Masayoshi Nakasako scite author profile

Calcium ATPase is a member of the P-type ATPases that transport ions across the membrane against a concentration gradient. Here we have solved the crystal structure of the calcium ATPase of skeletal muscle sarcoplasmic reticulum (SERCA1a) at 2.6 A resolution with two calcium ions bound in the transmembrane domain, which comprises ten alpha-helices. The two calcium ions are located side by side and are surrounded by four transmembrane helices, two of which are unwound for efficient coordination geometry. The cytoplasmic region consists of three well separated domains, with the phosphorylation site in the central catalytic domain and the adenosine-binding site on another domain. The phosphorylation domain has the same fold as haloacid dehalogenase. Comparison with a low-resolution electron density map of the enzyme in the absence of calcium and with biochemical data suggests that large domain movements take place during active transport.

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Novel non-heme iron center of nitrile hydratase with a claw setting of oxygen atoms

Nagashima

Nakasako

Dohmae

et al. 1998

Nat Struct Mol Biol

348

358

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The iron-containing nitrile hydratase (NHase) is a photoreactive enzyme that is inactivated in the dark because of persistent association with NO and activated by photo-dissociation of NO. The crystal structure at 1.7 A resolution and mass spectrometry revealed the structure of the non-heme iron catalytic center in the nitrosylated state. Two Cys residues coordinated to the iron were post-translationally modified to Cys-sulfenic and -sulfinic acids. Together with another oxygen atom of the Ser ligand, these modifications induced a claw setting of oxygen atoms capturing an NO molecule. This unprecedented structure is likely to enable the photo-regulation of NHase and will provide an excellent model for designing photo-controllable chelate complexes and, ultimately, proteins.

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Light-Induced Structural Changes of LOV Domain-Containing Polypeptides from Arabidopsis Phototropin 1 and 2 Studied by Small-Angle X-ray Scattering

et al. 2004

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Phototropin is a blue-light receptor of plants and comprises two light-receptive domains, LOV1 and LOV2, Ser/Thr kinase domain and one linker region connecting the LOV2 and the kinase domains. The LOV2 domain is thought to regulate predominantly the light-dependent autophosphorylation of the kinase domain, leading to cellular signaling cascades. In this study, we constructed recombinant LOV1, LOV2, and LOV2-linker polypeptides from phototropin 1 and phototropin 2 of Arabidopsis thaliana and studied their quaternary structures and light-dependent conformational changes by small-angle X-ray scattering. The molecular weights of the polypeptides determined from scattering intensities demonstrated the dimeric associations of LOV1 polypeptides of both isoforms. In contrast, while LOV2 and LOV2-linker polypeptides of phototropin 1 were homodimers, corresponding polypeptides of phototropin 2 existed as monomeric forms. Under blue-light irradiation, the LOV2-linker polypeptide of phototropin 1 displayed small but definite changes of the scattering profile. Through simulation of low-resolution molecular structures, the changes were likely explained as structural changes of the linker region and/or a movement of the region relative to the LOV2 domain. Light-induced profile changes were not observed in the Cys(512)Ala mutated LOV2-linker polypeptide of phototropin 1 losing the phototransformation capability. Thus, it was indicated that the photoreaction in the LOV2 domain probably caused the structural changes in the LOV2-linker polypeptide of phototropin 1. On the basis of the results, the interdomain interactions in phototropin are discussed.

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