P02185 (MYG_PHYMC) Physeter macrocephalus (Sperm whale) (Physeter catodon)
Myoglobin UniProtKBProtein AtlasInterProSTRINGInteractive Modelling
154 aa; Sequence (Fasta)
It is possible new templates exist for this target since these models were created.
Available Structures
350 Experimental Structures
| Description | PDB ID | Oligo-state | Range | Seq id (%) | Ligands | |
|---|---|---|---|---|---|---|
| Laue Structure of L29W MbCO | homo-6-mer | 98.69 | 6×HEM; 6×CMO; | |||
| Myoglobin variant Mb-imi complex | monomer | 98.05 | 1×HEM; 1×IMD; 2×SO4; | |||
| structure of microgravity-grown oxidized myoglobin mutant YQR (ISS8A) | monomer | 97.4 | 1×OH; 3×SO4; 1×HEM; | |||
| Engineered sperm whale myoglobin-based carbene transferase | monomer | 98.05 | 1×GLC; 3×SO4; 1×HEM; | |||
| Complex of G65T Myoglobin with Phenol in its Proximal Cavity | monomer | 99.35 | 1×HEM; 1×IPH; 4×SO4; 2×EDO; | |||
| Reactive amide intermediate in sperm whale myoglobin mutant H64V V68A | monomer | 98.7 | 2×ACT; 1×HEM; 1×GEE; | |||
| Structure of K42Y mutant of sperm whale myoglobin | monomer | 99.35 | 1×HEM; 6×SO4; 2×EDO; | |||
| Structure of MbQ2.1 NMH | monomer | 93.51 | 1×HEM; 1×IMD; | |||
| Complex of G65T Myoglobin with DMSO in its Distal Cavity | monomer | 99.35 | 1×HEM; 1×OXY; 1×DMS; 4×SO4; 1×EDO; | |||
| Crystal structure of sperm whale myoglobin variant sMb13(pCaaF) in space group P21 | monomer | 94.81 | 1×HEM; 1×OXY; 3×SO4; | |||
| 1.3 ANGSTROM RESOLUTION CRYSTAL STRUCTURE OF P6 FORM OF MYOGLOBIN | monomer | 99.35 | 3×SO4; 1×HEM; 1×CMO; | |||
| Recombinant Sperm Whale P6 Myoglobin Solved with Single Pulse Free Electron Laser Data | monomer | 100 | 1×HEM; 8×SO4; | |||
| Sperm whale myoblogin mutant H64V V68A in complex with glycine ethyl ester | monomer | 98.7 | 1×ACT; 1×HEM; 1×GEE; | |||
| Photolyzed CO complex of Myoglobin Mb-YQR at 20K | monomer | 97.4 | 1×HEM; 1×CMO; 3×SO4; | |||
| Myoglobin variant Mb-cIII complex | monomer | 98.05 | 4×SO4; 1×WRK; | |||
| Sperm whale Myoglobin mutant T67R S92D | monomer | 98.05 | 1×HEM; 1×CYN; 1×SO4; | |||
| CO complex of Myoglobin Mb-YQR at 100K | monomer | 97.4 | 1×HEM; 1×CMO; 3×SO4; | |||
| Crystal Structure of an Artificial Metalloprotein:Cr(III)(3,3'-Me2-salophen)/apo-A71G Myoglobin | monomer | 99.34 | 1×CR; 6×PO4; 1×CZM; | |||
| Crystal Structure of an Artificial Metalloprotein:Mn(III)(3,3'-Me2-salophen)/apo-A71G Myoglobin | monomer | 99.35 | 6×PO4; 1×CZM; 1×MN3; | |||
| PHOTOLYSED CARBONMONOXY-MYOGLOBIN AT 20 K | monomer | 99.35 | 1×SO4; 1×HEM; 1×CMO; | |||
| Myoglobin H64V/V68A in the resting state, 1.5 Angstrom resolution | monomer | 98.7 | 1×HEM; 1×EDO; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN (MET) | monomer | 99.35 | 1×SO4; 1×HEM; | |||
| Structure of MbQ NMH | monomer | 97.4 | 1×HEM; 1×IMD; | |||
| structure of earth-grown oxidized myoglobin mutant YQR (ISS8A) | monomer | 97.4 | 1×SO4; 1×OH; 1×HEM; | |||
| Crystal Structure of an Artificial Metalloprotein:Fe(III)(3,3'-Me2-salophen)/apo-A71G Myoglobin | monomer | 99.35 | 1×FE; 6×PO4; 1×CZM; | |||
| CRYSTAL STRUCTURE OF A DISTAL SITE DOUBLE MUTANT OF SPERM WHALE MYOGLOBIN AT 1.6 ANGSTROMS RESOLUTI… | monomer | 98.05 | 2×SO4; 1×HEM; | |||
| structure of microgravity-grown oxidized myoglobin mutant YQR (ISS8A) | monomer | 97.4 | 1×OH; 2×SO4; 1×HEM; | |||
| Crystal Structure of F43W/H64D/V68I Myoglobin | monomer | 97.4 | 3×SO4; 1×HEM; 1×GOL; | |||
| CO COMPLEX OF MYOGLOBIN MB-YQR AT RT SOLVED FROM LAUE DATA. | monomer | 97.4 | 2×SO4; 1×HEM; 1×CMO; | |||
| STRUCTURE OF MYOGLOBIN MB-YQR 316 ns AFTER PHOTOLYSIS OF CARBON MONOXIDE SOLVED FROM LAUE DATA AT R… | monomer | 97.4 | 2×SO4; 1×HEM; 1×CMO; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN L104V MUTANT (MET) | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| Sperm whale myoglobin mutant H64W deoxy-form | monomer | 98.7 | 1×HEM; 9×SO4; | |||
| Crystal Structure of Cu(II)(Sal-Phe)/apo-Myoglobin | monomer | 100 | 5×PO4; 1×CUP; | |||
| Sperm whale myoglobin mutant H64W carbonmonoxy-form | monomer | 98.7 | 1×HEM; 1×CMO; 3×SO4; | |||
| HIGH RESOLUTION CRYSTAL STRUCTURES OF FIVE DISTAL HISTIDINE MUTANTS OF SPERM WHALE MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| Crystal structure of sperm whale myoglobin variant sMb5(O2beY) | monomer | 96.75 | 1×HEM; 4×SO4; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN H64D/V68A/D122N MUTANT (MET) | monomer | 98.05 | 1×SO4; 1×HEM; | |||
| Recombinant sperm whale myoglobin h97d, d122n mutant (met) | monomer | 98.7 | 1×HEM; | |||
| PHE46(CD4) ORIENTS THE DISTAL HISTIDINE FOR HYDROGEN BONDING TO BOUND LIGANDS IN SPERM WHALE MYOGLO… | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| 1.7-Angstrom In situ Mylar structure of sperm whale myoglobin (SWMb-CO) at 100 K | monomer | 99.35 | 1×HEM; 1×CMO; 5×SO4; 2×CL; | |||
