomer106-384
99.64SO4;CA;
Crystal structure of proteinase K inhibited by a lactoferrin nonapeptide, Lys-Gly-Glu-Ala-Asp-Ala-L…monomer106-384
100
proteinase K- digalacturonic acid complexmonomer106-384
99.64ADA;CA;EPE;
Zn-substituted alpha-Keggin bound to Proteinase K solved by MRmonomer106-384
99.64KK5;SO4;
Proteinase K in complex with a "half sandwich"-type Ru(II) coordination compoundmonomer106-384
99.64NO3;EDO;CA;NYN;NA;TFS;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;L2K;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo27monomer106-384
99.64SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo73monomer106-384
99.64SO4;
X-ray radiation damage series on Proteinase K at 277K, crystal structure, dataset 4monomer106-384
99.64SO4;CA;
Proteinase K by Classical hanging drop method before high X-Ray dose on ESRF ID23-1 beamlinemonomer106-384
100CA;
X-ray radiation damage series on Proteinase K at 277K, multi-conformer model, dataset 4monomer106-384
99.64SO4;CA;
Proteinase K by LB nanotemplate method before high X-Ray dose on ESRF ID23-1 beamlinemonomer106-384
100CA;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo34monomer106-384
99.64SO4;
Crystal structure of proteinase K from Engyodontium albummonomer106-384
99.64NO3;GOL;PR;
Crystal structure of proteinase K from Engyodontium albummonomer106-384
99.64NO3;GOL;CA;
High resolution crystal structure of proteinase K with thioureamonomer106-384
99.64TOU;SO4;CL;
Proteinase K complexed with 4-iodopyrazolemonomer106-384
99.64SO4;PYZ;IOD;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;YEY;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;AMH;
Crystal structure of proteinase K from Engyodontium albummonomer106-384
99.64NO3;PR;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo7monomer106-384
99.64SO4;
CRYSTAL STRUCTURE OF CALCIUM-FREE PROTEINASE K AT 1.5 ANGSTROMS RESOLUTIONmonomer106-384
100NA;
SYNCHROTRON X-RAY DATA COLLECTION AND RESTRAINED LEAST-SQUARES REFINEMENT OF THE CRYSTAL STRUCTURE …monomer106-384
100CA;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo6monomer106-384
99.64SO4;
Using sound pulses to solve the crystal harvesting bottleneckmonomer106-384
99.64CA;TLA;EDO;
Structure of proteinase K with the mad triangle B3Cmonomer106-384
99.64BRV;SO4;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo65monomer106-384
99.64SO4;
Proteinase K Multiconformer Model at 363Kmonomer106-384
99.64SO4;CA;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo67monomer106-384
99.64SO4;
SAD structure solution of proteinase K grown in potassium tellurate solutionmonomer106-384
99.64CA;TE6;SO4;EDO;
ENHANCEMENT OF ENZYME ACTIVITY THROUGH THREE-PHASE PARTITIONING: CRYSTAL STRUCTURE OF A MODIFIED SE…monomer106-384
100CA;ACY;
Crystal structure of proteinase K from Engyodontium albummonomer106-384
99.64CA;NO3;
Crystal structure of proteinase K from Engyodontium albummonomer106-384
99.64CA;NO3;
Crystal structure of proteinase K from Engyodontium albummonomer106-384
99.64CA;NO3;
Crystal structure of proteinase K from Engyodontium albummonomer106-384
99.64CA;NO3;
The 1.6 A High Energy Room Temperature Structure of Proteinase K at 38.4 keV and 0.04 MGymonomer106-384
99.64CA;
Crystal structure of proteinase K from Engyodontium albummonomer106-384
99.64CA;NO3;
Proteinase-K Post-Surface Acoustic Wavesmonomer106-384
99.64SO4;
Co-substituted Keggin silicotungstate with covalent bond to proteinase Kmonomer106-384
99.64R5Q;SO4;
Co-substituted Keggin silicotungstate with covalent bond to proteinase Kmonomer106-384
99.64SO4;R5Q;
Ni-substituted Keggin silicotungstate with covalent bond to proteinase Kmonomer106-384
99.64SO4;R5N;
Using sound pulses to solve the crystal harvesting bottleneckmonomer106-384
99.64CA;MHA;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;47E;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo68monomer106-384
99.64SO4;
