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Your search keyword '"Kazutoshi Tani"' showing total 4 results
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4 results on '"Kazutoshi Tani"'

1. Crystal structures of claudins: insights into their intermolecular interactions

Author

Hiroshi Suzuki, Yoshinori Fujiyoshi, and Kazutoshi Tani

Subjects
0301 basic medicine, endocrine system diseases, Tight junction, urogenital system, Chemistry, General Neuroscience, digestive system, digestive system diseases, General Biochemistry, Genetics and Molecular Biology, Epithelium, Cell biology, 03 medical and health sciences, Transmembrane domain, 030104 developmental biology, Membrane, medicine.anatomical_structure, History and Philosophy of Science, Paracellular transport, Extracellular, medicine, Receptor, Claudin, tissues
Abstract

Claudins are four-transmembrane proteins that constitute the backbone of tight junction strands via self-polymerization in the apicolateral membranes of epithelial cells. Together with their cell-cell adhesion function, claudin proteins form the paracellular barrier and/or channels through epithelial cell sheets whose permeability is primarily dependent on the claudin subtype. Recently determined crystal structures of several claudins revealed the unique claudin fold of four transmembrane helices in a left-handed helical bundle with an extracellular β-sheet domain. Here, we focus on the structural basis of the intermolecular interactions between claudin molecules and between the Clostridium perfringens enterotoxin and its receptor claudins.

Published
2017

2. Inter-subunit interaction of gastric H+,K+-ATPase prevents reverse reaction of the transport cycle

Author

Yoshinori Fujiyoshi, Kazutoshi Tani, Tomohiro Nishizawa, and Kazuhiro Abe

Subjects
Models, Molecular, chemistry.chemical_classification, General Immunology and Microbiology, Proton, Electron crystallography, General Neuroscience, Cryoelectron Microscopy, Biology, Article, General Biochemistry, Genetics and Molecular Biology, Reversible reaction, Catalysis, H(+)-K(+)-Exchanging ATPase, Membrane, Enzyme, chemistry, Biochemistry, Gastric Mucosa, Biophysics, Phosphorylation, Protein Structure, Quaternary, Electrochemical gradient, Molecular Biology, Sequence Deletion
Abstract

The gastric H+,K+-ATPase is an ATP-driven proton pump responsible for generating a million-fold proton gradient across the gastric membrane. We present the structure of gastric H+,K+-ATPase at 6.5 Å resolution as determined by electron crystallography of two-dimensional crystals. The structure shows the catalytic α-subunit and the non-catalytic β-subunit in a pseudo-E2P conformation. Different from Na+,K+-ATPase, the N-terminal tail of the β-subunit is in direct contact with the phosphorylation domain of the α-subunit. This interaction may hold the phosphorylation domain in place, thus stabilizing the enzyme conformation and preventing the reverse reaction of the transport cycle. Indeed, truncation of the β-subunit N-terminus allowed the reverse reaction to occur. These results suggest that the β-subunit N-terminus prevents the reverse reaction from E2P to E1P, which is likely to be relevant for the generation of a large H+ gradient in vivo situation.

Published
2009

3. Solution structure of a BolA-like protein from Mus musculus

Author

Naoko Shinya, Masaaki Aoki, Takaho Terada, Takayoshi Matsuda, Satoko Yasuda, Yoshihide Hayashizaki, Mayumi Yoshida, Jun Kawai, Takashi Yabuki, Takahiro Arakawa, Mikako Shirouzu, Hiroaki Hamana, Natsuko Matsuda, Y. Matsuo, Takanori Kigawa, Piero Carninci, Seizo Koshiba, Emi Nunokawa, Yasuko Tomo, Eiko Seki, Shigeyuki Yokoyama, Kazutoshi Tani, Takuma Kasai, Makoto Inoue, Ayako Tatsuguchi, Hiroshi Hirota, Naomi Obayashi, and Harukazu Suzuki

Subjects
Models, Molecular, Globular protein, Molecular Sequence Data, Biology, Thioredoxin fold, Antiparallel (biochemistry), Biochemistry, Protein Structure, Secondary, Structural genomics, Mice, Protein structure, Animals, Humans, Amino Acid Sequence, Nuclear Magnetic Resonance, Biomolecular, Molecular Biology, Peptide sequence, chemistry.chemical_classification, Sequence Homology, Amino Acid, Proteins, Globin fold, Amino acid, Solutions, chemistry, For the Record
Abstract

The BolA-like proteins are widely conserved from prokaryotes to eukaryotes. The BolA-like proteins seem to be involved in cell proliferation or cell-cycle regulation, but the molecular function is still unknown. Here we determined the structure of a mouse BolA-like protein. The overall topology is alphabetabetaalphaalphabetaalpha, in which beta(1) and beta(2) are antiparallel, and beta(3) is parallel to beta(2). This fold is similar to the class II KH fold, except for the absence of the GXXG loop, which is well conserved in the KH fold. The conserved residues in the BolA-like proteins are assembled on the one side of the protein.

Published
2004

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