| STRUCTURAL AND FUNCTIONAL EFFECTS OF APOLAR MUTATIONS OF VAL68(E11) IN MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| A NOVEL SITE-DIRECTED MUTANT OF MYOGLOBIN WITH AN UNUSUALLY HIGH O2 AFFINITY AND LOW AUTOOXIDATION … | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| A NOVEL SITE-DIRECTED MUTANT OF MYOGLOBIN WITH AN UNUSUALLY HIGH O2 AFFINITY AND LOW AUTOOXIDATION … | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| STRUCTURAL DETERMINANTS OF CO STRETCHING VIBRATION FREQUENCIES IN MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| A NOVEL SITE-DIRECTED MUTANT OF MYOGLOBIN WITH AN UNUSUALLY HIGH O2 AFFINITY AND LOW AUTOOXIDATION … | monomer | 98.7 | 1×SO4; 1×HEM; 1×OXY; | |||
| A NOVEL SITE-DIRECTED MUTANT OF MYOGLOBIN WITH AN UNUSUALLY HIGH O2 AFFINITY AND LOW AUTOOXIDATION … | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| OXYGEN BINDING MUSCLE PROTEIN | monomer | 99.35 | 1×SO4; 1×HEM; 1×ETN; | |||
| Structural and functional effects of apolar mutations of val68(e11) in myoglobin | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN 29W MUTANT (OXY) | monomer | 98.7 | 1×SO4; 1×HEM; 1×OXY; | |||
| SPERM WHALE MYOGLOBIN (MUTANT WITH INITIATOR MET AND WITH HIS 64 REPLACED BY GLN, LEU 29 REPLACED B… | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| Myoglobin Cavity Mutant H64LV68N Deoxy form | monomer | 98.05 | 1×HEM; | |||
| CRYSTAL STRUCTURE OF OXY SPERM WHALE MYOGLOBIN MUTANT Y(B10)Q(E7)R(E10) | monomer | 97.4 | 2×SO4; 1×HEM; 1×OXY; | |||
| Crystal structure of Sperm Whale Myoglobin mutant YQRF in complex with Xenon | monomer | 97.4 | 1×HEM; 3×XE; 1×SO4; | |||
| Crystal Structure of Zinc myoglobin soaked with Ru3O cluster | monomer | 99.35 | 2×SO4; 2×RUO; 1×ZNH; | |||
| Crystal Structure of K102C-Myoglobin conjugated with Fluorescein | monomer | 99.35 | 1×HEM; 3×SO4; 1×GOL; 1×LCY; | |||
| CO-bound sperm whale myoglobin measured by serial synchrotron crystallography | monomer | 99.35 | 1×HEM; 1×SO4; 1×CMO; | |||
| CO-bound sperm whale myoglobin measured by serial femtosecond crystallography | monomer | 99.35 | 1×HEM; 1×SO4; 1×CMO; | |||
| H64A sperm whale myoglobin with a Fe-tolyl moiety | monomer | 98.7 | 1×6CQ; 6×SO4; | |||
| X-ray crystal structure of met K42C sperm whale myoglobin | monomer | 99.35 | 1×HEM; | |||
| SPERM WHALE MYOGLOBIN D122N METHYL ISOCYANIDE AT PH 9.0 | monomer | 99.35 | 1×SO4; 1×HEM; 1×MNC; | |||
| HIGH RESOLUTION CRYSTAL STRUCTURES OF FIVE DISTAL HISTIDINE MUTANTS OF SPERM WHALE MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| Structure of earth-grown oxidized Myoglobin mutant YQR (ISS6A) | monomer | 97.4 | 1×OH; 1×SO4; 1×HEM; | |||
| HIGH RESOLUTION CRYSTAL STRUCTURES OF FIVE DISTAL HISTIDINE MUTANTS OF SPERM WHALE MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| HIGH RESOLUTION CRYSTAL STRUCTURES OF FIVE DISTAL HISTIDINE MUTANTS OF SPERM WHALE MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| structure of microgravity-grown oxidized myoglobin mutant YQR (ISS6A) | monomer | 97.4 | 1×OH; 1×SO4; 1×HEM; | |||
| H64A swMb-EtNO adduct | monomer | 98.7 | 1×HEM; 1×NOE; 1×SO4; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN L29H/H64L/D122N MUTANT (WITH INITIATOR MET) | monomer | 98.05 | 1×SO4; 1×HEM; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN F43H, H64L MUTANT (MET) | monomer | 98.05 | 1×SO4; 1×HEM; | |||
| STRUCTURAL AND FUNCTIONAL EFFECTS OF APOLAR MUTATIONS OF VAL68(E11) IN MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| PHE46(CD4) ORIENTS THE DISTAL HISTIDINE FOR HYDROGEN BONDING TO BOUND LIGANDS IN SPERM WHALE MYOGLO… | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| STRUCTURAL AND FUNCTIONAL EFFECTS OF APOLAR MUTATIONS OF VAL68(E11) IN MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| STRUCTURAL AND FUNCTIONAL EFFECTS OF APOLAR MUTATIONS OF VAL68(E11) IN MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| Low-dose fixed target serial synchrotron crystallography structure of Metmyoglobin | monomer | 99.35 | 1×HEM; 4×SO4; | |||
| Crystal Structure of an Artificial Metalloprotein:Rh(Phebox-Ph)/apo-A71G Myoglobin | monomer | 99.35 | 3×PO4; 1×RHX; | |||
| CRYSTAL STRUCTURE OF DEOXY SPERM WHALE MYOGLOBIN MUTANT Y(B10)Q(E7)R(E10) | monomer | 97.4 | 1×SO4; 1×HEM; | |||
| Low-dose fixed target serial synchrotron crystallography structure of sperm whale myoglobin | monomer | 99.35 | 1×HEM; 2×SO4; 1×CMO; | |||
| Myoglobin Cavity Mutant H64LV68N Met form | monomer | 98.05 | 1×HEM; | |||
| Myoglobin cavity mutant I28W | monomer | 98.7 | 2×SO4; 1×HEM; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN L104A MUTANT (MET) | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| Crystal Structure of Cu(II)(Sal-Leu)/apo-Myoglobin | monomer | 100.0 | 5×PO4; 1×CUS; 1×GOL; | |||
| Myoglobin cavity mutant V68W | monomer | 98.7 | 2×SO4; 1×HEM; | |||
| Myoglobin cavity mutant F138W | monomer | 98.7 | 2×SO4; 1×HEM; | |||
| Myoglobin cavity mutant I107W | monomer | 98.7 | 2×SO4; 1×HEM; | |||
| SPERM WHALE MYOGLOBIN D122N ETHYL ISOCYANIDE AT PH 9.0 | monomer | 99.35 | 1×SO4; 1×HEM; 1×ENC; | |||