New polymorhp of proteinase K obtained by free interface diffusion techniquemonomer106-384
99.64SO4;
Crystal structure of proteinase K from Engyodontium albummonomer106-384
99.64PR;NO3;
Proteinase K grown inside HARE serial crystallography chipmonomer106-384
99.64NO3;
Proteinase K measured via serial crystallography from a silicon HARE-chipmonomer106-384
99.64NO3;CA;
Proteinase K measured via serial crystallography from a kapton HARE-chip (50 micron)monomer106-384
99.64NO3;CA;
Proteinase K measured via serial crystallography from a kapton HARE-chip (125 micron)monomer106-384
99.64NO3;CA;
Crystal structure of the complex formed between proteinase K and a synthetic peptide Leu-Leu-Phe-As…monomer106-384
99.64CA;NO3;
Crystal structure of proteinase K complex with a synthetic peptide KLKLLVVIRLK at 1.69 A resolutionmonomer106-384
99.64CA;NO3;
Proteinase K by LB nanotemplate method after the first step of high X-Ray dose on ESRF ID23-1 beaml…monomer106-384
100CA;
Crystal structure of proteinase K from Engyodontium albummonomer106-384
99.64CA;NO3;
Using sound pulses to solve the crystal harvesting bottleneckmonomer106-384
99.64CA;NO3;EDO;BCN;
X-Ray structure of Proteinase K crystallized on a silicon chipmonomer106-384
99.64CA;NHE;
Structure of proteinase K with the magic triangle I3Cmonomer106-384
99.64I3C;SO4;
Sulphur SAD structure solution of proteinase K grown in SO4 solutionmonomer106-384
99.64SO4;CA;GOL;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-384
99.64SO4;MRZ;
Crystal structure of the complex of proteinase K with auramine at 1.8A resolutionmonomer106-384
99.64CA;NO3;AU4;
High-viscosity injector-based Pink Beam Serial Crystallography of Micro-crystals at a Synchrotron R…monomer106-384
99.64CA;NO3;
Proteinase K Anomalous Dataset at 293 K and 7.1 keVmonomer106-384
99.64CA;SO4;
Proteinase K by Langmuir-Blodgett Hanging Drop Method at 1.8A resolution for Unique Water Distribut…monomer106-384
100
Proteinase K by Classical hanging drop method after the first step of high X-Ray dose on ESRF ID23-…monomer106-384
100CA;
Sulphur SAD structure solution of proteinase K grown in SO4-less solution.monomer106-384
99.64CA;NO3;
MERCURY INDUCED MODIFICATIONS IN THE STEREOCHEMISTRY OF THE ACTIVE SITE THROUGH CYS-73 IN A SERINE …monomer106-384
99.64HG;CA;
Proteinase K Anomalous Dataset at 310 K and 7.1 keVmonomer106-384
99.64CA;SO4;
Structure of serine proteinase K complex with a highly flexible hydrophobic peptide at 1.8A resolut…monomer106-384
99.64CA;NO3;
Proteinase K determined by PAL-XFELmonomer106-384
99.64CA;
Proteinase~K SIRAS phased structure of room-temperature, serially collected synchrotron datamonomer106-384
99.64CA;
Proteinase K by LB nanotemplate method after the second step of high X-Ray dose on ESRF ID23-1 beam…monomer106-384
100CA;
Crystal structure of the complex of proteinase K with coumarin at 1.9 A resolutionmonomer106-384
99.64CA;NO3;COU;
Proteinase-K Pre-Surface Acoustic Wavemonomer106-384
99.64SO4;
Serial Macromolecular Crystallography at ALBA Synchrotron Light Source - Proteinase Kmonomer106-384
99.64NO3;CA;
Crystal structure of the complex of proteinase K with a specific lactoferrin peptide Val-Leu-Leu-Hi…monomer106-384
99.64CA;NO3;
Pink beam serial crystallography: Proteinase K, 1 us exposure, 1585 patterns merged (2 chips)monomer106-384
99.64CA; 11×SO4;CL;
PanDDA analysis group deposition -- Proteinase K crystal structure Apo9monomer106-384
99.64SO4;
Proteinase K by LB nanotemplate method after the third step of high X-Ray dose on ESRF ID23-1 beaml…monomer106-384
100CA;
Regulation of protease activity by melanin: Crystal structure of the complex formed between protein…monomer106-384
100CA;3ID;
roteinase K by Classical hanging drop method after the second step of high X-Ray dose on ESRF ID23-…monomer106-384
100CA;
Proteinase K by LB nanotemplate method after the fourth step of high X-Ray dose on ESRF ID23-1 beam…monomer106-384
100CA;
