7DGO
The Zn-bound dimeric structure of K79H/G80A/H81A myoglobin
Summary for 7DGO
Entry DOI | 10.2210/pdb7dgo/pdb |
Descriptor | Myoglobin, PROTOPORPHYRIN IX CONTAINING FE, OXYGEN ATOM, ... (5 entities in total) |
Functional Keywords | oxygen storage, oxygen binding |
Biological source | Equus caballus (Horse) |
Total number of polymer chains | 2 |
Total formula weight | 35470.89 |
Authors | Nagao, S.,Idomoto, A.,Shibata, N.,Higuchi, Y.,Hirota, S. (deposition date: 2020-11-12, release date: 2021-02-17, Last modification date: 2023-11-29) |
Primary citation | Nagao, S.,Idomoto, A.,Shibata, N.,Higuchi, Y.,Hirota, S. Rational design of metal-binding sites in domain-swapped myoglobin dimers. J.Inorg.Biochem., 217:111374-111374, 2021 Cited by PubMed Abstract: The metal active site is precisely designed in metalloproteins. Here we applied 3D domain swapping, a phenomenon in which a partial protein structure is exchanged between molecules, to introduce metal sites in proteins. We designed multiple metal-binding sites specific to domain-swapped myoglobin (Mb) with His mutation. Stable dimeric Mbs with metal-binding sites were obtained by shifting the His position and introducing two Ala residues in the hinge region (K78H/G80A/H82A and K79H/G80A/H81A Mbs). The absorption and circular dichroism spectra of the monomer and dimer of K78H/G80A/H82A and K79H/G80A/H81A Mbs were similar to the corresponding spectra, respectively, of wild-type Mb. No negative peak due to dimer-to-monomer dissociation was observed below the denaturation temperature in the differential scanning calorimetry thermograms of K78H/G80A/H82A and K79H/G80A/H81A Mbs, whereas the dimer dissociates into monomers at 68 °C for wild-type Mb. These results show that the two mutants were stable in the dimer state. Metal ions bound to the metal-binding sites containing the introduced His in the domain-swapped Mb dimers. Co-bound and Ni-bound K78H/G80A/H82A Mb exhibited octahedral metal-coordination structures, where His78, His81, Glu85, and three HO/OH molecules coordinated to the metal ion. On the other hand, Co-bound and Zn-bound K79H/G80A/H81A Mb exhibited tetrahedral metal-coordination structures, where His79, His82, Asp141, and a HO/OH molecule coordinated to the metal ion. The Co-bound site exists deep inside the protein in the K79H/G80A/H81A Mb dimer, which may allow the unique tetrahedral coordination for the Co ion. These results show that we can utilize domain swapping to construct artificial metalloproteins. PubMed: 33578251DOI: 10.1016/j.jinorgbio.2021.111374 PDB entries with the same primary citation |
Experimental method | X-RAY DIFFRACTION (2 Å) |
Structure validation
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