| SPERM WHALE MYOGLOBIN H64A AQUOMET AT PH 9.0 | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN 29F/64Q/68F/122N MUTANT (MET) | monomer | 97.4 | 1×SO4; 1×HEM; | |||
| Wild-type sperm whale myoglobin with nitrite | monomer | 99.35 | 1×HEM; 7×NO2; 3×SO4; 1×GOL; | |||
| SPERM WHALE MYOGLOBIN D122N N-BUTYL ISOCYANIDE AT PH 9.0 | monomer | 99.35 | 1×SO4; 1×HEM; 1×NBN; | |||
| PHE46(CD4) ORIENTS THE DISTAL HISTIDINE FOR HYDROGEN BONDING TO BOUND LIGANDS IN SPERM WHALE MYOGLO… | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| HIGH RESOLUTION CRYSTAL STRUCTURES OF FIVE DISTAL HISTIDINE MUTANTS OF SPERM WHALE MYOGLOBIN | monomer | 99.35 | 1×SO4; 1×HEM; 1×OXY; | |||
| X-ray structure of CO-bound sperm whale myoglobin using a fixed target crystallography chip | monomer | 99.35 | 1×HEM; 1×SO4; 1×CMO; | |||
| HIS64(E7)-> TYR APOMYOGLOBIN AS A REAGENT FOR MEASURING RATES OF HEMIN DISSOCIATION | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| SPERM WHALE MYOGLOBIN (FERROUS, NITRIC OXIDE BOUND) | monomer | 98.7 | 1×SO4; 1×HEM; 1×NO; | |||
| Unphotolyzed CO-bound L29F Myoglobin, crystal 2 | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| NITRIC OXIDE RECOMBINATION TO DOUBLE MUTANTS OF MYOGLOBIN: THE ROLE OF LIGAND DIFFUSION IN A FLUCTU… | monomer | 98.05 | 1×SO4; 1×HEM; 1×CMO; | |||
| Photolyzed CO L29F Myoglobin: 3.16us | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| Recombinant sperm whale myoglobin L89G mutatnt (MET) | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| Recombinant sperm whale myoglobin in the presence of 7atm xenon | monomer | 99.35 | 1×SO4; 1×HEM; 4×XE; | |||
| Photolyzed CO L29F Myoglobin: 316ns | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| Photolyzed CO L29F Myoglobin: 31.6ns | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| Photolyzed CO L29F Myoglobin: 3.16ns | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| A NOVEL SITE-DIRECTED MUTANT OF MYOGLOBIN WITH AN UNUSUALLY HIGH O2 AFFINITY AND LOW AUTOOXIDATION … | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| HIGH RESOLUTION CRYSTAL STRUCTURES OF FIVE DISTAL HISTIDINE MUTANTS OF SPERM WHALE MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| Unphotolyzed CO-bound L29F Myoglobin | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| Photolyzed CO L29F Myoglobin: 100ps | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| Photolyzed CO L29F Myoglobin: 316ps | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| Photolyzed CO L29F Myoglobin: 1ns | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN H64D/V68S/D122N MUTANT (MET) | monomer | 98.05 | 1×SO4; 1×HEM; | |||
| CO-bound Sperm Whale Myoglobin, room temperature structure solved by serial 5degree oscillation cry… | monomer | 100 | 1×HEM; 1×CMO; 1×SO4; | |||
| SPERM WHALE MYOGLOBIN V68F ETHYL ISOCYANIDE AT PH 9.0 | monomer | 98.7 | 1×SO4; 1×HEM; 1×ENC; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN L104N MUTANT (MET) | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| HIGH-RESOLUTION CRYSTAL STRUCTURES OF DISTAL HISTIDINE MUTANTS OF SPERM WHALE MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| STRUCTURAL AND FUNCTIONAL EFFECTS OF APOLAR MUTATIONS OF VAL68(E11) IN MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| STRUCTURAL AND FUNCTIONAL EFFECTS OF APOLAR MUTATIONS OF VAL68(E11) IN MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| HIGH RESOLUTION CRYSTAL STRUCTURES OF FIVE DISTAL HISTIDINE MUTANTS OF SPERM WHALE MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| STRUCTURAL AND FUNCTIONAL EFFECTS OF APOLAR MUTATIONS OF VAL68(E11) IN MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| HIGH RESOLUTION CRYSTAL STRUCTURES OF FIVE DISTAL HISTIDINE MUTANTS OF SPERM WHALE MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| HIGH RESOLUTION CRYSTAL STRUCTURES OF FIVE DISTAL HISTIDINE MUTANTS OF SPERM WHALE MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| STRUCTURAL AND FUNCTIONAL EFFECTS OF APOLAR MUTATIONS OF VAL68(E11) IN MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| HIGH RESOLUTION CRYSTAL STRUCTURES OF FIVE DISTAL HISTIDINE MUTANTS OF SPERM WHALE MYOGLOBIN | monomer | 99.35 | 1×SO4; 1×HEM; 1×CMO; | |||
| HIGH RESOLUTION CRYSTAL STRUCTURES OF FIVE DISTAL HISTIDINE MUTANTS OF SPERM WHALE MYOGLOBIN | monomer | 99.35 | 1×SO4; 1×HEM; | |||
| STRUCTURAL AND FUNCTIONAL EFFECTS OF APOLAR MUTATIONS OF VAL68(E11) IN MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| STRUCTURAL AND FUNCTIONAL EFFECTS OF APOLAR MUTATIONS OF VAL68(E11) IN MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| STRUCTURAL AND FUNCTIONAL EFFECTS OF APOLAR MUTATIONS OF VAL68(E11) IN MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| CO-bound Sperm Whale Myoglobin, room temperature structure, first 2 degrees of 5 degree total oscil… | monomer | 100 | 1×HEM; 1×CMO; 1×SO4; | |||