anomalous substructure of proteinase Kmonomer106-384
99.64CA;K;CL;
Structure of proteinase K obtained in SSRF using serial crystallographymonomer106-384
99.64CA;
Proteinase K by Classical hanging drop method after the third step of high X-Ray dose on ESRF ID23-…monomer106-384
100CA;
ENHANCEMENT OF CATALYTIC EFFICIENCY OF PROTEINASE K THROUGH EXPOSURE TO ANHYDROUS ORGANIC SOLVENT A…monomer106-384
100CA;CCN;
Multicrystal structure of Proteinase K at room temperature using a multilayer monochromator.monomer106-384
99.64GOL;SO4;CA;CL;NA;
STRUCTURE OF THE COMPLEX OF PROTEINASE K WITH A SUBSTRATE-ANALOGUE HEXA-PEPTIDE INHIBITOR AT 2.2 AN…monomer106-384
99.64
Structure of a ternary complex of proteinase K, mercury and a substrate-analogue hexapeptide at 2.2…monomer106-384
100HG;
INHIBITION OF PROTEINASE K BY METHOXYSUCCINYL-ALA-ALA-PRO-ALA-CHLOROMETHYL KETONE. AN X-RAY STUDY A…monomer106-384
100CA;
Single-shot pink beam serial crystallography: Proteinase Kmonomer106-384
99.64CA;CL;NHE;EPE;
Crystal Structure of the complex of proteinase K with an antimicrobial nonapeptide, at 2.26 A resol…monomer106-384
99.64CA;NO3;
Proteinase K by Classical hanging drop method after the fourth step of high X-Ray dose on ESRF ID23…monomer106-384
100CA;
Crystal structure of proteinase K from Engyodontium albummonomer106-384
99.64CA;
Crystal structure of proteinase K from Engyodontium albummonomer106-384
99.64CA;
STUDIES ON THE INHIBITORY ACTION OF MERCURY UPON PROTEINASE Kmonomer106-384
100HG;CA;
COMPLEX FORMED BETWEEN PROTEOLYTICALLY GENERATED LACTOFERRIN FRAGMENT AND PROTEINASE Kmonomer106-384
100CA;
Strategy to design inhibitors: Structure of a complex of Proteinase K with a designed octapeptide i…monomer106-384
99.64
proteinase K crystallized from 0.5 M NaNO3monomer106-384
99.64NA;
Serial Millisecond Crystallography of Membrane and Soluble Protein Micro-crystals using Synchrotron…monomer106-384
99.64NO3;CA;
MicroED structure of Proteinase K from lamellae milled from multiple plasma sourcesmonomer106-384
99.64NO3;CA;
MicroED structure of Proteinase K from argon milled lamellaemonomer106-384
99.64NO3;CA;
MicroED structure of Proteinase K from xenon milled lamellaemonomer106-384
99.64NO3;CA;
MicroED structure of Proteinase K from oxygen milled lamellaemonomer106-384
99.64NO3;CA;
MicroED structure of proteinase K at 1.50A determained using crystal lamellas prepared by focused i…monomer106-384
99.64SO4;
Ab initio structure of proteinase K from electron-counted MicroED datamonomer106-384
100I3C;CA;
Proteinase K Determined by MicroED Phased by ARCIMBOLDO_SHREDDERmonomer106-384
99.64CA;
MicroED structure of proteinase K at 1.6 A resolutionmonomer106-384
100CA;
MicroED structure of proteinase K recorded on K3monomer106-384
99.64CA;
1.71 A MicroED structure of proteinase K at 0.86 e- / A^2monomer106-384
100
MicroED structure of proteinase K at 1.75 A resolutionmonomer106-384
99.64SO4;
Proteinase K soaked with I3C determined by MicroED from a single milled microcrystalmonomer106-384
100I3C;
MicroED structure of proteinase K from a platinum-coated, polished, single lamella at 1.79A resolut…monomer106-384
100
MicroED structure of Proteinase K from nitrogen milled lamellaemonomer106-384
99.64CA;
MicroED structure of proteinase K from merging low-dose, platinum pre-coated lamellae at 1.85A reso…monomer106-384
100
MicroED structure of proteinase K from a platinum-coated, polished, single lamella at 1.85A resolut…monomer106-384
100
MicroED structure of proteinase K from a 115 nm thick lamella measured at 200 kVmonomer106-384
100
MicroED structure of proteinase K from a 150 nm thick lamella measured at 300 kVmonomer106-384
100
MicroED structure of proteinase K from a platinum-coated, polished, single lamella at 1.91A resolut…monomer106-384
100
MicroED structure of proteinase K from a 130 nm thick lamella measured at 200 kVmonomer106-384
100
MicroED structure of proteinase K from a 260 nm thick lamella measured at 200 kVmonomer106-384