| HIGH RESOLUTION CRYSTAL STRUCTURES OF FIVE DISTAL HISTIDINE MUTANTS OF SPERM WHALE MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| HIGH-RESOLUTION CRYSTAL STRUCTURES OF DISTAL HISTIDINE MUTANTS OF SPERM WHALE MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| SPERM WHALE MYOGLOBIN F46V N-BUTYL ISOCYANIDE AT PH 9.0 | monomer | 98.7 | 1×SO4; 1×HEM; 1×NBN; | |||
| SPERM WHALE MYOGLOBIN H64A N-BUTYL ISOCYANIDE AT PH 9.0 | monomer | 98.7 | 1×SO4; 1×HEM; 1×NBN; | |||
| SPERM WHALE MYOGLOBIN V68F N-BUTYL ISOCYANIDE AT PH 9.0 | monomer | 98.7 | 1×SO4; 1×HEM; 1×NBN; | |||
| Crystal Structure of an Artificial Metalloprotein:Fe(III)(3,3'-Me2-salophen)/apo-wild type Myoglobin | monomer | 100 | 6×PO4; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN L104F MUTANT (MET) | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| CO-bound Sperm Whale Myoglobin, room temperature structure, last 2 degrees of 5 degree total oscill… | monomer | 100 | 1×HEM; 1×CMO; 1×SO4; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN L104W MUTANT (MET) | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| HIGH RESOLUTION CRYSTAL STRUCTURES OF FIVE DISTAL HISTIDINE MUTANTS OF SPERM WHALE MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; 1×CMO; | |||
| HIGH-RESOLUTION CRYSTAL STRUCTURES OF DISTAL HISTIDINE MUTANTS OF SPERM WHALE MYOGLOBIN | monomer | 98.7 | 1×SO4; 1×HEM; | |||
| SPERM WHALE MYOGLOBIN D122N N-PROPYL ISOCYANIDE AT PH 9.0 | monomer | 99.35 | 1×SO4; 1×HEM; 1×NPN; | |||
| SPERM WHALE MYOGLOBIN V68F N-BUTYL ISOCYANIDE AT PH 7.0 | monomer | 98.7 | 1×SO4; 1×HEM; 1×NBN; | |||
| Crystal structure of myoglobin reconstituted with 6-methyl-6-depropionatehemin | monomer | 100 | 4×SO4; 1×6HE; | |||
| Crystal Structure of Sperm Whale Myoglobin G65T | monomer | 99.35 | 1×HEM; 2×SO4; | |||
| ATOMIC RESOLUTION CRYSTAL STRUCTURE ANALYSIS OF NATIVE DEOXY AND CO MYOGLOBIN FROM SPERM WHALE AT R… | monomer | 100 | 3×SO4; 1×HEM; | |||
| Crystal structure of Native Sperm Whale myoglobin from low ionic strength enviroment (Form2 ) | monomer | 100 | 1×HEM; 1×IMD; | |||
| ATOMIC RESOLUTION CRYSTAL STRUCTURE ANALYSIS OF NATIVE DEOXY AND CO MYOGLOBIN FROM SPERM WHALE AT R… | monomer | 100 | 2×SO4; 1×HEM; 1×CMO; | |||
| Crystal structure of oxy-I107E CuB myoglobin (I107E L29H F43H sperm whale myoglobin; partial occupa… | monomer | 98.04 | 1×HEM; 1×PER; 1×CL; | |||
| ATOMIC RESOLUTION CRYSTAL STRUCTURE AQUOMET-MYOGLOBIN FROM SPERM WHALE AT ROOM TEMPERATURE | monomer | 100 | 4×SO4; 1×HEM; | |||
| Complex of Wild Type Myoglobin with Phenol in its Proximal Cavity | monomer | 100 | 1×HEM; 1×IPH; 5×SO4; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 40 K: Laser on | monomer | 100 | 1×HEM; 1×CMO; 2×SO4; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 40 K: Laser off | monomer | 100 | 2×SO4; 1×HEM; 1×CMO; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 100 K: Laser on [300 min] | monomer | 100 | 2×SO4; 1×HEM; 1×CMO; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 140 K: Laser off | monomer | 100 | 2×SO4; 1×HEM; 1×CMO; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 100 K: Laser on [450 min] | monomer | 100 | 1×HEM; 1×CMO; 2×SO4; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 120 K: Laser on [300 min] | monomer | 100 | 1×HEM; 1×CMO; 2×SO4; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 140 K: Laser on [150 min] | monomer | 100 | 2×SO4; 1×HEM; 1×CMO; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 120 K: Laser on [450 min] | monomer | 100 | 1×HEM; 1×CMO; 2×SO4; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 140 K: Laser on [300 min] | monomer | 100 | 2×SO4; 1×HEM; 1×CMO; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 140 K: Laser on [450 min] | monomer | 100 | 2×SO4; 1×HEM; 1×CMO; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 100 K: Laser on [30 min] | monomer | 100 | 1×HEM; 1×CMO; 2×SO4; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 140 K: Laser on [600 min] | monomer | 100 | 2×SO4; 1×HEM; 1×CMO; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 140 K: Laser on [750 min] | monomer | 100 | 2×SO4; 1×HEM; 1×CMO; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 120 K: Laser on [30 min] | monomer | 100 | 1×HEM; 1×CMO; 2×SO4; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 100 K: Laser on [600 min] | monomer | 100 | 1×HEM; 1×CMO; 2×SO4; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 100 K: Laser on [750 min] | monomer | 100 | 1×HEM; 1×CMO; 2×SO4; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 100 K: Laser on [810 min] | monomer | 100 | 1×HEM; 1×CMO; 2×SO4; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 120 K: Laser on [810 min] | monomer | 100 | 1×HEM; 1×CMO; 2×SO4; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 120 K: Laser on [600 min] | monomer | 100 | 1×HEM; 1×CMO; 2×SO4; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 100 K: Laser off | monomer | 100 | 2×SO4; 1×HEM; 1×CMO; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 120 K: Laser on [750 min] | monomer | 100 | 1×HEM; 1×CMO; 2×SO4; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 140 K: Laser on [30 min] | monomer | 100 | 1×HEM; 1×CMO; 2×SO4; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 100 K: Laser on [150 min] | monomer | 100 | 1×HEM; 1×CMO; 2×SO4; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 120 K: Laser on [150 min] | monomer | 100 | 1×HEM; 1×CMO; 2×SO4; | |||
| Carbonmonoxy Sperm Whale Myoglobin at 120 K: Laser off | monomer | 100 | 1×HEM; 1×CMO; 2×SO4; | |||
| sperm whale myoglobin mutant (H64V V64A) bearing the non-canonical amino acid 2-Amino-3-(thiazol-5-… | monomer | 98.04 | 1×HEM; 1×OXY; | |||
| Structure of K42N variant of sperm whale myoglobin | monomer | 99.35 | 1×HEM; 4×SO4; 3×EDO; | |||
| Sperm whale myoglobin mutant L29H F33Y F43H (F33Y CuBMb) with oxygen bound | monomer | 98.04 | 1×HEM; 1×OXY; | |||
| Sperm whale myoglobin mutant L29H F33W F43H (F33W CuBMb) | monomer | 98.04 | 1×HEM; | |||
| A sperm whale myoglobin double mutant L29H/F43Y Mb with a distal hydrogen-bonding network | monomer | 98.69 | 1×HEM; | |||
| The roles of glutamates and metal ions in a rationally designed nitric oxide reductase based on myo… | monomer | 97.39 | 1×HEM; 1×CU; | |||
| An X-ray structure of ferric F43Y/F46S sperm whale myoglobin | monomer | 98.69 | 1×HEM; | |||
| X-ray structure of sperm whale deoxymoglobin refined at 1.4A resolution | monomer | 100 | 1×SO4; 1×HEM; | |||
| STRUCTURE OF A BILIVERDIN APOMYOGLOBIN COMPLEX (FORM B) AT 98 K | monomer | 100 | 1×BLA; | |||
| The Structures of Thiolate- and Carboxylate-Ligated Ferric H93G Myoglobin: Models for Cytochrome P4… | monomer | 99.35 | 1×HEM; 1×ACY; | |||
| Cyanomet Sperm Whale Myoglobin at 1.4A resolution | monomer | 100 | 1×HEM; 1×CYN; 1×SO4; 2×ZN; | |||
| Crystal structure of Native Sperm Whale myoglobin from low ionic strength enviroment (Form 1) | monomer | 100 | 1×HEM; | |||
| Crystal structure of myoglobin reconstituted with 7-methyl-7-depropionatehemin | monomer | 100 | 3×SO4; 1×7HE; | |||
| structure of sperm whale myoglobin F138W | monomer | 99.35 | 1×HEM; | |||
| Myoglobin mutant L29I/H64G/V68A | monomer | 97.39 | 1×HEM; 1×IMD; | |||
| The roles of Glutamates and Metal ions in a rationally designed nitric oxide reductase based on myo… | monomer | 97.39 | 1×HEM; | |||
| A sperm whale myoglobin single mutant L29E Mb with native His93 coordination | monomer | 99.35 | 1×HEM; | |||
| X-ray crystal structure of F46C myoglobin with a covalently linked triazole group | monomer | 99.35 | 1×HEM; 1×EBJ; | |||
| Structure of Mb NMH H64V, V68A mutant resting state | monomer | 98.69 | 1×HEM; | |||
| X-ray crystal structure of F46C myoglobin with a covalently linked phenol group | monomer | 99.35 | 1×HEM; 1×9UU; | |||
| Crystal structure of I107E F33Y CuB myoglobin (I107E F33Y L29H F43H sperm whale myoglobin) | monomer | 97.39 | 1×HEM; | |||
| Structure of Mb NMH | monomer | 100 | 1×HEM; | |||
| Heme-carbene complex in myoglobin H64V/V68A containing an N-methylhistidine as the proximal ligand,… | monomer | 98.69 | 1×HEM; 1×EEE; | |||
| A sperm whale myoglobin mutant L29H Mb with two distal histidines | monomer | 99.35 | 1×HEM; | |||
| X-ray structure of ZnPFeBMb1 | monomer | 98.04 | 1×ZNH; | |||
| X-ray crystal structure of met F43H/H64A sperm whale myoglobin in complex with nitrite | monomer | 98.69 | 1×HEM; 2×NO2; | |||
| The X-ray structure of F46C myoglobin with a covalently linked Ni-complex | monomer | 99.35 | 1×HEM; 2×Y6C; 1×NI; | |||
| CARBONMONOXY-MYOGLOBIN MUTANT L29W AT 105K | monomer | 98.69 | 1×GLC; 2×SO4; 1×HEM; 1×CMO; | |||
| X-RAY STRUCTURE AND REFINEMENT OF CARBON-MONOXY (FE II)-MYOGLOBIN AT 1.5 ANGSTROMS RESOLUTION | monomer | 100 | 1×SO4; 1×HEM; 1×CMO; | |||
| STRUCTURE OF A BILIVERDIN APOMYOGLOBIN COMPLEX (FORM D) AT 118 K | monomer | 100 | 4×PO4; 1×BLA; | |||
| A sperm whale myoglobin single mutant F43H Mb with native His93 coordination | monomer | 99.35 | 1×HEM; | |||
| X-ray structure of Fe(II)-ZnPIXFeBMb1 | monomer | 98.04 | 1×ZNH; 2×FE2; | |||
| The X-ray structure of F46C myoglobin with a covalently linked Ni-complex | monomer | 99.35 | 1×HEM; 2×Y6C; 1×NI; | |||
| CARBONMONOXY-MYOGLOBIN (MUTANT L29W) AFTER PHOTOLYSIS AT T>180K | monomer | 98.69 | 1×GLC; 2×SO4; 1×HEM; 1×CMO; | |||
| SPERM WHALE MYOGLOBIN UNDER 30 BAR NITROUS Oxide | monomer | 100 | 1×HEM; 2×ZN; 3×SO4; 4×N2O; | |||
| An x-ray structure of G5K/Q8K/A19K/V21K Mb mutant with a positive charge | monomer | 97.39 | 1×HEM; | |||
| Nonheme Iron Replacement in a Biosynthetic Nitric Oxide Reductase Model Performing O2 Reduction to … | monomer | 98.04 | 1×HEM; 1×MN; | |||
| Crystal structure of F43Y mutant of sperm whale myoglobin | monomer | 99.35 | 1×HEM; | |||
| X-ray structure of F43Y/H64D sperm whale myoglobin | monomer | 98.69 | 1×HEM; | |||
| Structure and refinement of oxymyoglobin at 1.6 angstroms resolution | monomer | 100 | 1×SO4; 1×HEM; 1×OXY; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN I99V MUTANT (MET) | monomer | 98.69 | 1×SO4; 1×HEM; | |||