100
MicroED structure of proteinase K from a 460 nm thick lamella measured at 200 kVmonomer106-384
100
LCP-embedded Proteinase K treated with MPDmonomer106-384
100CA;
LCP-embedded Proteinase K treated with lipasemonomer106-384
100CA;NO3;
MicroED structure of proteinase K from a 200 nm thick lamella measured at 120 kVmonomer106-384
100
2.00 A MicroED structure of proteinase K at 2.6 e- / A^2monomer106-384
100
Crystal structure of proteinase K lamella by electron diffraction with a 50 micrometre C2 condenser…monomer106-384
99.64CA;
MicroED structure of proteinase K from a 360 nm thick lamella measured at 300 kVmonomer106-384
100
MicroED structure of proteinase K from a platinum coated, unpolished, single lamella at 2.07A resol…monomer106-384
100
MicroED structure of proteinase K from an unpolished, platinum-coated, single lamella at 2.08A reso…monomer106-384
100
MicroED structure of proteinase K recorded on Falcon IIImonomer106-384
100CA;
MicroED structure of proteinase K from a 170 nm thick lamella measured at 300 kVmonomer106-384
100
MicroED structure of proteinase K from a 320 nm thick lamella measured at 300 kVmonomer106-384
100
The MicroED structure of proteinase K crystallized by suspended drop crystallizationmonomer106-384
100SO4;CA;
MicroED structure of proteinase K from low-dose merged lamellae that were not pre-coated with plati…monomer106-384
100
MicroED structure of proteinase K from an uncoated, single lamella at 2.17A resolution (#8)monomer106-384
100
MicroED structure of proteinase K from an uncoated, single lamella at 2.17A resolution (#2)monomer106-384
100
MicroED structure of proteinase K from an uncoated, single lamella at 2.18A resolution (#5)monomer106-384
100
2.20 A MicroED structure of proteinase K at 4.3 e- / A^2monomer106-384
100
MicroED structure of proteinase K from a 530 nm thick lamella measured at 200 kVmonomer106-384
100
MicroED structure of proteinase K from a 130 nm thick lamella measured at 120 kVmonomer106-384
100
MicroED structure of proteinase K from a 95 nm thick lamella measured at 200 kVmonomer106-384
100
MicroED structure of proteinase K from a 540 nm thick lamella measured at 200 kVmonomer106-384
100
MicroED structure of proteinase K from an uncoated, single lamella at 2.59A resolution (#7)monomer106-384
100
MicroED structure of proteinase K recorded on CetaDmonomer106-384
100CA;
MicroED structure of proteinase K from a 325 nm thick lamella measured at 120 kVmonomer106-384
100
MicroED structure of Proteinase K at 2.75A resolution from a single milled crystal.monomer106-384
99.64CA;SO4;
2.80 A MicroED structure of proteinase K at 6.0 e- / A^2monomer106-384
100
MicroED structure of proteinase K recorded on K2monomer106-384
100CA;
MicroED structure of proteinase K from a 550 nm thick lamella measured at 300 kVmonomer106-384
100
3.20 A MicroED structure of proteinase K at 7.8 e- / A^2monomer106-384
100
Cu-substituted alpha-Keggin bound to Proteinase K solved by MRmonomer106-383
99.64XCU;SO4;
PanDDA analysis group deposition -- Proteinase K changed state model for fragment Frag Xtal Screen …monomer106-383
99.64W9J;
Crystal structure of proteinase K complexed with a triglycinemonomer106-383
100CA;GGG;
Crystal structure of proteinase K lamellae by electron diffraction with a 20 micrometre C2 condense…monomer106-383
99.64CA;
Crystal structure of proteinase K nanocrystals by electron diffraction with a 20 micrometre C2 cond…monomer106-383
99.64CA;
Co-substituted alpha-Keggin bound to Proteinase K solved by MRmonomer106-382
99.64WCO;SO4;
Co-substituted alpha-Keggin bound to Proteinase K solved by EPmonomer106-382
99.64WCO;SO4;
Co-substituted beta-Keggin bound to Proteinase K solved by MRmonomer106-382
99.64XCO;KCO;SO4;BET;

2 SWISS-MODEL models

TemplateOligo-stateQMEANDisCoRangeLigandsTrg-Tpl Seq id (%)
8rse.1.Amonomer0.93106-384
CA;99.73
5vlk.1.Amonomer0.6834-382
CA;32.36