| X-ray crystal structure of sperm whale myoglobin H64D mutant | monomer | 99.35 | 1×HEM; | |||
| Crystal structure of Sperm Whale Myoglobin mutant YQR in complex with Xenon | monomer | 98.04 | 1×HEM; 3×SO4; 4×XE; | |||
| SPERM WHALE MYOGLOBIN UNDER XENON PRESSURE 30 Bar | monomer | 100 | 1×HEM; 2×ZN; 3×SO4; 5×XE; | |||
| The roles of glutamates and metal ions in a rationally designed nitric oxide reductase based on myo… | monomer | 97.39 | 1×HEM; 1×ZN; | |||
| Heme-carbene complex in myoglobin H64V/V68A containing an N-methylhistidine as the proximal ligand,… | monomer | 98.69 | 1×HEM; 1×EEE; | |||
| X-ray crystal structure of met I107Y sperm whale myoglobin | monomer | 99.35 | 1×HEM; | |||
| Myoglobin containing Ir complex | monomer | 96.73 | 1×KKC; 1×IRQ; 1×SO4; | |||
| Structure of aquoferric sperm whale myoglobin L29H/F33Y/F43H/S92A mutant | monomer | 97.39 | 1×HEM; | |||
| Sperm Whale Myoglobin H64V Mutant with Nitrite | monomer | 98.69 | 1×HEM; 4×NO2; 3×GOL; 2×SO4; | |||
| COBALT MYOGLOBIN (DEOXY) | monomer | 100 | 1×SO4; 1×COH; | |||
| COBALT MYOGLOBIN (MET) | monomer | 100 | 2×SO4; 1×COH; | |||
| COBALT MYOGLOBIN (OXY) | monomer | 100 | 1×SO4; 1×COH; 1×OXY; | |||
| Introducing a 2-His-1-Glu Non-Heme Iron Center into Myoglobin confers Nitric Oxide Reductase activi… | monomer | 98.69 | 1×HEM; 1×CU; 1×CYN; | |||
| The roles of glutamates and metal ions in a rationally designed nitric oxide reductase based on myo… | monomer | 97.39 | 1×HEM; 1×FE2; | |||
| HIGH RESOLUTION X-RAY STRUCTURES OF MYOGLOBIN-AND HEMOGLOBIN-ALKYL ISOCYANIDE COMPLEXES | monomer | 100 | 1×SO4; 1×HEM; 1×ENC; | |||
| CARBONMONOXY MYOGLOBIN AT 40 K | monomer | 100 | 2×SO4; 1×HEM; 1×CMO; | |||
| PHOTOPRODUCT OF CARBONMONOXY MYOGLOBIN AT 40 K | monomer | 100 | 2×SO4; 1×HEM; 1×CMO; | |||
| NATIVE SPERM WHALE MYOGLOBIN | monomer | 100 | 1×SO4; 1×HEM; | |||
| NATIVE SPERM WHALE MYOGLOBIN | monomer | 100 | 2×SO4; 1×HEM; | |||
| X-ray crystal structure of sperm whale myoglobin T67C mutant | monomer | 99.35 | 1×HEM; | |||
| NATIVE SPERM WHALE MYOGLOBIN | monomer | 100 | 1×SO4; 1×HEM; 1×CMO; | |||
| NATIVE SPERM WHALE MYOGLOBIN | monomer | 100 | 1×SO4; 1×HEM; | |||
| NATIVE SPERM WHALE MYOGLOBIN | monomer | 100 | 2×SO4; 1×HEM; | |||
| L29W Mb deoxy | monomer | 98.69 | 1×HEM; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN I99A MUTANT (MET) | monomer | 98.69 | 1×SO4; 1×HEM; | |||
| H64A sperm whale myoglobin with a Fe-chlorophenyl moiety | monomer | 98.69 | 1×4HE; 5×SO4; 2×GOL; | |||
| The Structures of Thiolate- and Carboxylate-Ligated Ferric H93G Myoglobin: Models for Cytochrome P4… | monomer | 99.35 | 1×HEM; 1×BME; | |||
| SPERM WHALE MYOGLOBIN (FERROUS, NITRIC OXIDE BOUND) | monomer | 100 | 1×SO4; 1×HEM; 1×NO; | |||
| myoglobin mutant F43Y/F46Y | monomer | 98.69 | 1×HEM; | |||
| Sperm whale myoglobin H64A with nitrosoamphetamine | monomer | 98.69 | 1×HEM; 4×SO4; 1×3QM; 5×GOL; | |||
| CARBONMONOXY-MYOGLOBIN (MUTANT L29W) AFTER PHOTOLYSIS AT T<180K | monomer | 98.69 | 1×GLC; 2×SO4; 1×HEM; 1×CMO; | |||
| NATIVE SPERM WHALE MYOGLOBIN | monomer | 100 | 1×SO4; 1×HEM; 1×CMO; | |||
| SPERM WHALE MYOGLOBIN N-BUTYL ISOCYANIDE AT PH 7.0 | monomer | 100 | 1×SO4; 1×HEM; 1×NBN; | |||
| Rational Design of a Structural and Functional Nitric Oxide Reductase | monomer | 98.04 | 1×HEM; 1×FE2; | |||
| H64A swMb-PrNO adduct | monomer | 98.69 | 1×HEM; 1×XEM; 4×SO4; | |||
| H64Q Myoglobin in complex with acetamide | monomer | 98.69 | 1×HEM; 1×ACM; 2×GOL; 4×SO4; | |||
| sperm whale myoglobin nitrosoethane adduct | monomer | 99.35 | 1×HEM; 5×SO4; 1×NOE; 1×CL; | |||
| WT swMb-MeNO | monomer | 99.35 | 1×HEM; 2×NSM; 3×SO4; | |||
| Ligand Migration and Protein Fluctuations in Myoglobin Mutant L29W | monomer | 98.69 | 1×HEM; | |||
| X-ray structure of sperm whale V21C/V66C/F46S myoglobin mutant with an intramolecular disulfide bond | monomer | 98.04 | 1×HEM; | |||
| L89S Mutant of FeBMb Sperm Whale Myoglobin | monomer | 97.39 | 1×HEM; | |||
| Deoxy form of sperm whale myoglobin H64A | monomer | 98.69 | 1×HEM; 6×SO4; 1×GOL; | |||
| Sperm whale myoglobin H64A with nitric oxide | monomer | 98.69 | 1×HEM; 3×SO4; 1×NO; 2×GOL; 7×NO2; | |||
| Sperm whale myoglobin H64Q with nitric oxide | monomer | 98.69 | 1×HEM; 3×SO4; 1×NO; 7×NO2; 3×GOL; | |||
| Sperm whale myoglobin V68A/I107Y with nitric oxide | monomer | 98.04 | 1×HEM; 1×SO4; 1×NO; 1×NO2; | |||
| A sperm whale myoglobin double mutant L29H/F43Y Mb with a Tyr-heme cross-link | monomer | 98.69 | 1×HEM; | |||
| HIGH RESOLUTION X-RAY STRUCTURES OF MYOGLOBIN-AND HEMOGLOBIN-ALKYL ISOCYANIDE COMPLEXES | monomer | 100 | 1×SO4; 1×HEM; 1×NBN; | |||
| HIGH RESOLUTION X-RAY STRUCTURES OF MYOGLOBIN-AND HEMOGLOBIN-ALKYL ISOCYANIDE COMPLEXES | monomer | 100 | 1×SO4; 1×HEM; 1×NPN; | |||
| X-ray structure of F43Y/H64D sperm whale myoglobin in complex with TCP | monomer | 98.69 | 1×HEM; 1×T6C; | |||
| Structure of L29W MbCO | monomer | 98.69 | 1×HEM; 1×CMO; | |||
| STRUCTURAL ANALYSIS OF THE MYOGLOBIN RECONSTITUTED WITH IRON PORPHINE | monomer | 100 | 1×CYN; 1×POR; | |||
| X-RAY CRYSTAL STRUCTURE OF THE FERRIC SPERM WHALE MYOGLOBIN: IMIDAZOLE COMPLEX AT 2.0 ANGSTROMS RES… | monomer | 100 | 1×AZI; 1×SO4; 1×HEM; | |||
| H64A swMb-iPrNO adduct | monomer | 98.69 | 1×HEM; 1×XEP; 3×SO4; | |||
| X-ray crystal strcture of F46C/L49C sperm whale myoglobin with an intramolecular disulfide bond | monomer | 98.69 | 1×HEM; | |||
| F33Y CuB myoglobin (F33Y L29H F43H sperm whale myoglobin) with copper bound | monomer | 98.04 | 1×HEM; 5×CU; | |||
| Structure of Mb NMH H64V, V68A mutant complex with EDA | monomer | 98.69 | 1×HEM; 1×EEE; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN L89F MUTANT (MET) | monomer | 98.69 | 1×SO4; 1×HEM; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN H97Q MUTANT (MET) | monomer | 98.69 | 1×SO4; 1×HEM; | |||
| HIGH RESOLUTION X-RAY STRUCTURES OF MYOGLOBIN-AND HEMOGLOBIN-ALKYL ISOCYANIDE COMPLEXES | monomer | 100 | 1×SO4; 1×HEM; 1×ENC; | |||
| SPERM WHALE MET-MYOGLOBIN:CYANIDE COMPLEX | monomer | 100 | 1×CYN; 1×SO4; 1×HEM; | |||
| Sperm whale myoglobin H64Q with nitrite | monomer | 98.69 | 1×HEM; 2×SO4; 10×NO2; 2×GOL; | |||
| CARBONMONOXY-MYOGLOBIN (MUTANT L29W) REBINDING STRUCTURE AFTER PHOTOLYSIS AT T< 180K | monomer | 98.69 | 1×GLC; 2×SO4; 1×HEM; 1×CMO; | |||
| X-ray structure of ferric F138Y sperm whale myoglobin | monomer | 99.35 | 1×HEM; | |||
| Sperm whale myoglobin H64A with nitrite | monomer | 98.69 | 1×HEM; 3×SO4; 8×NO2; 1×GOL; | |||
| An X-ray structure of ferric F43Y/F46S sperm whale myoglobin in complex with guaiacol | monomer | 98.69 | 1×HEM; 1×JZ3; | |||
| Structure of Mb NMH H64V, V68A mutant complex with EDA incubated at room temperature for 5 min | monomer | 98.69 | 1×EEE; 1×HEM; | |||
| Laue Structure of a Short Lived State of L29W Myoglobin | monomer | 98.69 | 1×HEM; 1×CMO; | |||
| Crystal structure of sperm whale myoglobin (F46L/H64A mutant) reconstituted with manganese porphyce… | monomer | 98.04 | 1×HNN; 6×SO4; 1×CL; | |||
| INCORPORATION OF A HEMIN WITH THE SHORTEST ACID SIDE-CHAINS INTO MYOGLOBIN | monomer | 100 | 1×CYN; 1×SO4; 1×HE6; | |||
| Aquoferric F33Y CuB myoglobin (F33Y L29H F43H sperm whale myoglobin) | monomer | 98.04 | 1×HEM; | |||
| Aquoferric CuB myoglobin (L29H F43H sperm whale myoglobin) | monomer | 98.69 | 1×HEM; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN H97F MUTANT (MET) | monomer | 98.69 | 1×SO4; 1×HEM; | |||
| X-ray crystal structure of sperm whale myoglobin F46C mutant | monomer | 99.35 | 1×HEM; | |||
| HIGH RESOLUTION X-RAY STRUCTURES OF MYOGLOBIN-AND HEMOGLOBIN-ALKYL ISOCYANIDE COMPLEXES | monomer | 100 | 1×SO4; 1×HEM; 1×MNC; | |||
| A sperm whale myoglobin double mutant L29E/F43H Mb with a non-native bis-His (His64/His93) coordina… | monomer | 98.69 | 1×HEM; | |||
| sperm whale myoglobin mutant (H64V V64A) bearing the non-canonical amino acid 3-thienylalanine as a… | monomer | 98.04 | 1×HEM; | |||
| Crystal structure of recombinant Sperm Whale Myoglobin under 1atm of Xenon | monomer | 100 | 1×HEM; 4×XE; 4×SO4; 1×GOL; | |||
| Nonheme Iron Replacement in a Biosynthetic Nitric Oxide Reductase Model Performing O2 Reduction to … | monomer | 98.04 | 1×HEM; 1×CO; | |||
| SPERM WHALE NATIVE CO MYOGLOBIN AT PH 4.0, TEMP 4C | monomer | 100 | 1×SO4; 1×HEM; 1×CMO; | |||
| X-RAY CRYSTAL STRUCTURE OF THE FERRIC SPERM WHALE MYOGLOBIN: IMIDAZOLE COMPLEX AT 2.0 ANGSTROMS RES… | monomer | 100 | 1×SO4; 1×HEM; 1×IMD; | |||
| 2.0-Angstrom In situ Mylar structure of sperm whale myoglobin (SWMb) at 293 K | monomer | 99.35 | 1×HEM; 5×CL; 3×SO4; | |||
| The stereochemistry of the protein myoglobin | monomer | 100 | 1×OH; 1×HEM; | |||
| REFINEMENT OF MYOGLOBIN AND CYTOCHROME C | monomer | 100 | 2×SO4; 1×HEM; | |||
| REFINEMENT OF MYOGLOBIN AND CYTOCHROME C | monomer | 100 | 1×SO4; 1×HEM; | |||
| sperm whale myoglobin 1-nitrosopropane | monomer | 99.35 | 1×HEM; 1×XEM; 4×SO4; 1×NA; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN L89W MUTANT (MET) | monomer | 98.69 | 1×SO4; 1×HEM; | |||
| NATIVE SPERM WHALE MYOGLOBIN | monomer | 100 | 1×SO4; 1×HEM; | |||
| NATIVE SPERM WHALE MYOGLOBIN | monomer | 100 | 2×SO4; 1×HEM; | |||
| SPERM WHALE MYOGLOBIN N-BUTYL ISOCYANIDE AT PH 9.0 | monomer | 100 | 1×SO4; 1×HEM; 1×NBN; | |||
| RECOMBINANT SPERM WHALE MYOGLOBIN H97V MUTANT (MET) | monomer | 98.69 | 1×SO4; 1×HEM; | |||
| Crystal structure of myoglobin reconstituted with iron porphycene | monomer | 100 | 1×HME; 1×IMD; | |||
| Crystal structure of sperm whale myoglobin reconstituted with manganese porphycene | monomer | 99.35 | 1×HNN; 4×SO4; | |||
| an x-ray structure of ferric L29E Mb in complex with Mg(II) | monomer | 99.35 | 1×HEM; 1×MG; | |||
| Crystal structure of sperm whale myoglobin (F43A/H64I mutant) reconstituted with manganese porphyce… | monomer | 98.04 | 1×HNN; 6×SO4; | |||
| Structure of Mb NMH H64V, V68A mutant complex with EDA incubated at room temperature for 20 min | monomer | 98.69 | 1×EEE; 1×HEM; | |||
| SOLUTION STRUCTURE OF CARBONMONOXY MYOGLOBIN DETERMINED FROM NMR DISTANCE AND CHEMICAL SHIFT CONSTR… | monomer | 100 | 1×HEM; 1×CMO; | |||
| HYDRATION IN PROTEIN CRYSTALS. A NEUTRON DIFFRACTION ANALYSIS OF CARBONMONOXYMYOGLOBIN | monomer | 100 | 1×SO4; 5×ND4; 1×HEM; 1×CMO; | |||
| NEUTRON STRUCTURE OF FULLY DEUTERATED SPERM WHALE MYOGLOBIN AT 2.0 ANGSTROM | monomer | 100 | 1×HEM; | |||
| COMBINED RIETVELD AND STEREOCHEMICAL RESTRAINT REFINEMENT OF A PROTEIN | monomer | 100 | 1×HEM; | |||
| Engineered sperm whale myoglobin-based carbene transferase MbBTIC-C3 | monomer | 97.37 | 1×HEM; 7×SO4; | |||
| Crystal structure of sperm whale myoglobin variant sMb5(pCaaF) | monomer | 96.71 | 1×NO3; 1×HEM; 1×OXY; 5×SO4; | |||
| Crystal structure of the oxy myoglobin free from X-ray-induced photoreduction | monomer | 100 | 2×SO4; 1×HEM; 1×OXY; | |||
| Crystal structure of sperm whale myoglobin variant sMb13(pCaaF) in space group P212121 | monomer | 94.74 | 1×HEM; 2×SO4; 1×CL; | |||
| Structure of MbQ | monomer | 97.37 | 1×IMD; 1×HEM; | |||
| Structure of G65I sperm whale myoglobin mutant | monomer | 99.34 | 1×HEM; 1×ACT; 2×EDO; | |||
| X-ray crystal structure of met F43H/H64A sperm whale myoglobin | monomer | 98.68 | 1×HEM; | |||
| X-ray crystal structure of met F43H/H64A sperm whale myoglobin in complex with nitric oxide | monomer | 98.68 | 1×HEM; 1×NO; | |||
| Crystal structure of I107E CuB myoglobin (I107E L29H F43H sperm whale myoglobin) | monomer | 98.03 | 1×HEM; 1×PG4; 1×EDO; 1×SO4; 1×NA; | |||
| Met form of sperm whale myoglobin V68A/I107Y | monomer | 98.03 | 1×HEM; 3×SO4; 1×GOL; | |||
| The X-ray structure of sperm whale F46C/L61C myoglobin double mutant | monomer | 98.68 | 1×HEM; | |||
| Deoxy form of sperm whale myoglobin V68A/I107Y | monomer | 98.03 | 1×HEM; 3×SO4; 2×GOL; | |||
| Engineered sperm whale myoglobin-based carbene transferase MbBTIC-C2 | monomer | 96.71 | 1×HEM; 8×SO4; | |||
| SPERM WHALE METAQUOMYOGLOBIN PROXIMAL HISTIDINE MUTANT H93G WITH 1-METHYLIMIDAZOLE AS PROXIMAL LIGA… | monomer | 99.34 | 1×HEM; 1×1MZ; | |||
| WILD-TYPE RECOMBINANT SPERM WHALE METAQUOMYOGLOBIN | monomer | 100 | 1×HEM; | |||
| CRYSTAL STRUCTURE OF THE SPERM-WHALE MYOGLOBIN MUTANT H93G COMPLEXED WITH 4-METHYLIMIDAZOLE, METAQU… | monomer | 99.34 | 1×HEM; 1×4MZ; | |||
| CYSTEINE RICH INTESTINAL PROTEIN | monomer | 99.34 | 1×HEM; 1×IMD; | |||
| Sperm Whale met-Myoglobin (room temperature; high pressure) | monomer | 100 | 3×SO4; 1×HEM; | |||
| Sperm Whale met-Myoglobin (room temperature; room pressure) | monomer | 100 | 2×SO4; 1×HEM; | |||
| Sperm whale myoglobin swMb | monomer | 100 | 1×HEM; 3×SO4; | |||
| High resolution crystal structure of Sperm Whale Myoglobin in the carbonmonoxy form | monomer | 100 | 3×SO4; 1×HEM; 1×CMO; | |||
| OXY-MYOGLOBIN, ATOMIC RESOLUTION | monomer | 100 | 2×SO4; 1×HEM; 1×OXY; | |||
| AQUOMET-MYOGLOBIN, ATOMIC RESOLUTION | monomer | 100 | 3×SO4; 1×HEM; | |||
| CARBONMONOXY-MYOGLOBIN, ATOMIC RESOLUTION | monomer | 99.34 | 2×SO4; 1×HEM; 1×CMO; | |||
| DEOXY-MYOGLOBIN, ATOMIC RESOLUTION | monomer | 100 | 2×SO4; 1×HEM; | |||
| Crystal structure of the ferric peroxo myoglobin | monomer | 100 | 2×SO4; 1×HEM; 1×PER; | |||
| met-aquo form of sperm whale myoglobin reconstituted with 7-PF, a heme possesseing CF3 group as sid… | monomer | 100 | 1×89R; 3×SO4; | |||
| Structure of chemically modified myoglobin with distal N-tetrazolyl-histidine E7(64) | monomer | 100 | 2×SO4; 1×HEM; | |||
| Wild-type sperm whale myoglobin with nitric oxide | monomer | 99.34 | 1×HEM; 1×NO; 1×SO4; 1×NO2; 1×GOL; | |||
| Sperm Whale met-Myoglobin (low temperature; high pressure) | monomer | 100 | 5×SO4; 1×HEM; | |||
| Sperm Whale met-Myoglobin (low temperature; high pressure) | monomer | 100 | 4×SO4; 1×HEM; | |||
| H64A swMb-MeNO adduct | monomer | 98.67 | 1×HEM; 1×NSM; 1×SO4; | |||
| Wild-Type Sperm Whale Myoglobin in Complex with Nitrosobenzene | monomer | 99.34 | 1×HEM; 1×NBE; 1×SO4; | |||
| Sperm whale myoglobin V68A/I107Y with nitrite | monomer | 98.67 | 1×HEM; 1×SO4; 2×NO2; | |||
| H64Q sperm whale myoglobin with a Fe-chlorophenyl moiety | monomer | 98.67 | 3×SO4; 1×4HE; 1×GOL; | |||
| Wild-type sperm whale myoglobin with a Fe-phenyl moiety | monomer | 99.34 | 1×6CO; 1×SO4; 1×GOL; | |||
| H64Q sperm whale myoglobin with a Fe-tolyl moiety | monomer | 98.67 | 1×6CQ; 3×SO4; 1×GOL; | |||
| An X-ray structure of met sperm whale F43Y/T67R myoglobin with Tyr-heme double cross-links | monomer | 98.67 | 1×HEM; | |||
| Neutron Structure Determination of Sperm Whale Met-Myoglobin at 1.5A Resolution. | monomer | 100 | 2×SO4; 1×ND4; 1×HEM; | |||
2 SWISS-MODEL models
| Template | Oligo-state | QMEAN | Range | Ligands | Trg-Tpl Seq id (%) | |
|---|---|---|---|---|---|---|
| 4pnj.1.A | monomer | 0.86 | 1×HEM; | 100.00 | ||
| 3vm9.1.B | monomer | 0.81 | 1×O; | 87.58 | ||